from direct.interval.IntervalGlobal import LerpPosInterval, LerpHprInterval, LerpPosHprInterval from direct.interval.IntervalGlobal import SoundInterval, LerpScaleInterval, LerpFunctionInterval from direct.interval.IntervalGlobal import Wait, Func from direct.interval.MetaInterval import Sequence, Parallel from direct.gui.DirectGui import DirectWaitBar, DGG from direct.showbase import PythonUtil from direct.fsm import ClassicFSM, State from direct.showbase import RandomNumGen from direct.task.Task import Task from direct.distributed.ClockDelta import globalClockDelta from pandac.PandaModules import Point3, Vec3 from toontown.toonbase import TTLocalizer from toontown.toonbase import ToontownTimer from DistributedMinigame import DistributedMinigame from MazeSuit import MazeSuit from OrthoWalk import OrthoWalk from OrthoDrive import OrthoDrive import MazeGameGlobals import MazeData import MazeTreasure import Trajectory import Maze import MinigameAvatarScorePanel import MinigameGlobals class DistributedMazeGame(DistributedMinigame): notify = directNotify.newCategory('DistributedMazeGame') CAMERA_TASK = 'MazeGameCameraTask' UPDATE_SUITS_TASK = 'MazeGameUpdateSuitsTask' TREASURE_GRAB_EVENT_NAME = 'MazeTreasureGrabbed' def __init__(self, cr): DistributedMinigame.__init__(self, cr) self.gameFSM = ClassicFSM.ClassicFSM('DistributedMazeGame', [State.State('off', self.enterOff, self.exitOff, ['play']), State.State('play', self.enterPlay, self.exitPlay, ['cleanup', 'showScores']), State.State('showScores', self.enterShowScores, self.exitShowScores, ['cleanup']), State.State('cleanup', self.enterCleanup, self.exitCleanup, [])], 'off', 'cleanup') self.addChildGameFSM(self.gameFSM) self.usesLookAround = 1 def getTitle(self): return TTLocalizer.MazeGameTitle def getInstructions(self): return TTLocalizer.MazeGameInstructions def getMaxDuration(self): return MazeGameGlobals.GAME_DURATION def __defineConstants(self): self.TOON_SPEED = 8.0 self.TOON_Z = 0 self.MinSuitSpeedRange = [0.8 * self.TOON_SPEED, 0.6 * self.TOON_SPEED] self.MaxSuitSpeedRange = [1.1 * self.TOON_SPEED, 2.0 * self.TOON_SPEED] self.FASTER_SUIT_CURVE = 1 self.SLOWER_SUIT_CURVE = self.getDifficulty() < 0.5 self.slowerSuitPeriods = {2000: {4: [128, 76], 8: [128, 99, 81, 68], 12: [128, 108, 93, 82, 74, 67], 16: [128, 112, 101, 91, 83, 76, 71, 66]}, 1000: {4: [110, 69], 8: [110, 88, 73, 62], 12: [110, 95, 83, 74, 67, 61], 16: [110, 98, 89, 81, 75, 69, 64, 60]}, 5000: {4: [96, 63], 8: [96, 79, 66, 57], 12: [96, 84, 75, 67, 61, 56], 16: [96, 87, 80, 73, 68, 63, 59, 55]}, 4000: {4: [86, 58], 8: [86, 71, 61, 53], 12: [86, 76, 68, 62, 56, 52], 16: [86, 78, 72, 67, 62, 58, 54, 51]}, 3000: {4: [78, 54], 8: [78, 65, 56, 49], 12: [78, 69, 62, 57, 52, 48], 16: [78, 71, 66, 61, 57, 54, 51, 48]}, 9000: {4: [71, 50], 8: [71, 60, 52, 46], 12: [71, 64, 58, 53, 49, 45], 16: [71, 65, 61, 57, 53, 50, 47, 45]}} self.slowerSuitPeriodsCurve = {2000: {4: [128, 65], 8: [128, 78, 66, 64], 12: [128, 88, 73, 67, 64, 64], 16: [128, 94, 79, 71, 67, 65, 64, 64]}, 1000: {4: [110, 59], 8: [110, 70, 60, 58], 12: [110, 78, 66, 61, 59, 58], 16: [110, 84, 72, 65, 61, 59, 58, 58]}, 5000: {4: [96, 55], 8: [96, 64, 56, 54], 12: [96, 71, 61, 56, 54, 54], 16: [96, 76, 65, 59, 56, 55, 54, 54]}, 4000: {4: [86, 51], 8: [86, 59, 52, 50], 12: [86, 65, 56, 52, 50, 50], 16: [86, 69, 60, 55, 52, 51, 50, 50]}, 3000: {4: [78, 47], 8: [78, 55, 48, 47], 12: [78, 60, 52, 48, 47, 47], 16: [78, 63, 55, 51, 49, 47, 47, 47]}, 9000: {4: [71, 44], 8: [71, 51, 45, 44], 12: [71, 55, 48, 45, 44, 44], 16: [71, 58, 51, 48, 45, 44, 44, 44]}} self.fasterSuitPeriods = {2000: {4: [54, 42], 8: [59, 52, 47, 42], 12: [61, 56, 52, 48, 45, 42], 16: [61, 58, 54, 51, 49, 46, 44, 42]}, 1000: {4: [50, 40], 8: [55, 48, 44, 40], 12: [56, 52, 48, 45, 42, 40], 16: [56, 53, 50, 48, 45, 43, 41, 40]}, 5000: {4: [47, 37], 8: [51, 45, 41, 37], 12: [52, 48, 45, 42, 39, 37], 16: [52, 49, 47, 44, 42, 40, 39, 37]}, 4000: {4: [44, 35], 8: [47, 42, 38, 35], 12: [48, 45, 42, 39, 37, 35], 16: [49, 46, 44, 42, 40, 38, 37, 35]}, 3000: {4: [41, 33], 8: [44, 40, 36, 33], 12: [45, 42, 39, 37, 35, 33], 16: [45, 43, 41, 39, 38, 36, 35, 33]}, 9000: {4: [39, 32], 8: [41, 37, 34, 32], 12: [42, 40, 37, 35, 33, 32], 16: [43, 41, 39, 37, 35, 34, 33, 32]}} self.fasterSuitPeriodsCurve = {2000: {4: [62, 42], 8: [63, 61, 54, 42], 12: [63, 63, 61, 56, 50, 42], 16: [63, 63, 62, 60, 57, 53, 48, 42]}, 1000: {4: [57, 40], 8: [58, 56, 50, 40], 12: [58, 58, 56, 52, 46, 40], 16: [58, 58, 57, 56, 53, 49, 45, 40]}, 5000: {4: [53, 37], 8: [54, 52, 46, 37], 12: [54, 53, 52, 48, 43, 37], 16: [54, 54, 53, 51, 49, 46, 42, 37]}, 4000: {4: [49, 35], 8: [50, 48, 43, 35], 12: [50, 49, 48, 45, 41, 35], 16: [50, 50, 49, 48, 46, 43, 39, 35]}, 3000: {4: [46, 33], 8: [47, 45, 41, 33], 12: [47, 46, 45, 42, 38, 33], 16: [47, 46, 46, 45, 43, 40, 37, 33]}, 9000: {4: [43, 32], 8: [44, 42, 38, 32], 12: [44, 43, 42, 40, 36, 32], 16: [44, 44, 43, 42, 40, 38, 35, 32]}} self.CELL_WIDTH = MazeData.CELL_WIDTH self.MAX_FRAME_MOVE = self.CELL_WIDTH / 2 startOffset = 3 self.startPosHTable = [[Point3(0, startOffset, self.TOON_Z), 0], [Point3(0, -startOffset, self.TOON_Z), 180], [Point3(startOffset, 0, self.TOON_Z), 270], [Point3(-startOffset, 0, self.TOON_Z), 90]] self.camOffset = Vec3(0, -19, 45) def load(self): self.notify.debug('load') DistributedMinigame.load(self) self.__defineConstants() mazeName = MazeGameGlobals.getMazeName(self.doId, self.numPlayers, MazeData.mazeNames) self.maze = Maze.Maze(mazeName) model = loader.loadModel('phase_3.5/models/props/mickeySZ') self.treasureModel = model.find('**/mickeySZ') model.removeNode() self.treasureModel.setScale(1.6) self.treasureModel.setP(-90) self.music = base.loader.loadMusic('phase_4/audio/bgm/MG_toontag.mid') self.toonHitTracks = {} self.scorePanels = [] def unload(self): self.notify.debug('unload') DistributedMinigame.unload(self) del self.toonHitTracks self.maze.destroy() del self.maze self.treasureModel.removeNode() del self.treasureModel del self.music self.removeChildGameFSM(self.gameFSM) del self.gameFSM def onstage(self): self.notify.debug('onstage') DistributedMinigame.onstage(self) self.maze.onstage() self.randomNumGen.shuffle(self.startPosHTable) lt = base.localAvatar lt.reparentTo(render) lt.hideName() self.__placeToon(self.localAvId) lt.setAnimState('Happy', 1.0) lt.setSpeed(0, 0) self.camParent = render.attachNewNode('mazeGameCamParent') self.camParent.reparentTo(base.localAvatar) self.camParent.setPos(0, 0, 0) self.camParent.setHpr(render, 0, 0, 0) camera.reparentTo(self.camParent) camera.setPos(self.camOffset) self.__spawnCameraTask() self.toonRNGs = [] for i in xrange(self.numPlayers): self.toonRNGs.append(RandomNumGen.RandomNumGen(self.randomNumGen)) self.treasures = [] for i in xrange(self.maze.numTreasures): self.treasures.append(MazeTreasure.MazeTreasure(self.treasureModel, self.maze.treasurePosList[i], i, self.doId)) self.__loadSuits() for suit in self.suits: suit.onstage() self.sndTable = {'hitBySuit': [None] * self.numPlayers, 'falling': [None] * self.numPlayers} for i in xrange(self.numPlayers): self.sndTable['hitBySuit'][i] = base.loader.loadSfx('phase_4/audio/sfx/MG_Tag_C.mp3') self.sndTable['falling'][i] = base.loader.loadSfx('phase_4/audio/sfx/MG_cannon_whizz.mp3') self.grabSounds = [] for i in xrange(5): self.grabSounds.append(base.loader.loadSfx('phase_4/audio/sfx/MG_maze_pickup.mp3')) self.grabSoundIndex = 0 for avId in self.avIdList: self.toonHitTracks[avId] = Wait(0.1) self.scores = [0] * self.numPlayers self.goalBar = DirectWaitBar(parent=render2d, relief=DGG.SUNKEN, frameSize=(-0.35, 0.35, -0.15, 0.15), borderWidth=(0.02, 0.02), scale=0.42, pos=(0.84, 0, 0.5 - 0.28 * self.numPlayers + 0.05), barColor=(0, 0.7, 0, 1)) self.goalBar.setBin('unsorted', 0) self.goalBar.hide() self.introTrack = self.getIntroTrack() self.introTrack.start() return def offstage(self): self.notify.debug('offstage') if self.introTrack.isPlaying(): self.introTrack.finish() del self.introTrack for avId in self.toonHitTracks.keys(): track = self.toonHitTracks[avId] if track.isPlaying(): track.finish() self.__killCameraTask() camera.wrtReparentTo(render) self.camParent.removeNode() del self.camParent for panel in self.scorePanels: panel.cleanup() self.scorePanels = [] self.goalBar.destroy() del self.goalBar base.setCellsAvailable(base.rightCells, 1) for suit in self.suits: suit.offstage() self.__unloadSuits() for treasure in self.treasures: treasure.destroy() del self.treasures del self.sndTable del self.grabSounds del self.toonRNGs self.maze.offstage() base.localAvatar.showName() DistributedMinigame.offstage(self) def __placeToon(self, avId): toon = self.getAvatar(avId) if self.numPlayers == 1: toon.setPos(0, 0, self.TOON_Z) toon.setHpr(180, 0, 0) else: posIndex = self.avIdList.index(avId) toon.setPos(self.startPosHTable[posIndex][0]) toon.setHpr(self.startPosHTable[posIndex][1], 0, 0) def setGameReady(self): if not self.hasLocalToon: return self.notify.debug('setGameReady') if DistributedMinigame.setGameReady(self): return for avId in self.remoteAvIdList: toon = self.getAvatar(avId) if toon: toon.reparentTo(render) self.__placeToon(avId) toon.setAnimState('Happy', 1.0) toon.startSmooth() toon.startLookAround() def setGameStart(self, timestamp): if not self.hasLocalToon: return self.notify.debug('setGameStart') DistributedMinigame.setGameStart(self, timestamp) if self.introTrack.isPlaying(): self.introTrack.finish() for avId in self.remoteAvIdList: toon = self.getAvatar(avId) if toon: toon.stopLookAround() self.gameFSM.request('play') def handleDisabledAvatar(self, avId): hitTrack = self.toonHitTracks[avId] if hitTrack.isPlaying(): hitTrack.finish() DistributedMinigame.handleDisabledAvatar(self, avId) def enterOff(self): self.notify.debug('enterOff') def exitOff(self): pass def enterPlay(self): self.notify.debug('enterPlay') for i in xrange(self.numPlayers): avId = self.avIdList[i] avName = self.getAvatarName(avId) scorePanel = MinigameAvatarScorePanel.MinigameAvatarScorePanel(avId, avName) scorePanel.setPos(1.12, 0.0, 0.5 - 0.28 * i) self.scorePanels.append(scorePanel) self.goalBar.show() self.goalBar['value'] = 0.0 base.setCellsAvailable(base.rightCells, 0) self.__spawnUpdateSuitsTask() orthoDrive = OrthoDrive(self.TOON_SPEED, maxFrameMove=self.MAX_FRAME_MOVE, customCollisionCallback=self.__doMazeCollisions, priority=1) self.orthoWalk = OrthoWalk(orthoDrive, broadcast=not self.isSinglePlayer()) self.orthoWalk.start() self.accept(MazeSuit.COLLISION_EVENT_NAME, self.__hitBySuit) self.accept(self.TREASURE_GRAB_EVENT_NAME, self.__treasureGrabbed) self.timer = ToontownTimer.ToontownTimer() self.timer.posInTopRightCorner() self.timer.setTime(MazeGameGlobals.GAME_DURATION) self.timer.countdown(MazeGameGlobals.GAME_DURATION, self.timerExpired) self.accept('resetClock', self.__resetClock) base.playMusic(self.music, looping=0, volume=0.8) def exitPlay(self): self.notify.debug('exitPlay') self.ignore('resetClock') self.ignore(MazeSuit.COLLISION_EVENT_NAME) self.ignore(self.TREASURE_GRAB_EVENT_NAME) self.orthoWalk.stop() self.orthoWalk.destroy() del self.orthoWalk self.__killUpdateSuitsTask() self.timer.stop() self.timer.destroy() del self.timer for avId in self.avIdList: toon = self.getAvatar(avId) if toon: toon.loop('neutral') def __resetClock(self, tOffset): self.notify.debug('resetClock') self.gameStartTime += tOffset self.timer.countdown(self.timer.currentTime + tOffset, self.timerExpired) def __treasureGrabbed(self, treasureNum): self.treasures[treasureNum].showGrab() self.grabSounds[self.grabSoundIndex].play() self.grabSoundIndex = (self.grabSoundIndex + 1) % len(self.grabSounds) self.sendUpdate('claimTreasure', [treasureNum]) def setTreasureGrabbed(self, avId, treasureNum): if not self.hasLocalToon: return if avId != self.localAvId: self.treasures[treasureNum].showGrab() i = self.avIdList.index(avId) self.scores[i] += 1 self.scorePanels[i].setScore(self.scores[i]) total = 0 for score in self.scores: total += score self.goalBar['value'] = 100.0 * (float(total) / float(self.maze.numTreasures)) def __hitBySuit(self, suitNum): self.notify.debug('hitBySuit') timestamp = globalClockDelta.localToNetworkTime(globalClock.getFrameTime()) self.sendUpdate('hitBySuit', [self.localAvId, timestamp]) self.__showToonHitBySuit(self.localAvId, timestamp) def hitBySuit(self, avId, timestamp): if not self.hasLocalToon: return if self.gameFSM.getCurrentState().getName() not in ['play', 'showScores']: self.notify.warning('ignoring msg: av %s hit by suit' % avId) return self.notify.debug('avatar ' + `avId` + ' hit by a suit') if avId != self.localAvId: self.__showToonHitBySuit(avId, timestamp) def __showToonHitBySuit(self, avId, timestamp): toon = self.getAvatar(avId) if toon == None: return rng = self.toonRNGs[self.avIdList.index(avId)] curPos = toon.getPos(render) oldTrack = self.toonHitTracks[avId] if oldTrack.isPlaying(): oldTrack.finish() toon.setPos(curPos) toon.setZ(self.TOON_Z) parentNode = render.attachNewNode('mazeFlyToonParent-' + `avId`) parentNode.setPos(toon.getPos()) toon.reparentTo(parentNode) toon.setPos(0,0,0) startPos = parentNode.getPos() dropShadow = toon.dropShadow.copyTo(parentNode) dropShadow.setScale(toon.dropShadow.getScale(render)) trajectory = Trajectory.Trajectory( 0, Point3(0,0,0), Point3(0,0,50), gravMult=1.0) flyDur = trajectory.calcTimeOfImpactOnPlane(0.0) while 1: endTile = [rng.randint(2, self.maze.width-1), rng.randint(2, self.maze.height-1)] if self.maze.isWalkable(endTile[0], endTile[1]): break endWorldCoords = self.maze.tile2world(endTile[0], endTile[1]) endPos = Point3(endWorldCoords[0], endWorldCoords[1], startPos[2]) def flyFunc(t, trajectory, startPos = startPos, endPos = endPos, dur = flyDur, moveNode = parentNode, flyNode = toon): u = t/dur moveNode.setX(startPos[0] + u * (endPos[0]-startPos[0])) moveNode.setY(startPos[1] + u * (endPos[1]-startPos[1])) flyNode.setPos(trajectory.getPos(t)) flyTrack = Sequence( LerpFunctionInterval(flyFunc, fromData=0.0, toData=flyDur, duration=flyDur, extraArgs=[trajectory]), name=toon.uniqueName('hitBySuit-fly')) if avId != self.localAvId: cameraTrack = Sequence() else: self.camParent.reparentTo(parentNode) startCamPos = camera.getPos() destCamPos = camera.getPos() zenith = trajectory.getPos(flyDur/2.0)[2] destCamPos.setZ(zenith*1.3) destCamPos.setY(destCamPos[1]*0.3) def camTask(task, zenith = zenith, flyNode = toon, startCamPos = startCamPos, camOffset = destCamPos - startCamPos): u = flyNode.getZ()/zenith camera.setPos(startCamPos + camOffset*u) camera.lookAt(toon) return Task.cont camTaskName = 'mazeToonFlyCam-' + `avId` taskMgr.add(camTask, camTaskName, priority=20) def cleanupCamTask(self = self, toon = toon, camTaskName = camTaskName, startCamPos = startCamPos): taskMgr.remove(camTaskName) self.camParent.reparentTo(toon) camera.setPos(startCamPos) camera.lookAt(toon) cameraTrack = Sequence( Wait(flyDur), Func(cleanupCamTask), name='hitBySuit-cameraLerp') geomNode = toon.getGeomNode() startHpr = geomNode.getHpr() destHpr = Point3(startHpr) hRot = rng.randrange(1, 8) if rng.choice([0, 1]): hRot = -hRot destHpr.setX(destHpr[0] + hRot*360) spinHTrack = Sequence( LerpHprInterval(geomNode, flyDur, destHpr, startHpr=startHpr), Func(geomNode.setHpr, startHpr), name=toon.uniqueName('hitBySuit-spinH')) parent = geomNode.getParent() rotNode = parent.attachNewNode('rotNode') geomNode.reparentTo(rotNode) rotNode.setZ(toon.getHeight()/2.0) oldGeomNodeZ = geomNode.getZ() geomNode.setZ(-toon.getHeight()/2.0) startHpr = rotNode.getHpr() destHpr = Point3(startHpr) pRot = rng.randrange(1,3) if rng.choice([0, 1]): pRot = -pRot destHpr.setY(destHpr[1] + pRot*360) spinPTrack = Sequence( LerpHprInterval(rotNode, flyDur, destHpr, startHpr=startHpr), Func(rotNode.setHpr, startHpr), name=toon.uniqueName('hitBySuit-spinP')) i = self.avIdList.index(avId) soundTrack = Sequence( Func(base.playSfx, self.sndTable['hitBySuit'][i]), Wait(flyDur * (2.0/3.0)), SoundInterval(self.sndTable['falling'][i], duration=flyDur * (1.0/3.0)), name=toon.uniqueName('hitBySuit-soundTrack')) def preFunc(self = self, avId = avId, toon = toon, dropShadow = dropShadow): forwardSpeed = toon.forwardSpeed rotateSpeed = toon.rotateSpeed if avId == self.localAvId: self.orthoWalk.stop() else: toon.stopSmooth() if forwardSpeed or rotateSpeed: toon.setSpeed(forwardSpeed, rotateSpeed) toon.dropShadow.hide() def postFunc(self = self, avId = avId, oldGeomNodeZ = oldGeomNodeZ, dropShadow = dropShadow, parentNode = parentNode): if avId == self.localAvId: base.localAvatar.setPos(endPos) if hasattr(self, 'orthoWalk'): if self.gameFSM.getCurrentState().getName() == 'play': self.orthoWalk.start() dropShadow.removeNode() del dropShadow toon.dropShadow.show() geomNode = toon.getGeomNode() rotNode = geomNode.getParent() baseNode = rotNode.getParent() geomNode.reparentTo(baseNode) rotNode.removeNode() del rotNode geomNode.setZ(oldGeomNodeZ) toon.reparentTo(render) toon.setPos(endPos) parentNode.removeNode() del parentNode if avId != self.localAvId: toon.startSmooth() preFunc() hitTrack = Sequence(Parallel(flyTrack, cameraTrack, spinHTrack, spinPTrack, soundTrack), Func(postFunc), name=toon.uniqueName('hitBySuit')) self.toonHitTracks[avId] = hitTrack hitTrack.start(globalClockDelta.localElapsedTime(timestamp)) def allTreasuresTaken(self): if not self.hasLocalToon: return self.notify.debug('all treasures taken') if not MazeGameGlobals.ENDLESS_GAME: self.gameFSM.request('showScores') def timerExpired(self): self.notify.debug('local timer expired') if not MazeGameGlobals.ENDLESS_GAME: self.gameFSM.request('showScores') def __doMazeCollisions(self, oldPos, newPos): offset = newPos - oldPos WALL_OFFSET = 1.0 curX = oldPos[0] curY = oldPos[1] curTX, curTY = self.maze.world2tile(curX, curY) def calcFlushCoord(curTile, newTile, centerTile): EPSILON = 0.01 if newTile > curTile: return (newTile - centerTile) * self.CELL_WIDTH - EPSILON - WALL_OFFSET else: return (curTile - centerTile) * self.CELL_WIDTH + WALL_OFFSET offsetX = offset[0] offsetY = offset[1] WALL_OFFSET_X = WALL_OFFSET if offsetX < 0: WALL_OFFSET_X = -WALL_OFFSET_X WALL_OFFSET_Y = WALL_OFFSET if offsetY < 0: WALL_OFFSET_Y = -WALL_OFFSET_Y newX = curX + offsetX + WALL_OFFSET_X newY = curY newTX, newTY = self.maze.world2tile(newX, newY) if newTX != curTX: if self.maze.collisionTable[newTY][newTX]: offset.setX(calcFlushCoord(curTX, newTX, self.maze.originTX) - curX) newX = curX newY = curY + offsetY + WALL_OFFSET_Y newTX, newTY = self.maze.world2tile(newX, newY) if newTY != curTY: if self.maze.collisionTable[newTY][newTX]: offset.setY(calcFlushCoord(curTY, newTY, self.maze.originTY) - curY) offsetX = offset[0] offsetY = offset[1] newX = curX + offsetX + WALL_OFFSET_X newY = curY + offsetY + WALL_OFFSET_Y newTX, newTY = self.maze.world2tile(newX, newY) if self.maze.collisionTable[newTY][newTX]: cX = calcFlushCoord(curTX, newTX, self.maze.originTX) cY = calcFlushCoord(curTY, newTY, self.maze.originTY) if abs(cX - curX) < abs(cY - curY): offset.setX(cX - curX) else: offset.setY(cY - curY) return oldPos + offset def __spawnCameraTask(self): self.notify.debug('spawnCameraTask') camera.lookAt(base.localAvatar) taskMgr.remove(self.CAMERA_TASK) taskMgr.add(self.__cameraTask, self.CAMERA_TASK, priority=45) def __killCameraTask(self): self.notify.debug('killCameraTask') taskMgr.remove(self.CAMERA_TASK) def __cameraTask(self, task): self.camParent.setHpr(render, 0, 0, 0) return Task.cont def __loadSuits(self): self.notify.debug('loadSuits') self.suits = [] self.numSuits = 4 * self.numPlayers safeZone = self.getSafezoneId() slowerTable = self.slowerSuitPeriods if self.SLOWER_SUIT_CURVE: slowerTable = self.slowerSuitPeriodsCurve slowerPeriods = slowerTable[safeZone][self.numSuits] fasterTable = self.fasterSuitPeriods if self.FASTER_SUIT_CURVE: fasterTable = self.fasterSuitPeriodsCurve fasterPeriods = fasterTable[safeZone][self.numSuits] suitPeriods = slowerPeriods + fasterPeriods self.notify.debug('suit periods: ' + `suitPeriods`) self.randomNumGen.shuffle(suitPeriods) for i in xrange(self.numSuits): self.suits.append(MazeSuit(i, self.maze, self.randomNumGen, suitPeriods[i], self.getDifficulty())) def __unloadSuits(self): self.notify.debug('unloadSuits') for suit in self.suits: suit.destroy() del self.suits def __spawnUpdateSuitsTask(self): self.notify.debug('spawnUpdateSuitsTask') for suit in self.suits: suit.gameStart(self.gameStartTime) taskMgr.remove(self.UPDATE_SUITS_TASK) taskMgr.add(self.__updateSuitsTask, self.UPDATE_SUITS_TASK) def __killUpdateSuitsTask(self): self.notify.debug('killUpdateSuitsTask') taskMgr.remove(self.UPDATE_SUITS_TASK) for suit in self.suits: suit.gameEnd() def __updateSuitsTask(self, task): curT = globalClock.getFrameTime() - self.gameStartTime curTic = int(curT * float(MazeGameGlobals.SUIT_TIC_FREQ)) suitUpdates = [] for i in xrange(len(self.suits)): updateTics = self.suits[i].getThinkTimestampTics(curTic) suitUpdates.extend(zip(updateTics, [i] * len(updateTics))) suitUpdates.sort(lambda a, b: a[0] - b[0]) if len(suitUpdates) > 0: curTic = 0 for i in xrange(len(suitUpdates)): update = suitUpdates[i] tic = update[0] suitIndex = update[1] suit = self.suits[suitIndex] if tic > curTic: curTic = tic j = i + 1 while j < len(suitUpdates): if suitUpdates[j][0] > tic: break self.suits[suitUpdates[j][1]].prepareToThink() j += 1 unwalkables = [] for si in xrange(suitIndex): unwalkables.extend(self.suits[si].occupiedTiles) for si in xrange(suitIndex + 1, len(self.suits)): unwalkables.extend(self.suits[si].occupiedTiles) suit.think(curTic, curT, unwalkables) return Task.cont def enterShowScores(self): self.notify.debug('enterShowScores') lerpTrack = Parallel() lerpDur = 0.5 lerpTrack.append(Parallel(LerpPosInterval(self.goalBar, lerpDur, Point3(0, 0, -.6), blendType='easeInOut'), LerpScaleInterval(self.goalBar, lerpDur, Vec3(self.goalBar.getScale()) * 2.0, blendType='easeInOut'))) tY = 0.6 bY = -.05 lX = -.5 cX = 0 rX = 0.5 scorePanelLocs = (((cX, bY),), ((lX, bY), (rX, bY)), ((cX, tY), (lX, bY), (rX, bY)), ((lX, tY), (rX, tY), (lX, bY), (rX, bY))) scorePanelLocs = scorePanelLocs[self.numPlayers - 1] for i in xrange(self.numPlayers): panel = self.scorePanels[i] pos = scorePanelLocs[i] lerpTrack.append(Parallel(LerpPosInterval(panel, lerpDur, Point3(pos[0], 0, pos[1]), blendType='easeInOut'), LerpScaleInterval(panel, lerpDur, Vec3(panel.getScale()) * 2.0, blendType='easeInOut'))) self.showScoreTrack = Parallel(lerpTrack, Sequence(Wait(MazeGameGlobals.SHOWSCORES_DURATION), Func(self.gameOver))) self.showScoreTrack.start() def exitShowScores(self): self.showScoreTrack.pause() del self.showScoreTrack def enterCleanup(self): self.notify.debug('enterCleanup') def exitCleanup(self): pass def getIntroTrack(self): self.__cameraTask(None) origCamParent = camera.getParent() origCamPos = camera.getPos() origCamHpr = camera.getHpr() iCamParent = base.localAvatar.attachNewNode('iCamParent') iCamParent.setH(180) camera.reparentTo(iCamParent) toonHeight = base.localAvatar.getHeight() camera.setPos(0, -15, toonHeight * 3) camera.lookAt(0, 0, toonHeight / 2.0) iCamParent.wrtReparentTo(origCamParent) waitDur = 5.0 lerpDur = 4.5 lerpTrack = Parallel() startHpr = iCamParent.getHpr() startHpr.setX(PythonUtil.reduceAngle(startHpr[0])) lerpTrack.append(LerpPosHprInterval(iCamParent, lerpDur, pos=Point3(0, 0, 0), hpr=Point3(0, 0, 0), startHpr=startHpr, name=self.uniqueName('introLerpParent'))) lerpTrack.append(LerpPosHprInterval(camera, lerpDur, pos=origCamPos, hpr=origCamHpr, blendType='easeInOut', name=self.uniqueName('introLerpCameraPos'))) base.localAvatar.startLookAround() def cleanup(origCamParent = origCamParent, origCamPos = origCamPos, origCamHpr = origCamHpr, iCamParent = iCamParent): camera.reparentTo(origCamParent) camera.setPos(origCamPos) camera.setHpr(origCamHpr) iCamParent.removeNode() del iCamParent base.localAvatar.stopLookAround() return Sequence(Wait(waitDur), lerpTrack, Func(cleanup))