Poodletooth-iLand/toontown/safezone/DistributedFindFour.py

895 lines
33 KiB
Python
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2015-03-03 16:10:12 -06:00
from direct.distributed import DistributedNode
from direct.distributed.ClockDelta import *
from direct.distributed.ClockDelta import *
from direct.distributed.ClockDelta import globalClockDelta
from direct.fsm import ClassicFSM, State
from direct.fsm import StateData
from direct.gui.DirectGui import *
from direct.interval.IntervalGlobal import *
from direct.showbase import PythonUtil
from direct.task.Task import Task
from pandac.PandaModules import *
from random import *
from ChineseCheckersBoard import ChineseCheckersBoard
from TrolleyConstants import *
from otp.otpbase import OTPGlobals
from toontown.toonbase import TTLocalizer
from toontown.toonbase import ToontownGlobals
from toontown.toonbase.ToontownTimer import ToontownTimer
class DistributedFindFour(DistributedNode.DistributedNode):
def __init__(self, cr):
NodePath.__init__(self, 'DistributedFindFour')
DistributedNode.DistributedNode.__init__(self, cr)
self.cr = cr
self.reparentTo(render)
self.boardNode = loader.loadModel('phase_6/models/golf/findfour_game.bam')
self.boardNode.reparentTo(self)
self.board = [[0,
0,
0,
0,
0,
0,
0],
[0,
0,
0,
0,
0,
0,
0],
[0,
0,
0,
0,
0,
0,
0],
[0,
0,
0,
0,
0,
0,
0],
[0,
0,
0,
0,
0,
0,
0],
[0,
0,
0,
0,
0,
0,
0]]
self.exitButton = None
self.inGame = False
self.waiting = True
self.startButton = None
self.playerNum = None
self.turnText = None
self.isMyTurn = False
self.wantTimer = True
self.leaveButton = None
self.screenText = None
self.turnText = None
self.exitButton = None
self.numRandomMoves = 0
self.blinker = Sequence()
self.playersTurnBlinker = Sequence()
self.yourTurnBlinker = Sequence()
self.winningSequence = Sequence()
self.moveSequence = Sequence()
self.moveList = []
self.mySquares = []
self.playerSeats = None
self.moveCol = None
self.move = None
self.accept('mouse1', self.mouseClick)
self.traverser = base.cTrav
self.pickerNode = CollisionNode('mouseRay')
self.pickerNP = camera.attachNewNode(self.pickerNode)
self.pickerNode.setFromCollideMask(BitMask32(4096))
self.pickerRay = CollisionRay()
self.pickerNode.addSolid(self.pickerRay)
self.myHandler = CollisionHandlerQueue()
self.traverser.addCollider(self.pickerNP, self.myHandler)
self.buttonModels = loader.loadModel('phase_3.5/models/gui/inventory_gui')
self.upButton = self.buttonModels.find('**//InventoryButtonUp')
self.downButton = self.buttonModels.find('**/InventoryButtonDown')
self.rolloverButton = self.buttonModels.find('**/InventoryButtonRollover')
self.clockNode = ToontownTimer()
self.clockNode.setPos(1.16, 0, -0.83)
self.clockNode.setScale(0.3)
self.clockNode.hide()
self.tintConstant = Vec4(0.25, 0.25, 0.25, 0)
self.ghostConstant = Vec4(0, 0, 0, 0.5)
self.knockSound = base.loadSfx('phase_5/audio/sfx/GUI_knock_1.ogg')
self.clickSound = base.loadSfx('phase_3/audio/sfx/GUI_balloon_popup.ogg')
self.moveSound = base.loadSfx('phase_6/audio/sfx/CC_move.ogg')
self.accept('stoppedAsleep', self.handleSleep)
from direct.fsm import ClassicFSM, State
self.fsm = ClassicFSM.ClassicFSM('ChineseCheckers', [State.State('waitingToBegin', self.enterWaitingToBegin, self.exitWaitingToBegin, ['playing', 'gameOver']), State.State('playing', self.enterPlaying, self.exitPlaying, ['gameOver']), State.State('gameOver', self.enterGameOver, self.exitGameOver, ['waitingToBegin'])], 'waitingToBegin', 'waitingToBegin')
startLoc = self.boardNode.find('**/locators')
self.locatorList = startLoc.getChildren()
self.startingPositions = self.locatorList.pop(0)
self.startingPositions = self.startingPositions.getChildren()
instancePiece = self.boardNode.find('**/pieces')
tempList = []
for x in xrange(7):
self.startingPositions[x].setTag('StartLocator', '%d' % x)
collNode = CollisionNode('startpicker%d' % x)
collNode.setIntoCollideMask(BitMask32(4096))
tempList.append(self.startingPositions[x].attachNewNode(collNode))
tempList[x].node().addSolid(CollisionTube(0, 0, 0.23, 0, 0, -.23, 0.2))
for z in self.startingPositions:
y = instancePiece.copyTo(z)
for val in y.getChildren():
val.hide()
tempList = []
for x in xrange(42):
self.locatorList[x].setTag('GamePeiceLocator', '%d' % x)
collNode = CollisionNode('startpicker%d' % x)
collNode.setIntoCollideMask(BitMask32(4096))
tempList.append(self.locatorList[x].attachNewNode(collNode))
tempList[x].node().addSolid(CollisionSphere(0, 0, 0, 0.2))
for z in self.locatorList:
y = instancePiece.copyTo(z)
for val in y.getChildren():
val.hide()
dummyHide = instancePiece.getParent().attachNewNode('DummyHider')
instancePiece.reparentTo(dummyHide)
dummyHide.hide()
return
def setName(self, name):
self.name = name
def announceGenerate(self):
DistributedNode.DistributedNode.announceGenerate(self)
if self.table.fsm.getCurrentState().getName() != 'observing':
if base.localAvatar.doId in self.table.tableState:
self.seatPos = self.table.tableState.index(base.localAvatar.doId)
if self.seatPos <= 2:
for x in self.startingPositions:
x.setH(0)
for x in self.locatorList:
x.setH(0)
else:
for x in self.startingPositions:
x.setH(180)
for x in self.locatorList:
x.setH(180)
self.moveCameraForGame()
else:
self.seatPos = self.table.seatBumpForObserve
if self.seatPos > 2:
for x in self.startingPositions:
x.setH(180)
for x in self.locatorList:
x.setH(180)
self.moveCameraForGame()
def handleSleep(self, task = None):
if self.fsm.getCurrentState().getName() == 'waitingToBegin':
self.exitButtonPushed()
if task != None:
task.done
return
def setTableDoId(self, doId):
self.tableDoId = doId
self.table = self.cr.doId2do[doId]
self.table.setTimerFunc(self.startButtonPushed)
self.fsm.enterInitialState()
self.table.setGameDoId(self.doId)
def disable(self):
DistributedNode.DistributedNode.disable(self)
if self.leaveButton:
self.leaveButton.destroy()
self.leavebutton = None
if self.screenText:
self.screenText.destroy()
self.screenText = None
if self.turnText:
self.turnText.destroy()
self.turnText = None
self.clockNode.stop()
self.clockNode.hide()
self.ignore('mouse1')
self.ignore('stoppedAsleep')
self.fsm = None
taskMgr.remove('playerTurnTask')
return
def delete(self):
DistributedNode.DistributedNode.delete(self)
self.table.gameDoId = None
self.table.game = None
if self.exitButton:
self.exitButton.destroy()
if self.startButton:
self.startButton.destroy()
self.clockNode.stop()
self.clockNode.hide()
self.table.startButtonPushed = None
self.ignore('mouse1')
self.ignore('stoppedAsleep')
self.fsm = None
self.table = None
self.winningSequence.finish()
taskMgr.remove('playerTurnTask')
return
def getTimer(self):
self.sendUpdate('requestTimer', [])
def setTimer(self, timerEnd):
if self.fsm.getCurrentState() != None and self.fsm.getCurrentState().getName() == 'waitingToBegin' and not self.table.fsm.getCurrentState().getName() == 'observing':
self.clockNode.stop()
time = globalClockDelta.networkToLocalTime(timerEnd)
timeLeft = int(time - globalClock.getRealTime())
if timeLeft > 0 and timerEnd != 0:
if timeLeft > 60:
timeLeft = 60
self.clockNode.setPos(1.16, 0, -0.83)
self.clockNode.countdown(timeLeft, self.startButtonPushed)
self.clockNode.show()
else:
self.clockNode.stop()
self.clockNode.hide()
return
def setTurnTimer(self, turnEnd):
if self.fsm.getCurrentState() != None and self.fsm.getCurrentState().getName() == 'playing':
self.clockNode.stop()
time = globalClockDelta.networkToLocalTime(turnEnd)
timeLeft = int(time - globalClock.getRealTime())
if timeLeft > 0:
self.clockNode.setPos(0.64, 0, -0.27)
self.clockNode.countdown(timeLeft, self.doRandomMove)
self.clockNode.show()
return
def gameStart(self, playerNum):
if playerNum != 255:
self.playerNum = playerNum
if self.playerNum == 1:
self.playerColorString = 'Red'
else:
self.playerColorString = 'Yellow'
self.moveCameraForGame()
self.fsm.request('playing')
def sendTurn(self, playersTurn):
if self.fsm.getCurrentState().getName() == 'playing':
if playersTurn == self.playerNum:
self.isMyTurn = True
taskMgr.add(self.turnTask, 'playerTurnTask')
self.enableTurnScreenText(playersTurn)
def illegalMove(self):
self.exitButtonPushed()
def moveCameraForGame(self):
if self.table.cameraBoardTrack.isPlaying():
self.table.cameraBoardTrack.pause()
rotation = 0
if self.seatPos <= 2:
position = self.table.seats[1].getPos()
position = position + Vec3(0, -8, 12.8)
int = LerpPosHprInterval(camera, 2, position, Vec3(0, -38, 0), camera.getPos(), camera.getHpr())
else:
position = self.table.seats[4].getPos()
position = position + Vec3(0, -8, 12.8)
if camera.getH() < 0:
int = LerpPosHprInterval(camera, 2, position, Vec3(-180, -20, 0), camera.getPos(), camera.getHpr())
else:
int = LerpPosHprInterval(camera, 2, position, Vec3(180, -20, 0), camera.getPos(), camera.getHpr())
int.start()
def enterWaitingToBegin(self):
if self.table.fsm.getCurrentState().getName() != 'observing':
self.enableExitButton()
self.enableStartButton()
def exitWaitingToBegin(self):
if self.exitButton:
self.exitButton.destroy()
self.exitButton = None
if self.startButton:
self.startButton.destroy()
self.exitButton = None
self.clockNode.stop()
self.clockNode.hide()
return
def enterPlaying(self):
self.inGame = True
self.enableScreenText()
if self.table.fsm.getCurrentState().getName() != 'observing':
self.enableLeaveButton()
def exitPlaying(self):
self.inGame = False
if self.leaveButton:
self.leaveButton.destroy()
self.leavebutton = None
self.playerNum = None
if self.screenText:
self.screenText.destroy()
self.screenText = None
if self.turnText:
self.turnText.destroy()
self.turnText = None
self.clockNode.stop()
self.clockNode.hide()
return
def enterGameOver(self):
pass
def exitGameOver(self):
pass
def exitWaitCountdown(self):
self.__disableCollisions()
self.ignore('trolleyExitButton')
self.clockNode.reset()
def enableExitButton(self):
self.exitButton = DirectButton(relief=None, text=TTLocalizer.ChineseCheckersGetUpButton, text_fg=(1, 1, 0.65, 1), text_pos=(0, -.23), text_scale=0.8, image=(self.upButton, self.downButton, self.rolloverButton), image_color=(1, 0, 0, 1), image_scale=(20, 1, 11), pos=(0.92, 0, 0.8), scale=0.15, command=lambda self = self: self.exitButtonPushed())
return
def enableScreenText(self):
defaultPos = (-.7, -0.29)
if self.playerNum == 1:
message = 'You are Red'
color = Vec4(1, 0, 0, 1)
elif self.playerNum == 2:
message = 'You are Yellow'
color = Vec4(1, 1, 0, 1)
else:
message = TTLocalizer.CheckersObserver
color = Vec4(0, 0, 0, 1)
self.screenText = OnscreenText(text=message, pos=defaultPos, scale=0.1, fg=color, align=TextNode.ACenter, mayChange=1)
def enableStartButton(self):
self.startButton = DirectButton(relief=None, text=TTLocalizer.ChineseCheckersStartButton, text_fg=(1, 1, 0.65, 1), text_pos=(0, -.23), text_scale=0.6, image=(self.upButton, self.downButton, self.rolloverButton), image_color=(1, 0, 0, 1), image_scale=(20, 1, 11), pos=(0.92, 0, 0.57), scale=0.15, command=lambda self = self: self.startButtonPushed())
return
def enableLeaveButton(self):
self.leaveButton = DirectButton(relief=None, text=TTLocalizer.ChineseCheckersQuitButton, text_fg=(1, 1, 0.65, 1), text_pos=(0, -.13), text_scale=0.5, image=(self.upButton, self.downButton, self.rolloverButton), image_color=(1, 0, 0, 1), image_scale=(20, 1, 11), pos=(0.92, 0, 0.8), scale=0.15, command=lambda self = self: self.exitButtonPushed())
return
def enableTurnScreenText(self, player):
playerOrder = [1,
4,
2,
5,
3,
6]
message1 = TTLocalizer.CheckersIts
if self.turnText != None:
self.turnText.destroy()
if player == self.playerNum:
message2 = TTLocalizer.ChineseCheckersYourTurn
color = (0, 0, 0, 1)
elif player == 1:
message2 = "Red's Turn"
color = (1, 0, 0, 1)
elif player == 2:
message2 = "Yellow's Turn"
color = (1, 1, 0, 1)
self.turnText = OnscreenText(text=message1 + message2, pos=(-0.7, -0.39), scale=0.092, fg=color, align=TextNode.ACenter, mayChange=1)
return
def startButtonPushed(self):
self.sendUpdate('requestBegin')
self.startButton.hide()
self.clockNode.stop()
self.clockNode.hide()
def exitButtonPushed(self):
self.fsm.request('gameOver')
self.table.fsm.request('off')
self.clockNode.stop()
self.clockNode.hide()
self.table.sendUpdate('requestExit')
def mouseClick(self):
messenger.send('wakeup')
if self.isMyTurn == True and self.inGame == True and not self.moveSequence.isPlaying():
if self.moveCol != None:
self.d_requestMove(self.moveCol)
self.moveCol = None
self.isMyTurn = False
taskMgr.remove('playerTurnTask')
return
def handleClicked(self, index):
pass
def turnTask(self, task):
if base.mouseWatcherNode.hasMouse() == False:
return task.cont
if self.isMyTurn == False:
return task.cont
if self.moveSequence.isPlaying():
return task.cont
mpos = base.mouseWatcherNode.getMouse()
self.pickerRay.setFromLens(base.camNode, mpos.getX(), mpos.getY())
self.traverser.traverse(render)
if self.myHandler.getNumEntries() > 0:
self.myHandler.sortEntries()
pickedObj = self.myHandler.getEntry(0).getIntoNodePath()
pickedObj = pickedObj.getNetTag('StartLocator')
if pickedObj:
colVal = int(pickedObj)
if colVal == self.moveCol:
return task.cont
if self.board[0][colVal] == 0:
if self.moveCol != None:
for x in self.startingPositions[self.moveCol].getChild(1).getChildren():
x.hide()
self.moveCol = colVal
if self.playerNum == 1:
self.startingPositions[self.moveCol].getChild(1).getChild(2).show()
elif self.playerNum == 2:
self.startingPositions[self.moveCol].getChild(1).getChild(3).show()
return task.cont
def d_requestMove(self, moveCol):
self.sendUpdate('requestMove', [moveCol])
def setGameState(self, tableState, moveCol, movePos, turn):
messenger.send('wakeup')
if self.table.fsm.getCurrentState().getName() == 'observing':
isBlank = True
for x in xrange(7):
if self.board[5][x] != 0:
isBlank = False
break
gameBlank = True
for x in xrange(7):
if tableState[5][x] != 0:
gameBlank = False
break
if isBlank == True and gameBlank == False:
for x in xrange(6):
for y in xrange(7):
self.board[x][y] = tableState[x][y]
self.updateGameState()
return
if moveCol == 0 and movePos == 0 and turn == 0:
for x in xrange(6):
for y in xrange(7):
self.board[x][y] = tableState[x][y]
self.updateGameState()
else:
self.animatePeice(tableState, moveCol, movePos, turn)
didIWin = self.checkForWin()
if didIWin != None:
self.sendUpdate('requestWin', [didIWin])
return
def updateGameState(self):
for x in xrange(6):
for y in xrange(7):
for z in self.locatorList[x * 7 + y].getChild(1).getChildren():
z.hide()
for x in xrange(6):
for y in xrange(7):
state = self.board[x][y]
if state == 1:
self.locatorList[x * 7 + y].getChild(1).getChild(0).show()
elif state == 2:
self.locatorList[x * 7 + y].getChild(1).getChild(1).show()
def checkForWin(self):
for x in xrange(6):
for y in xrange(7):
if self.board[x][y] == self.playerNum:
if self.checkHorizontal(x, y, self.playerNum) == True:
return [x, y]
elif self.checkVertical(x, y, self.playerNum) == True:
return [x, y]
elif self.checkDiagonal(x, y, self.playerNum) == True:
return [x, y]
return None
def announceWinnerPosition(self, x, y, winDirection, playerNum):
self.isMyturn = False
if self.turnText:
self.turnText.hide()
self.clockNode.stop()
self.clockNode.hide()
if winDirection == 0:
blinkList = self.findHorizontal(x, y, playerNum)
elif winDirection == 1:
blinkList = self.findVertical(x, y, playerNum)
elif winDirection == 2:
blinkList = self.findDiagonal(x, y, playerNum)
if blinkList != []:
print blinkList
val0 = x * 7 + y
x = blinkList[0][0]
y = blinkList[0][1]
val1 = x * 7 + y
x = blinkList[1][0]
y = blinkList[1][1]
val2 = x * 7 + y
x = blinkList[2][0]
y = blinkList[2][1]
val3 = x * 7 + y
self.winningSequence = Sequence()
downBlinkerParallel = Parallel(LerpColorInterval(self.locatorList[val0], 0.3, Vec4(0.5, 0.5, 0.5, 0.5), Vec4(1, 1, 1, 1)), LerpColorInterval(self.locatorList[val1], 0.3, Vec4(0.5, 0.5, 0.5, 0.5), Vec4(1, 1, 1, 1)), LerpColorInterval(self.locatorList[val2], 0.3, Vec4(0.5, 0.5, 0.5, 0.5), Vec4(1, 1, 1, 1)), LerpColorInterval(self.locatorList[val3], 0.3, Vec4(0.5, 0.5, 0.5, 0.5), Vec4(1, 1, 1, 1)))
upBlinkerParallel = Parallel(LerpColorInterval(self.locatorList[val0], 0.3, Vec4(1, 1, 1, 1), Vec4(0.5, 0.5, 0.5, 0.5)), LerpColorInterval(self.locatorList[val1], 0.3, Vec4(1, 1, 1, 1), Vec4(0.5, 0.5, 0.5, 0.5)), LerpColorInterval(self.locatorList[val2], 0.3, Vec4(1, 1, 1, 1), Vec4(0.5, 0.5, 0.5, 0.5)), LerpColorInterval(self.locatorList[val3], 0.3, Vec4(1, 1, 1, 1), Vec4(0.5, 0.5, 0.5, 0.5)))
self.winningSequence.append(downBlinkerParallel)
self.winningSequence.append(upBlinkerParallel)
self.winningSequence.loop()
def tie(self):
self.tieSequence = Sequence(autoFinish=1)
self.clockNode.stop()
self.clockNode.hide()
self.isMyTurn = False
self.moveSequence.finish()
if self.turnText:
self.turnText.hide()
for x in xrange(41):
self.tieSequence.append(Parallel(LerpColorInterval(self.locatorList[x], 0.15, Vec4(0.5, 0.5, 0.5, 0.5), Vec4(1, 1, 1, 1)), LerpColorInterval(self.locatorList[x], 0.15, Vec4(1, 1, 1, 1), Vec4(0.5, 0.5, 0.5, 0.5))))
whisper = WhisperPopup('This Find Four game has resulted in a Tie!', OTPGlobals.getInterfaceFont(), WTNormal)
whisper.manage(base.marginManager)
self.tieSequence.start()
def hideChildren(self, nodeList):
pass
def animatePeice(self, tableState, moveCol, movePos, turn):
messenger.send('wakeup')
for x in xrange(6):
for y in xrange(7):
self.board[x][y] = tableState[x][y]
pos = self.startingPositions[moveCol].getPos()
if turn == 0:
peice = self.startingPositions[moveCol].getChild(1).getChildren()[2]
peice.show()
elif turn == 1:
peice = self.startingPositions[moveCol].getChild(1).getChildren()[3]
peice.show()
self.moveSequence = Sequence()
startPos = self.startingPositions[moveCol].getPos()
arrayLoc = movePos * 7 + moveCol
self.moveSequence.append(LerpPosInterval(self.startingPositions[moveCol], 1.5, self.locatorList[arrayLoc].getPos(self), startPos))
self.moveSequence.append(Func(peice.hide))
self.moveSequence.append(Func(self.startingPositions[moveCol].setPos, startPos))
self.moveSequence.append(Func(self.updateGameState))
self.moveSequence.start()
def announceWin(self, avId):
self.fsm.request('gameOver')
def doRandomMove(self):
if self.isMyTurn:
if self.moveCol != None:
self.d_requestMove(self.moveCol)
self.moveCol = None
self.isMyTurn = False
taskMgr.remove('playerTurnTask')
else:
hasfound = False
while hasfound == False:
x = randint(0, 6)
if self.board[0][x] == 0:
self.d_requestMove(x)
self.moveCol = None
self.isMyTurn = False
taskMgr.remove('playerTurnTask')
hasfound = True
return
def doNothing(self):
pass
def checkHorizontal(self, rVal, cVal, playerNum):
if cVal == 3:
for x in xrange(1, 4):
if self.board[rVal][cVal - x] != playerNum:
break
if self.board[rVal][cVal - x] == playerNum and x == 3:
return True
for x in xrange(1, 4):
if self.board[rVal][cVal + x] != playerNum:
break
if self.board[rVal][cVal + x] == playerNum and x == 3:
return True
return False
elif cVal == 2:
for x in xrange(1, 4):
if self.board[rVal][cVal + x] != playerNum:
break
if self.board[rVal][cVal + x] == playerNum and x == 3:
return True
return False
elif cVal == 4:
for x in xrange(1, 4):
if self.board[rVal][cVal - x] != playerNum:
break
if self.board[rVal][cVal - x] == playerNum and x == 3:
return True
return False
else:
return False
def checkVertical(self, rVal, cVal, playerNum):
if rVal == 2:
for x in xrange(1, 4):
if self.board[rVal + x][cVal] != playerNum:
break
if self.board[rVal + x][cVal] == playerNum and x == 3:
return True
return False
elif rVal == 3:
for x in xrange(1, 4):
if self.board[rVal - x][cVal] != playerNum:
break
if self.board[rVal - x][cVal] == playerNum and x == 3:
return True
return False
else:
return False
def checkDiagonal(self, rVal, cVal, playerNum):
if cVal <= 2:
if rVal == 2:
for x in xrange(1, 4):
if self.board[rVal + x][cVal + x] != playerNum:
break
if self.board[rVal + x][cVal + x] == playerNum and x == 3:
return True
return False
elif rVal == 3:
for x in xrange(1, 4):
if self.board[rVal - x][cVal + x] != playerNum:
break
if self.board[rVal - x][cVal + x] == playerNum and x == 3:
return True
return False
elif cVal >= 4:
if rVal == 2:
for x in xrange(1, 4):
if self.board[rVal + x][cVal - x] != playerNum:
break
if self.board[rVal + x][cVal - x] == playerNum and x == 3:
return True
return False
elif rVal == 3:
for x in xrange(1, 4):
if self.board[rVal - x][cVal - x] != playerNum:
break
if self.board[rVal - x][cVal - x] == playerNum and x == 3:
return True
return False
elif rVal == 3 or rVal == 4 or rVal == 5:
for x in xrange(1, 4):
if self.board[rVal - x][cVal - x] != playerNum:
break
if self.board[rVal - x][cVal - x] == playerNum and x == 3:
return True
for x in xrange(1, 4):
if self.board[rVal - x][cVal - x] != playerNum:
break
if self.board[rVal - x][cVal - x] == playerNum and x == 3:
return True
return False
elif rVal == 0 or rVal == 1 or rVal == 2:
for x in xrange(1, 4):
if self.board[rVal + x][cVal - x] != playerNum:
break
if self.board[rVal + x][cVal - x] == playerNum and x == 3:
return True
for x in xrange(1, 4):
if self.board[rVal + x][cVal + x] != playerNum:
break
if self.board[rVal + x][cVal + x] == playerNum and x == 3:
return True
return False
return False
def findHorizontal(self, rVal, cVal, playerNum):
if cVal == 3:
retList = []
for x in xrange(1, 4):
retList.append([rVal, cVal - x])
if self.board[rVal][cVal - x] != playerNum:
retList = []
break
if self.board[rVal][cVal - x] == playerNum and x == 3:
return retList
for x in xrange(1, 4):
retList.append([rVal, cVal + x])
if self.board[rVal][cVal + x] != playerNum:
retList = []
break
if self.board[rVal][cVal + x] == playerNum and x == 3:
return retList
return []
elif cVal == 2:
retList = []
for x in xrange(1, 4):
retList.append([rVal, cVal + x])
if self.board[rVal][cVal + x] != playerNum:
retList = []
break
if self.board[rVal][cVal + x] == playerNum and x == 3:
return retList
return []
elif cVal == 4:
retList = []
for x in xrange(1, 4):
retList.append([rVal, cVal - x])
if self.board[rVal][cVal - x] != playerNum:
retList = []
break
if self.board[rVal][cVal - x] == playerNum and x == 3:
return retList
return []
else:
return []
def findVertical(self, rVal, cVal, playerNum):
if rVal == 2:
retList = []
for x in xrange(1, 4):
retList.append([rVal + x, cVal])
if self.board[rVal + x][cVal] != playerNum:
retList = []
break
if self.board[rVal + x][cVal] == playerNum and x == 3:
return retList
return []
elif rVal == 3:
retList = []
for x in xrange(1, 4):
retList.append([rVal - x, cVal])
if self.board[rVal - x][cVal] != playerNum:
retList = []
break
if self.board[rVal - x][cVal] == playerNum and x == 3:
return retList
return []
else:
return []
def findDiagonal(self, rVal, cVal, playerNum):
retList = []
if cVal <= 2:
if rVal == 2:
for x in xrange(1, 4):
retList.append([rVal + x, cVal + x])
if self.board[rVal + x][cVal + x] != playerNum:
retList = []
break
if self.board[rVal + x][cVal + x] == playerNum and x == 3:
return retList
return []
elif rVal == 3:
for x in xrange(1, 4):
retList.append([rVal - x, cVal + x])
if self.board[rVal - x][cVal + x] != playerNum:
retList = []
break
if self.board[rVal - x][cVal + x] == playerNum and x == 3:
return retList
return []
elif cVal >= 4:
if rVal == 2:
for x in xrange(1, 4):
retList.append([rVal + x, cVal - x])
if self.board[rVal + x][cVal - x] != playerNum:
retList = []
break
if self.board[rVal + x][cVal - x] == playerNum and x == 3:
return retList
return []
elif rVal == 3:
for x in xrange(1, 4):
retList.append([rVal - x, cVal - x])
if self.board[rVal - x][cVal - x] != playerNum:
retList = []
break
if self.board[rVal - x][cVal - x] == playerNum and x == 3:
return retList
return []
elif rVal == 3 or rVal == 4 or rVal == 5:
for x in xrange(1, 4):
retList.append([rVal - x, cVal - x])
if self.board[rVal - x][cVal - x] != playerNum:
retList = []
break
if self.board[rVal - x][cVal - x] == playerNum and x == 3:
return retList
for x in xrange(1, 4):
retList.append([rVal + x, cVal - x])
if self.board[rVal + x][cVal - x] != playerNum:
retList = []
break
if self.board[rVal + x][cVal - x] == playerNum and x == 3:
return retList
return []
elif rVal == 0 or rVal == 1 or rVal == 2:
for x in xrange(1, 4):
retList.append([rVal + x, cVal - x])
if self.board[rVal + x][cVal - x] != playerNum:
retList = []
break
if self.board[rVal + x][cVal - x] == playerNum and x == 3:
return retList
for x in xrange(1, 4):
retList.append([rVal + x, cVal + x])
if self.board[rVal + x][cVal + x] != playerNum:
retList = []
break
if self.board[rVal + x][cVal + x] == playerNum and x == 3:
return retList
return []
return []