from math import * import math import random from StomperGlobals import * from direct.directnotify import DirectNotifyGlobal from direct.distributed import ClockDelta from direct.interval.IntervalGlobal import * from direct.showbase.PythonUtil import lerp from direct.task import Task from otp.level import BasicEntities from pandac.PandaModules import * from pandac.PandaModules import NodePath class DistributedMover(BasicEntities.DistributedNodePathEntity): notify = DirectNotifyGlobal.directNotify.newCategory('DistributedMover') laserFieldModels = ['phase_9/models/cogHQ/square_stomper'] def __init__(self, cr): BasicEntities.DistributedNodePathEntity.__init__(self, cr) self.attachedEnt = None self.oldParent = None self.entity2Move = None self.moveTarget = None self.pos0Wait = 1.0 self.pos0Move = 1.0 self.pos1Wait = 1.0 self.pos1Move = 1.0 self.moverIval = None def generateInit(self): self.notify.debug('generateInit') BasicEntities.DistributedNodePathEntity.generateInit(self) def generate(self): self.notify.debug('generate') BasicEntities.DistributedNodePathEntity.generate(self) def announceGenerate(self): self.notify.debug('announceGenerate') BasicEntities.DistributedNodePathEntity.announceGenerate(self) self.loadModel() def disable(self): self.notify.debug('disable') self.ignoreAll() taskMgr.remove(self.taskName) BasicEntities.DistributedNodePathEntity.disable(self) def delete(self): self.notify.debug('delete') if self.moverIval: self.moverIval.finish() self.unloadModel() if self.taskName: taskMgr.remove(self.taskName) BasicEntities.DistributedNodePathEntity.delete(self) def loadModel(self): self.moverNode = self.attachNewNode('mover') self.rotateNode = self.attachNewNode('rotate') self.model = None if self.entity2Move: self.setEntity2Move(self.entity2Move) self.taskName = 'moverUpdate %s' % self.doId return def unloadModel(self): if self.model: self.model.removeNode() del self.model self.model = None return def setEntity2Move(self, entId): self.entity2Move = entId if entId: ent = self.level.getEntity(entId) if ent: if self.attachedEnt and not self.attachedEnt.isEmpty(): self.attachedEnt.reparentTo(self.oldParent) self.oldParent = ent.getParent() ent.reparentTo(self.moverNode) self.attachedEnt = ent def startMove(self, timeStamp): currentTime = ClockDelta.globalClockDelta.getRealNetworkTime() timeDiff = (currentTime - timeStamp) / 1000.0 target = self.level.getEntity(self.moveTarget) if not target: return okay2Play = 1 if self.moverIval: self.moverIval.finish() if self.moverIval.isPlaying(): okay2Play = 0 if okay2Play and self.moveTarget: childList = self.getChildren() for child in childList: if child != self.moverNode: child.reparentTo(self.moverNode) timeLag = 0.0 timeJump = self.pos0Move - timeDiff if timeJump < 0 or self.cycleType in 'linear': timeJump = self.pos0Move timeLag = timeDiff myBlend = 'easeInOut' if self.cycleType in 'linear': myBlend = 'noBlend' self.moverIval = Sequence() firstIVal = LerpPosHprInterval(self.moverNode, timeJump, Vec3(target.getPos(self)[0], target.getPos(self)[1], target.getPos(self)[2]), Vec3(target.getHpr(self)[0], target.getHpr(self)[1], target.getHpr(self)[2]), blendType=myBlend, fluid=1) self.moverIval.append(firstIVal) if self.cycleType in 'linear': for linearCycle in xrange(10): self.moverIval.append(firstIVal) if self.cycleType != 'oneWay': self.moverIval.append(Wait(self.pos1Wait)) self.moverIval.append(LerpPosHprInterval(self.moverNode, self.pos1Move, Vec3(0, 0, 0), Vec3(0, 0, 0), blendType=myBlend, fluid=1)) if self.cycleType == 'loop': self.moverIval.append(Wait(self.pos0Wait)) self.moverIval.start() self.moverIval.setT(timeLag)