mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-27 05:32:41 -06:00
226 lines
9.9 KiB
Python
226 lines
9.9 KiB
Python
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from pandac.PandaModules import *
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from direct.interval.IntervalGlobal import *
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from direct.distributed.ClockDelta import *
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from direct.fsm import StateData
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from direct.directnotify import DirectNotifyGlobal
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from direct.showbase.PythonUtil import *
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from direct.task import Task
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import CCharPaths
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from toontown.toonbase import ToontownGlobals
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class CharNeutralState(StateData.StateData):
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notify = DirectNotifyGlobal.directNotify.newCategory('CharNeutralState')
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def __init__(self, doneEvent, character):
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StateData.StateData.__init__(self, doneEvent)
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self.__doneEvent = doneEvent
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self.character = character
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def enter(self, startTrack = None, playRate = None):
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StateData.StateData.enter(self)
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self.notify.debug('Neutral ' + self.character.getName() + '...')
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self.__neutralTrack = Sequence(name=self.character.getName() + '-neutral')
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if startTrack:
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self.__neutralTrack.append(startTrack)
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if playRate:
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self.__neutralTrack.append(Func(self.character.setPlayRate, playRate, 'neutral'))
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self.__neutralTrack.append(Func(self.character.loop, 'neutral'))
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self.__neutralTrack.start()
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def exit(self):
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StateData.StateData.exit(self)
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self.__neutralTrack.finish()
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def __doneHandler(self):
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doneStatus = {}
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doneStatus['state'] = 'walk'
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doneStatus['status'] = 'done'
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messenger.send(self.__doneEvent, [doneStatus])
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return Task.done
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class CharWalkState(StateData.StateData):
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notify = DirectNotifyGlobal.directNotify.newCategory('CharWalkState')
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def __init__(self, doneEvent, character, diffPath = None):
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StateData.StateData.__init__(self, doneEvent)
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self.doneEvent = doneEvent
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self.character = character
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if diffPath == None:
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self.paths = CCharPaths.getPaths(character.getName(), character.getCCLocation())
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else:
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self.paths = CCharPaths.getPaths(diffPath, character.getCCLocation())
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self.speed = character.walkSpeed()
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self.offsetX = 0
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self.offsetY = 0
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self.oldOffsetX = 0
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self.olfOffsetY = 0
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self.walkTrack = None
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return
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def enter(self, startTrack = None, playRate = None):
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StateData.StateData.enter(self)
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self.notify.debug('Walking ' + self.character.getName() + '... from ' + str(self.walkInfo[0]) + ' to ' + str(self.walkInfo[1]))
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posPoints = CCharPaths.getPointsFromTo(self.walkInfo[0], self.walkInfo[1], self.paths)
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lastPos = posPoints[-1]
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newLastPos = Point3(lastPos[0] + self.offsetX, lastPos[1] + self.offsetY, lastPos[2])
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posPoints[-1] = newLastPos
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firstPos = posPoints[0]
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newFirstPos = Point3(firstPos[0] + self.oldOffsetX, firstPos[1] + self.oldOffsetY, firstPos[2])
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posPoints[0] = newFirstPos
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self.walkTrack = Sequence(name=self.character.getName() + '-walk')
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if startTrack:
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self.walkTrack.append(startTrack)
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self.character.setPos(posPoints[0])
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raycast = CCharPaths.getRaycastFlag(self.walkInfo[0], self.walkInfo[1], self.paths)
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moveTrack = self.makePathTrack(self.character, posPoints, self.speed, raycast)
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if playRate:
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self.walkTrack.append(Func(self.character.setPlayRate, playRate, 'walk'))
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self.walkTrack.append(Func(self.character.loop, 'walk'))
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self.walkTrack.append(moveTrack)
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doneEventName = self.character.getName() + 'WalkDone'
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self.walkTrack.append(Func(messenger.send, doneEventName))
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ts = globalClockDelta.localElapsedTime(self.walkInfo[2])
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self.accept(doneEventName, self.doneHandler)
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self.notify.debug('walkTrack.start(%s)' % ts)
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self.walkTrack.start(ts)
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def makePathTrack(self, nodePath, posPoints, velocity, raycast = 0):
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track = Sequence()
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if raycast:
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track.append(Func(nodePath.enableRaycast, 1))
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startHpr = nodePath.getHpr()
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for pointIndex in xrange(len(posPoints) - 1):
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startPoint = posPoints[pointIndex]
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endPoint = posPoints[pointIndex + 1]
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track.append(Func(nodePath.setPos, startPoint))
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distance = Vec3(endPoint - startPoint).length()
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duration = distance / velocity
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curHpr = nodePath.getHpr()
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nodePath.headsUp(endPoint[0], endPoint[1], endPoint[2])
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destHpr = nodePath.getHpr()
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reducedCurH = reduceAngle(curHpr[0])
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reducedCurHpr = Vec3(reducedCurH, curHpr[1], curHpr[2])
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reducedDestH = reduceAngle(destHpr[0])
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shortestAngle = closestDestAngle(reducedCurH, reducedDestH)
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shortestHpr = Vec3(shortestAngle, destHpr[1], destHpr[2])
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turnTime = abs(shortestAngle) / 270.0
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nodePath.setHpr(shortestHpr)
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if duration - turnTime > 0.01:
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track.append(Parallel(Func(nodePath.loop, 'walk'), LerpHprInterval(nodePath, turnTime, shortestHpr, startHpr=reducedCurHpr, name='lerp' + nodePath.getName() + 'Hpr'), LerpPosInterval(nodePath, duration=duration - turnTime, pos=Point3(endPoint), startPos=Point3(startPoint), fluid=1)))
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nodePath.setHpr(startHpr)
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if raycast:
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track.append(Func(nodePath.enableRaycast, 0))
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return track
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def doneHandler(self):
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doneStatus = {}
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doneStatus['state'] = 'walk'
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doneStatus['status'] = 'done'
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messenger.send(self.doneEvent, [doneStatus])
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return Task.done
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def exit(self):
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StateData.StateData.exit(self)
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self.ignore(self.character.getName() + 'WalkDone')
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if self.walkTrack:
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self.walkTrack.finish()
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self.walkTrack = None
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return
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def setWalk(self, srcNode, destNode, timestamp, offsetX = 0, offsetY = 0):
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self.oldOffsetX = self.offsetX
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self.oldOffsetY = self.offsetY
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self.walkInfo = (srcNode, destNode, timestamp)
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self.offsetX = offsetX
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self.offsetY = offsetY
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class CharFollowChipState(CharWalkState):
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notify = DirectNotifyGlobal.directNotify.newCategory('CharFollowChipState')
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completeRevolutionDistance = 13
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def __init__(self, doneEvent, character, chipId):
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CharWalkState.__init__(self, doneEvent, character)
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self.offsetDict = {'a': (ToontownGlobals.DaleOrbitDistance, 0)}
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self.chipId = chipId
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def setWalk(self, srcNode, destNode, timestamp, offsetX = 0, offsetY = 0):
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self.offsetDict[destNode] = (offsetX, offsetY)
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self.srcNode = srcNode
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self.destNode = destNode
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self.orbitDistance = ToontownGlobals.DaleOrbitDistance
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if (srcNode, destNode) in CCharPaths.DaleOrbitDistanceOverride:
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self.orbitDistance = CCharPaths.DaleOrbitDistanceOverride[srcNode, destNode]
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elif (destNode, srcNode) in CCharPaths.DaleOrbitDistanceOverride:
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self.orbitDistance = CCharPaths.DaleOrbitDistanceOverride[destNode, srcNode]
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CharWalkState.setWalk(self, srcNode, destNode, timestamp, offsetX, offsetY)
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def makePathTrack(self, nodePath, posPoints, velocity, raycast = 0):
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retval = Sequence()
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if raycast:
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retval.append(Func(nodePath.enableRaycast, 1))
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chip = base.cr.doId2do.get(self.chipId)
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self.chipPaths = CCharPaths.getPaths(chip.getName(), chip.getCCLocation())
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self.posPoints = posPoints
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chipDuration = chip.walk.walkTrack.getDuration()
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self.notify.debug('chipDuration = %f' % chipDuration)
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chipDistance = CCharPaths.getWalkDistance(self.srcNode, self.destNode, ToontownGlobals.ChipSpeed, self.chipPaths)
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self.revolutions = chipDistance / self.completeRevolutionDistance
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srcOffset = (0, 0)
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if self.srcNode in self.offsetDict:
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srcOffset = self.offsetDict[self.srcNode]
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srcTheta = math.atan2(srcOffset[1], srcOffset[0])
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if srcTheta < 0:
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srcTheta += 2 * math.pi
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if srcTheta > 0:
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srcRev = (2 * math.pi - srcTheta) / (2 * math.pi)
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else:
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srcRev = 0
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self.srcTheta = srcTheta
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destOffset = (0, 0)
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if self.destNode in self.offsetDict:
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destOffset = self.offsetDict[self.destNode]
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destTheta = math.atan2(destOffset[1], destOffset[0])
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if destTheta < 0:
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destTheta += 2 * math.pi
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self.destTheta = destTheta
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self.revolutions += srcRev
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endingTheta = srcTheta + self.revolutions % 1.0 * 2 * math.pi
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diffTheta = destTheta - endingTheta
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destRev = diffTheta / (2 * math.pi)
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self.revolutions += destRev
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while self.revolutions < 1:
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self.revolutions += 1
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def positionDale(t):
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self.orbitChip(t)
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retval.append(LerpFunctionInterval(positionDale, chipDuration))
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if raycast:
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retval.append(Func(nodePath.enableRaycast, 0))
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return retval
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def orbitChip(self, t):
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srcOffset = (0, 0)
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if self.srcNode in self.offsetDict:
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srcOffset = self.offsetDict[self.srcNode]
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chipSrcPos = Point3(self.posPoints[0][0] - srcOffset[0], self.posPoints[0][1] - srcOffset[1], self.posPoints[0][2])
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destOffset = (0, 0)
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if self.destNode in self.offsetDict:
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destOffset = self.offsetDict[self.destNode]
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chipDestPos = Point3(self.posPoints[-1][0] - destOffset[0], self.posPoints[-1][1] - destOffset[1], self.posPoints[-1][2])
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displacement = chipDestPos - chipSrcPos
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displacement *= t
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chipPos = chipSrcPos + displacement
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diffTheta = t * self.revolutions * 2 * math.pi
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curTheta = self.srcTheta + diffTheta
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newOffsetX = math.cos(curTheta) * self.orbitDistance
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newOffsetY = math.sin(curTheta) * self.orbitDistance
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dalePos = Point3(chipPos[0] + newOffsetX, chipPos[1] + newOffsetY, chipPos[2])
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self.character.setPos(dalePos)
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newHeading = rad2Deg(curTheta)
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newHeading %= 360
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self.character.setH(newHeading)
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