mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-25 04:32:33 -06:00
165 lines
6.5 KiB
Python
165 lines
6.5 KiB
Python
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from pandac.PandaModules import *
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from direct.showbase.DirectObject import DirectObject
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from direct.interval.IntervalGlobal import *
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from direct.distributed.ClockDelta import globalClockDelta
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from direct.distributed.ClockDelta import NetworkTimePrecision
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import random
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from direct.task.Task import Task
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from direct.directnotify.DirectNotifyGlobal import directNotify
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from direct.fsm import ClassicFSM
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from direct.fsm import State
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from direct.directutil import Mopath
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from toontown.toonbase import ToontownGlobals
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from direct.actor import Actor
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class Train(DirectObject):
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notify = directNotify.newCategory('Train')
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nameId = 0
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Sfx_TrainPass = 'phase_10/audio/sfx/CBHQ_TRAIN_pass.ogg'
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Sfx_TrainStopStart = 'phase_10/audio/sfx/CBHQ_TRAIN_stopstart.ogg'
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LocomotiveFile = 'phase_10/models/cogHQ/CashBotLocomotive'
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CarFiles = ['phase_10/models/cogHQ/CashBotBoxCar', 'phase_10/models/cogHQ/CashBotTankCar', 'phase_10/models/cogHQ/CashBotFlatCar']
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CarLength = 88
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MarkDelta = 15
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def __init__(self, trackStartPos, trackEndPos, trackNum, numTotalTracks):
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self.trackStartPos = trackStartPos
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self.trackEndPos = trackEndPos
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self.numCars = len(self.CarFiles)
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self.locomotive = loader.loadModel(self.LocomotiveFile)
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self.locomotive.flattenStrong()
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self.cars = []
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self.trainPassingSfx = base.loadSfx(self.Sfx_TrainPass)
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self.trainStopStartSfx = base.loadSfx(self.Sfx_TrainStopStart)
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self.trainId = trackNum
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self.bFlipped = False
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if trackStartPos[0] < trackEndPos[0]:
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self.locomotive.setHpr(180, 0, 0)
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self.bFlipped = True
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self.collNodeName = 'CollNode-%s' % self.trainId
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self.firstMark = self.MarkDelta / numTotalTracks * trackNum
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currentTime = self.__networkTimeInSeconds()
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currentRun = int((currentTime - self.firstMark) / self.MarkDelta)
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self.lastMark = currentRun * self.MarkDelta + self.firstMark
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self.doNextRun(True)
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self.hide()
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def hide(self):
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if self.locomotive:
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self.locomotive.reparentTo(hidden)
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def show(self):
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if self.locomotive:
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self.locomotive.reparentTo(render)
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def __networkTimeInSeconds(self):
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time = globalClockDelta.getRealNetworkTime(bits=32) / NetworkTimePrecision
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return time
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def doNextRun(self, bFirstRun = False):
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if self.locomotive:
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if bFirstRun:
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nextMark = self.lastMark
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else:
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nextMark = self.lastMark + self.MarkDelta
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self.nextRun.finish()
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self.notify.debug('Next mark %s' % nextMark)
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currentTime = self.__networkTimeInSeconds()
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timeTillNextMark = nextMark - currentTime
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self.notify.debug('Time diff %s' % timeTillNextMark)
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runNumber = int((nextMark - self.firstMark) / self.MarkDelta)
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S = random.getstate()
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random.seed(self.trainId + runNumber)
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self.nextRun = self.__getNextRun()
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random.setstate(S)
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self.__startNextRun(timeTillNextMark)
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self.lastMark = nextMark
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return Task.done
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def __startNextRun(self, timeTillMark):
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if self.locomotive:
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self.__disableCollisions()
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if timeTillMark > 0:
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self.nextRun = Sequence(Wait(timeTillMark), self.nextRun)
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self.nextRun.start()
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else:
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self.nextRun.start(-1 * timeTillMark)
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self.__enableCollisions()
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return Task.done
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def __cleanupCars(self):
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self.__disableCollisions()
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for car in self.cars:
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car.removeNode()
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self.cars = []
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def __getCars(self):
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self.__cleanupCars()
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numCarsThisRun = random.randrange(1, 10)
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for nCar in xrange(numCarsThisRun):
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carType = random.randrange(0, self.numCars)
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car = loader.loadModel(self.CarFiles[carType])
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car.flattenStrong()
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car.reparentTo(self.locomotive)
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car.setPos(self.CarLength * (nCar + 1), 0, 0)
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self.cars.append(car)
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def __showStart(self):
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self.notify.debug('Starting train %s at %s.' % (self.trainId, self.__networkTimeInSeconds()))
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def __getNextRun(self):
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self.__getCars()
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trainShouldStop = random.randrange(0, 4)
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nextRun = Sequence(Func(self.__showStart))
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if trainShouldStop is 0:
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waitTime = 3
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totalTime = random.randrange(4, (self.MarkDelta - waitTime) / 2)
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sfxStopTime = 4.3
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halfway = (self.trackStartPos + self.trackEndPos) / 2
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halfway.setX(150)
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nextRun.append(Parallel(Sequence(Wait(totalTime - sfxStopTime), SoundInterval(self.trainStopStartSfx, volume=0.5)), Sequence(LerpPosInterval(self.locomotive, totalTime, halfway, self.trackStartPos, blendType='easeInOut'), WaitInterval(waitTime), LerpPosInterval(self.locomotive, totalTime, self.trackEndPos, halfway, blendType='easeIn'))))
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else:
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totalTime = random.randrange(6, self.MarkDelta - 1)
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sfxTime = 7
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sfxStartTime = totalTime / 2 - sfxTime / 2
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if self.bFlipped:
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sfxStartTime -= 1
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else:
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sfxStartTime += 1
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nextRun.append(Parallel(Sequence(Wait(sfxStartTime), SoundInterval(self.trainPassingSfx, volume=0.5)), LerpPosInterval(self.locomotive, totalTime, self.trackEndPos, self.trackStartPos)))
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nextRun.append(Func(self.doNextRun))
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return nextRun
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def delete(self):
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self.__cleanupCars()
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self.locomotive.removeNode()
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self.locomotive = None
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self.nextRun.finish()
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self.nextRun = None
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del self.trainPassingSfx
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del self.trainStopStartSfx
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return
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def uniqueName(self, name):
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Train.nameId += 1
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return name + '-%d' % Train.nameId
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def __enableCollisions(self):
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allColls = self.locomotive.findAllMatches('**/+CollisionNode')
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for car in self.cars:
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carColls = car.findAllMatches('**/+CollisionNode')
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allColls += carColls
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for collNode in allColls:
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collNode.setName(self.collNodeName)
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collNode.setCollideMask(ToontownGlobals.WallBitmask)
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self.accept('enter' + self.collNodeName, self.__handleCollisionSphereEnter)
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def __disableCollisions(self):
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self.ignore('enter' + self.collNodeName)
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def __handleCollisionSphereEnter(self, collEntry = None):
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base.localAvatar.b_squish(10)
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