def loadToonup(self, toonupIndex):
"""Load the toonup into a food node."""
self.toonupNum += 1
if toonupIndex in self.toonupModelDict:
toonupModel = self.toonupModelDict[toonupIndex]
toonupModel.reparentTo(self.foodNodes[toonupIndex])
colNp = toonupModel.find('**/ToonupCol*')
colNp.setTag('toonupNum', str(self.toonupNum))
else:
toonupModelScale = self.ToonupScales[toonupIndex]
modelName = self.ToonupModels[toonupIndex]
toonupModel = loader.loadModel(modelName)
self.foodNodes[toonupIndex].setZ(self.beltHeight - 0.1)
toonupModel.setZ(self.ToonupZOffsets[toonupIndex])
toonupModel.setScale(toonupModelScale)
toonupModel.reparentTo(self.foodNodes[toonupIndex])
# create a collision tube so toons can get the toonup
target = CollisionTube(4, 0, 0, -4, 0, 0, 2)
target.setTangible(0)
colName = 'ToonupCol-%d-%d' %(self.index, toonupIndex)
targetNode = CollisionNode(colName)
targetNode.addSolid(target)
targetNode.setCollideMask(ToontownGlobals.WallBitmask)
targetNodePath = toonupModel.attachNewNode(targetNode)
targetNodePath.setScale(1.0/toonupModelScale)
targetNodePath.setTag('toonupIndex', str(toonupIndex))
targetNodePath.setTag('beltIndex', str(self.index))
targetNodePath.setTag('toonupNum', str(self.toonupNum))
# lower it a little bit to be easier to collide with
targetNodePath.setZ(targetNodePath.getZ()- (1.5 / toonupModelScale) )
self.accept('enter'+colName, self.touchedToonup)
self.toonupModelDict[toonupIndex] = toonupModel
def loadFood(self, foodIndex):
"""Load the food into a food node."""
self.foodNum += 1
if foodIndex in self.foodModelDict:
foodModel = self.foodModelDict[foodIndex]
foodModel.reparentTo(self.foodNodes[foodIndex])
colNp = foodModel.find('**/FoodCol*')
colNp.setTag('foodNum', str(self.foodNum))
else:
foodModelScale = ToontownGlobals.BossbotFoodModelScale
foodModel = loader.loadModel('phase_12/models/bossbotHQ/canoffood')
foodModel.setScale(foodModelScale)
foodModel.reparentTo(self.foodNodes[foodIndex])
# create a collision tube so toons can get the food
target = CollisionTube(4, 0, 0, -4, 0, 0, 2)
target.setTangible(0)
colName = 'FoodCol-%d-%d' %(self.index, foodIndex)
targetNode = CollisionNode(colName)
targetNode.addSolid(target)
targetNode.setCollideMask(ToontownGlobals.WallBitmask)
targetNodePath = foodModel.attachNewNode(targetNode)
targetNodePath.setScale(1.0/foodModelScale)
targetNodePath.setTag('foodIndex', str(foodIndex))
targetNodePath.setTag('beltIndex', str(self.index))
targetNodePath.setTag('foodNum', str(self.foodNum))
# lower it a little bit to be easier to collide with
targetNodePath.setZ(targetNodePath.getZ()-1.5)
self.accept('enter'+colName, self.touchedFood)
self.foodModelDict[foodIndex] = foodModel
class DistributedPartyGate(DistributedObject.DistributedObject):
notify = DirectNotifyGlobal.directNotify.newCategory(
"DistributedPartyGate")
def __init__(self, cr):
"""__init__(cr)
"""
DistributedObject.DistributedObject.__init__(self, cr)
self.publicPartyChooseGuiDoneEvent = "doneChoosingPublicParty"
self.publicPartyGui = PublicPartyGui(
self.publicPartyChooseGuiDoneEvent)
self.publicPartyGui.stash()
self.loadClockSounds()
self.hourSoundInterval = Sequence()
self.accept('stoppedAsleep', self.handleSleep)
def loadClockSounds(self):
self.clockSounds = []
for i in range(1, 13):
if i < 10:
si = "0%d" % i
else:
si = "%d" % i
self.clockSounds.append(
base.loader.loadSfx("phase_4/audio/sfx/clock%s.mp3" % si))
def generate(self):
"""generate(self)
This method is called when the DistributedObject is reintroduced
to the world, either for the first time or from the cache.
"""
DistributedObject.DistributedObject.generate(self)
loader = self.cr.playGame.hood.loader
partyGate = loader.geom.find('**/partyGate_grp')
if partyGate.isEmpty():
self.notify.warning('Could not find partyGate_grp in loader.geom')
return
self.clockFlat = partyGate.find("**/clock_flat")
collSphere = CollisionSphere(0, 0, 0, 6.9)
collSphere.setTangible(1)
self.partyGateSphere = CollisionNode("PartyGateSphere")
self.partyGateSphere.addSolid(collSphere)
self.partyGateCollNodePath = partyGate.find(
"**/partyGate_stepsLocator").attachNewNode(self.partyGateSphere)
self.__enableCollisions()
# self.tunnelOrigin = NodePath("PartyGateTunnelOrigin")
# self.tunnelOrigin.reparentTo(partyGate)
# self.tunnelOrigin.setPos(partyGate.find("**/clockText_locator").getPos() + Point3(0.0, 0.0, -12.0))
self.toontownTimeGui = ServerTimeGui(partyGate,
hourCallback=self.hourChange)
self.toontownTimeGui.setPos(
partyGate.find("**/clockText_locator").getPos() +
Point3(0.0, 0.0, -0.2))
self.toontownTimeGui.setHpr(
partyGate.find("**/clockText_locator").getHpr())
self.toontownTimeGui.setScale(12.0, 1.0, 26.0)
self.toontownTimeGui.amLabel.setPos(-0.035, 0, -0.032)
self.toontownTimeGui.amLabel.setScale(0.5)
self.toontownTimeGui.updateTime()
self.setupSignText()
def setupSignText(self):
"""Attach text to the left and right signs"""
loader = self.cr.playGame.hood.loader
partyGate = loader.geom.find('**/partyGateSignGroup')
if partyGate.isEmpty():
self.notify.warning('Could not find partyGate_grp in loader.geom')
return
gateFont = ToontownGlobals.getMinnieFont()
leftSign = partyGate.find("**/signTextL_locatorBack")
signScale = 0.35
wordWrap = 8
leftText = DirectLabel.DirectLabel(
parent=leftSign,
pos=(0, 0.0, 0.0),
relief=None,
text=TTLocalizer.PartyGateLeftSign,
text_align=TextNode.ACenter,
text_font=gateFont,
text_wordwrap=wordWrap,
text_fg=Vec4(0.7, 0.3, 0.3, 1.0),
scale=signScale,
)
rightSign = partyGate.find("**/signTextR_locatorFront")
rightText = DirectLabel.DirectLabel(
parent=rightSign,
pos=(0, 0.0, 0.0),
relief=None,
text=TTLocalizer.PartyGateRightSign,
text_align=TextNode.ACenter,
text_font=gateFont,
text_wordwrap=wordWrap,
text_fg=Vec4(0.7, 0.3, 0.3, 1.0),
scale=signScale,
)
def announceGenerate(self):
DistributedObject.DistributedObject.announceGenerate(self)
if self.zoneId in ToontownGlobals.dnaMap:
playground = ToontownGlobals.dnaMap[self.zoneId]
else:
playground = ToontownGlobals.dnaMap[2000]
self.toontownTimeGui.hourLabel[
"text_fg"] = PartyGlobals.PlayGroundToPartyClockColors[playground]
self.toontownTimeGui.colonLabel[
"text_fg"] = PartyGlobals.PlayGroundToPartyClockColors[playground]
self.toontownTimeGui.minutesLabel[
"text_fg"] = PartyGlobals.PlayGroundToPartyClockColors[playground]
self.toontownTimeGui.amLabel[
"text_fg"] = PartyGlobals.PlayGroundToPartyClockColors[playground]
def disable(self):
DistributedObject.DistributedObject.disable(self)
self.__disableCollisions()
self.toontownTimeGui.ival.finish()
self.hourSoundInterval.finish()
if self.publicPartyGui:
self.publicPartyGui.stash()
self.publicPartyGui.destroy()
self.publicPartyGui = None
def delete(self):
DistributedObject.DistributedObject.delete(self)
self.toontownTimeGui.destroy()
del self.toontownTimeGui
self.hourSoundInterval.finish()
del self.hourSoundInterval
del self.clockFlat
if self.publicPartyGui:
self.publicPartyGui.destroy()
del self.publicPartyGui
self.partyGateCollNodePath.removeNode()
del self.partyGateCollNodePath
self.ignoreAll()
def showMessage(self, message):
self.messageDoneEvent = self.uniqueName("messageDoneEvent")
self.acceptOnce(self.messageDoneEvent, self.__handleMessageDone)
self.messageGui = TTDialog.TTGlobalDialog(
doneEvent=self.messageDoneEvent,
message=message,
style=TTDialog.Acknowledge,
)
def __handleMessageDone(self):
self.ignore(self.messageDoneEvent)
self.freeAvatar()
self.messageGui.cleanup()
self.messageGui = None
def __handleAskDone(self):
DistributedPartyGate.notify.debug("__handleAskDone")
self.ignore(self.publicPartyChooseGuiDoneEvent)
doneStatus = self.publicPartyGui.doneStatus
self.publicPartyGui.stash()
if doneStatus is None:
# They don't want to party... just let them walk away from the hat
self.freeAvatar()
return
self.sendUpdate("partyChoiceRequest",
[base.localAvatar.doId, doneStatus[0], doneStatus[1]])
def partyRequestDenied(self, reason):
"""
Called by the AI when the player's request to join a public party was denied.
"""
DistributedPartyGate.notify.debug(
"partyRequestDenied( reason=%s )" %
PartyGlobals.PartyGateDenialReasons.getString(reason))
# let the local toon know that they were denied
# TODO-parties: tell player through gui
if reason == PartyGlobals.PartyGateDenialReasons.Unavailable:
self.showMessage(TTLocalizer.PartyGatePartyUnavailable)
elif reason == PartyGlobals.PartyGateDenialReasons.Full:
self.showMessage(TTLocalizer.PartyGatePartyFull)
def setParty(self, partyInfoTuple):
"""
Gets called by the AI server with the approved partyId.
"""
DistributedPartyGate.notify.debug("setParty")
self.freeAvatar()
if partyInfoTuple[0] == 0:
DistributedPartyGate.notify.debug(
"Public Party closed before toon could get to it.")
return
# We now need to enter the party with the given partyId, that is, move
# our toon toward the hat entrance and do the appropriate state transition
shardId, zoneId, numberOfGuests, hostName, activityIds, lane = partyInfoTuple
if base.localAvatar.defaultShard == shardId:
shardId = None
base.cr.playGame.getPlace().requestLeave({
"loader": "safeZoneLoader",
"where": "party",
"how": "teleportIn",
"hoodId": ToontownGlobals.PartyHood,
"zoneId": zoneId,
"shardId": shardId,
"avId": -1,
# "partyHat" : True,
# "tunnelOrigin" : self.tunnelOrigin,
})
def freeAvatar(self):
base.localAvatar.posCamera(0, 0)
base.cr.playGame.getPlace().setState("walk")
def hourChange(self, currentHour):
currentHour = currentHour % 12
if currentHour == 0:
currentHour = 12
self.hourSoundInterval = Parallel()
# Make a sequence with all the clock sounds
seq1 = Sequence()
for i in range(currentHour):
seq1.append(SoundInterval(self.clockSounds[i]))
seq1.append(Wait(0.2))
# Now make a sequence that will deform the clock face
timeForEachDeformation = seq1.getDuration() / currentHour
seq2 = Sequence()
for i in range(currentHour):
seq2.append(
self.clockFlat.scaleInterval(timeForEachDeformation / 2.0,
Vec3(0.9, 1.0, 1.2),
blendType='easeInOut'))
seq2.append(
self.clockFlat.scaleInterval(timeForEachDeformation / 2.0,
Vec3(1.2, 1.0, 0.9),
blendType='easeInOut'))
seq2.append(
self.clockFlat.scaleInterval(timeForEachDeformation / 2.0,
Vec3(1.0, 1.0, 1.0),
blendType='easeInOut'))
# Now parallel the two together
self.hourSoundInterval.append(seq1)
self.hourSoundInterval.append(seq2)
self.hourSoundInterval.start()
def handleEnterGateSphere(self, collEntry):
self.notify.debug("Entering steps Sphere....")
# Freeze the toon, don't let him walk away...
base.cr.playGame.getPlace().fsm.request('stopped')
self.sendUpdate("getPartyList", [base.localAvatar.doId])
def listAllPublicParties(self, publicPartyInfo):
"""
Called from DistributedPartyGateAI with a tuple of all the public party
information as told to it by the DistributedPartyManagerAI in order of
newest party to oldest party.
( shardId, zoneId, numberOfGuests, hostName, activityIds, minLeft )
"""
self.notify.debug("listAllPublicParties : publicPartyInfo = %s" %
publicPartyInfo)
self.acceptOnce(self.publicPartyChooseGuiDoneEvent,
self.__handleAskDone)
self.publicPartyGui.refresh(publicPartyInfo)
self.publicPartyGui.unstash()
def __enableCollisions(self):
# start listening for toons to enter.
self.accept('enterPartyGateSphere', self.handleEnterGateSphere)
self.partyGateSphere.setCollideMask(OTPGlobals.WallBitmask)
def __disableCollisions(self):
# stop listening for toons.
self.ignore('enterPartyGateSphere')
self.partyGateSphere.setCollideMask(BitMask32(0))
def handleSleep(self):
if hasattr(self, 'messageGui'):
self.__handleMessageDone()
class PartyCog(FSM):
notify = directNotify.newCategory("PartyCog")
HpTextGenerator = TextNode("HpTextGenerator")
hpText = None
height = 7
def __init__(self,
parentNode,
id,
bounceSpeed=3,
bounceHeight=1,
rotateSpeed=1,
heightShift=1,
xMoveSpeed=0,
xMoveDistance=0,
bounceOffset=0):
self.id = id
FSM.__init__(self, "PartyCogFSM-%d" % self.id)
self.showFacingStatus = False
self.xMoveSpeed = xMoveSpeed
self.xMoveDistance = xMoveDistance
self.heightShift = heightShift
self.bounceSpeed = bounceSpeed
self.bounceHeight = bounceHeight
self.rotateSpeed = rotateSpeed
self.parentNode = parentNode
self.bounceOffset = bounceOffset
self.hitInterval = None
self.kaboomTrack = None
self.resetRollIval = None
self.netTimeSentToStartByHit = 0
self.load()
self.request("Down")
def load(self):
self.root = NodePath("PartyCog-%d" % self.id)
self.root.reparentTo(self.parentNode)
path = "phase_13/models/parties/cogPinata_"
self.actor = Actor(
path + "actor", {
"idle": path + "idle_anim",
"down": path + "down_anim",
"up": path + "up_anim",
"bodyHitBack": path + "bodyHitBack_anim",
"bodyHitFront": path + "bodyHitFront_anim",
"headHitBack": path + "headHitBack_anim",
"headHitFront": path + "headHitFront_anim",
})
self.actor.reparentTo(self.root)
self.temp_transform = Mat4()
self.head_locator = self.actor.attachNewNode("temphead")
self.bodyColl = CollisionTube(0, 0, 1, 0, 0, 5.75, 0.75)
self.bodyColl.setTangible(1)
self.bodyCollNode = CollisionNode("PartyCog-%d-Body-Collision" %
self.id)
self.bodyCollNode.setCollideMask(ToontownGlobals.PieBitmask)
self.bodyCollNode.addSolid(self.bodyColl)
self.bodyCollNodePath = self.root.attachNewNode(self.bodyCollNode)
self.headColl = CollisionTube(0, 0, 3, 0, 0, 3.0, 1.5)
self.headColl.setTangible(1)
self.headCollNode = CollisionNode("PartyCog-%d-Head-Collision" %
self.id)
self.headCollNode.setCollideMask(ToontownGlobals.PieBitmask)
self.headCollNode.addSolid(self.headColl)
self.headCollNodePath = self.root.attachNewNode(self.headCollNode)
# Cog's Left Arm
self.arm1Coll = CollisionSphere(1.65, 0, 3.95, 1.0)
self.arm1Coll.setTangible(1)
self.arm1CollNode = CollisionNode("PartyCog-%d-Arm1-Collision" %
self.id)
self.arm1CollNode.setCollideMask(ToontownGlobals.PieBitmask)
self.arm1CollNode.addSolid(self.arm1Coll)
self.arm1CollNodePath = self.root.attachNewNode(self.arm1CollNode)
# Cog's Right Arm
self.arm2Coll = CollisionSphere(-1.65, 0, 3.45, 1.0)
self.arm2Coll.setTangible(1)
self.arm2CollNode = CollisionNode("PartyCog-%d-Arm2-Collision" %
self.id)
self.arm2CollNode.setCollideMask(ToontownGlobals.PieBitmask)
self.arm2CollNode.addSolid(self.arm2Coll)
self.arm2CollNodePath = self.root.attachNewNode(self.arm2CollNode)
splatName = 'splat-creampie'
self.splat = globalPropPool.getProp(splatName)
self.splat.setBillboardPointEye()
self.splatType = globalPropPool.getPropType(splatName)
self.pieHitSound = globalBattleSoundCache.getSound(
'AA_wholepie_only.mp3')
self.upSound = globalBattleSoundCache.getSound('AV_jump_to_side.mp3')
self.hole = loader.loadModel("phase_13/models/parties/cogPinataHole")
self.hole.setTransparency(True)
self.hole.setP(-90.0)
self.hole.setScale(3)
self.hole.setBin("ground", 3)
self.hole.reparentTo(self.parentNode)
def unload(self):
self.request("Off")
self.clearHitInterval()
if self.hole is not None:
self.hole.removeNode()
self.hole = None
if self.actor is not None:
self.actor.cleanup()
self.actor.removeNode()
self.actor = None
if self.root is not None:
self.root.removeNode()
self.root = None
if self.kaboomTrack is not None and self.kaboomTrack.isPlaying():
self.kaboomTrack.finish()
self.kaboomTrack = None
if self.resetRollIval is not None and self.resetRollIval.isPlaying():
self.resetRollIval.finish()
self.resetRollIval = None
if self.hitInterval is not None and self.hitInterval.isPlaying():
self.hitInterval.finish()
self.hitInterval = None
del self.upSound
del self.pieHitSound
#===============================================================================
# FSM States
#===============================================================================
def enterStatic(self):
pass
def exitStatic(self):
pass
def enterActive(self, startTime):
self.root.setR(0.0)
updateTask = Task.Task(self.updateTask)
updateTask.startTime = startTime
taskMgr.add(updateTask, "PartyCog.update-%d" % self.id)
def exitActive(self):
taskMgr.remove("PartyCog.update-%d" % self.id)
taskMgr.remove("PartyCog.bounceTask-%d" % self.id)
self.clearHitInterval()
self.resetRollIval = self.root.hprInterval(0.5,
Point3(
self.root.getH(), 0.0,
0.0),
blendType="easeInOut")
self.resetRollIval.start()
self.actor.stop()
def enterDown(self):
if self.oldState == "Off":
self.actor.pose("down", self.actor.getNumFrames("down") - 1)
return
self.clearHitInterval()
startScale = self.hole.getScale()
endScale = Point3(5, 5, 5)
self.hitInterval = Sequence(
LerpFunc(self.setAlongSpline,
duration=1.0,
fromData=self.currentT,
toData=0.0),
LerpScaleInterval(self.hole,
duration=0.175,
scale=endScale,
startScale=startScale,
blendType="easeIn"),
Parallel(
SoundInterval(self.upSound,
volume=0.6,
node=self.actor,
cutOff=PartyGlobals.PARTY_COG_CUTOFF),
ActorInterval(self.actor, "down", loop=0),
),
LerpScaleInterval(self.hole,
duration=0.175,
scale=Point3(3, 3, 3),
startScale=endScale,
blendType="easeOut"),
)
self.hitInterval.start()
def exitDown(self):
self.root.setR(0.0)
self.root.setH(0.0)
self.targetDistance = 0.0
self.targetFacing = 0.0
self.currentT = 0.0
self.setAlongSpline(0.0)
self.clearHitInterval()
startScale = self.hole.getScale()
endScale = Point3(5, 5, 5)
self.hitInterval = Sequence(
LerpScaleInterval(self.hole,
duration=0.175,
scale=endScale,
startScale=startScale,
blendType="easeIn"),
Parallel(
SoundInterval(self.upSound,
volume=0.6,
node=self.actor,
cutOff=PartyGlobals.PARTY_COG_CUTOFF),
ActorInterval(self.actor, "up", loop=0),
),
Func(self.actor.loop, "idle"),
LerpScaleInterval(self.hole,
duration=0.175,
scale=Point3(3, 3, 3),
startScale=endScale,
blendType="easeOut"),
)
self.hitInterval.start()
def filterDown(self, request, args):
if request == "Down":
return None
else:
return self.defaultFilter(request, args)
#------------------------------------------------------------------------------
def setEndPoints(self, start, end, amplitude=1.7):
self.sinAmplitude = amplitude
self.sinPeriod = (end.getX() - start.getX()) / 2
self.sinDisplacement = start.getY()
self.startPoint = start
self.endPoint = end
self.currentT = 0.0
self.targetDistance = 0.0
self.currentFacing = 0.0
self.targetFacing = 0.0
self.setAlongSpline(self.currentT)
self.hole.setPos(self.root.getPos())
self.hole.setZ(0.02)
def rockBackAndForth(self, task):
t = task.startTime + task.time
angle = math.sin(t) * 20.0
self.root.setR(angle)
# if self.id == 0:
# print angle
return task.cont
def updateDistance(self, distance):
self.targetDistance = clamp(distance, -1.0, 1.0)
def updateTask(self, task):
self.rockBackAndForth(task)
if self.targetDistance > self.currentT:
self.currentT += min(0.01, self.targetDistance - self.currentT)
self.setAlongSpline(self.currentT)
elif self.targetDistance < self.currentT:
self.currentT += max(-0.01, self.targetDistance - self.currentT)
self.setAlongSpline(self.currentT)
if self.currentT < 0.0:
self.targetFacing = -90.0
elif self.currentT > 0.0:
self.targetFacing = 90.0
else:
self.targetFacing = 0.0
if self.targetFacing > self.currentFacing:
self.currentFacing += min(10,
self.targetFacing - self.currentFacing)
elif self.targetFacing < self.currentFacing:
self.currentFacing += max(-10,
self.targetFacing - self.currentFacing)
self.root.setH(self.currentFacing)
return task.cont
def setAlongSpline(self, t):
t = t + 1.0
dist = (self.endPoint.getX() - self.startPoint.getX()) / 2.0
x = self.startPoint.getX() + t * dist
y = self.startPoint.getY() - math.sin(
t * 2 * math.pi) * self.sinAmplitude
self.root.setPos(x, y, 0)
def startBounce(self):
taskMgr.add(self.bounce, "PartyCog.bounceTask-%d" % self.id)
def bounce(self, task):
#self.root.setH(self.root.getH() - self.rotateSpeed)
self.root.setZ((math.sin((self.bounceOffset + task.time) *
self.bounceSpeed) * self.bounceHeight) +
self.heightShift)
return task.cont
def setPos(self, position):
self.root.setPos(position)
def respondToPieHit(self, timestamp, position, hot=False, direction=1.0):
"""The toon hit us, react appropriately."""
assert (self.notify.debugStateCall(self))
if self.netTimeSentToStartByHit < timestamp:
self.__showSplat(position, direction, hot)
if self.netTimeSentToStartByHit < timestamp:
self.netTimeSentToStartByHit = timestamp
else:
#self.notify.debug('localStamp = %s, lastLocalTimeStampFromAI=%s, ignoring respondToPieHit' % (localStamp, self.lastLocalTimeStampFromAI))
self.notify.debug(
'respondToPieHit self.netTimeSentToStartByHit = %s' %
self.netTimeSentToStartByHit)
def clearHitInterval(self):
if self.hitInterval is not None and self.hitInterval.isPlaying():
self.hitInterval.clearToInitial()
def __showSplat(self, position, direction, hot=False):
"""Show the splat graphic and sound."""
if self.kaboomTrack is not None and self.kaboomTrack.isPlaying():
self.kaboomTrack.finish()
self.clearHitInterval()
splatName = 'splat-creampie'
self.splat = globalPropPool.getProp(splatName)
self.splat.setBillboardPointEye()
self.splat.reparentTo(render)
self.splat.setPos(self.root, position)
self.splat.setAlphaScale(1.0)
if not direction == 1.0:
#self.splat.setColorScale(Vec4(0.0, 0.0, 50.0, 1.0))
self.splat.setColorScale(PartyGlobals.CogActivitySplatColors[0])
if self.currentFacing > 0.0:
facing = "HitFront"
else:
facing = "HitBack"
else:
self.splat.setColorScale(PartyGlobals.CogActivitySplatColors[1])
#self.splat.setColorScale(Vec4(1.0, 0.6, 0.08, 1.0))
if self.currentFacing > 0.0:
facing = "HitBack"
else:
facing = "HitFront"
if hot:
targetscale = 0.75
part = "head"
else:
targetscale = 0.5
part = "body"
def setSplatAlpha(amount):
self.splat.setAlphaScale(amount)
self.hitInterval = Sequence(
ActorInterval(self.actor, part + facing, loop=0),
Func(self.actor.loop, "idle"),
)
self.hitInterval.start()
self.kaboomTrack = Parallel(
SoundInterval(self.pieHitSound,
volume=1.0,
node=self.actor,
cutOff=PartyGlobals.PARTY_COG_CUTOFF),
Sequence(
Func(self.splat.showThrough),
Parallel(
Sequence(
LerpScaleInterval(self.splat,
duration=0.175,
scale=targetscale,
startScale=Point3(0.1, 0.1, 0.1),
blendType="easeOut"),
Wait(0.175),
),
Sequence(
Wait(0.1),
LerpFunc(
setSplatAlpha,
duration=1.0, #0.4,
fromData=1.0,
toData=0.0,
blendType="easeOut"))),
Func(self.splat.cleanup),
Func(self.splat.removeNode),
))
self.kaboomTrack.start()
def showHitScore(self, number, scale=1):
"""
Shows the hit score.
Borrowed from otp.avatar.DistributedAvatar.showHpText
"""
if number <= 0:
return
# Get rid of the number if it is already there.
if self.hpText:
self.hideHitScore()
# Set the font
self.HpTextGenerator.setFont(ToontownGlobals.getSignFont())
# Show both negative and positive signs
if number < 0:
self.HpTextGenerator.setText(str(number))
else:
self.HpTextGenerator.setText("+" + str(number))
# No shadow
self.HpTextGenerator.clearShadow()
# Center the number
self.HpTextGenerator.setAlign(TextNode.ACenter)
# Red, always
#if number < 0:
r = 1 #0.9
g = 1 #0
b = 0
a = 1
self.HpTextGenerator.setTextColor(r, g, b, a)
self.hpTextNode = self.HpTextGenerator.generate()
# Put the hpText over the head of the avatar
self.hpText = render.attachNewNode(self.hpTextNode)
self.hpText.setScale(scale)
# Make sure it is a billboard
self.hpText.setBillboardPointEye()
# Render it after other things in the scene.
self.hpText.setBin('fixed', 100)
# Initial position ... Center of the body... the "tan tien"
self.hpText.setPos(self.root, 0, 0, self.height / 2)
# Black magic from the early days of Panda3D, later replaced by a Sequence
seq = Task.sequence(
# Fly the number out of the character
self.hpText.lerpPos(Point3(
self.root.getX(render), self.root.getY(render),
self.root.getZ(render) + self.height + 1.0),
0.25,
blendType='easeOut'),
Task.pause(0.25),
# Fade the number
self.hpText.lerpColor(Vec4(r, g, b, a), Vec4(r, g, b, 0), 0.1),
# Get rid of the number
Task.Task(self.__hideHitScoreTask))
taskMgr.add(seq, "PartyCogHpText" + str(self.id))
def __hideHitScoreTask(self, task):
self.hideHitScore()
return Task.done
def hideHitScore(self):
if self.hpText:
taskMgr.remove("PartyCogHpText" + str(self.id))
self.hpText.removeNode()
self.hpText = None
def getHeadLocation(self):
(self.actor.getJoints(jointName="head")[0]).getNetTransform(
self.temp_transform)
self.head_locator.setMat(self.temp_transform)
#print self.head_locator.getZ()
return self.head_locator.getZ(self.root)
class DistributedPartyTrampolineActivity(DistributedPartyActivity):
notify = DirectNotifyGlobal.directNotify.newCategory(
"DistributedPartyTrampolineActivity")
def __init__(self, cr, doJellyBeans=True, doTricks=False, texture=None):
DistributedPartyTrampolineActivity.notify.debug("__init__")
DistributedPartyActivity.__init__(
self,
cr,
PartyGlobals.ActivityIds.PartyTrampoline,
PartyGlobals.ActivityTypes.GuestInitiated,
wantLever=False,
wantRewardGui=True,
)
self.doJellyBeans = doJellyBeans
self.doTricks = doTricks
self.texture = texture
self.toon = None
self.trampHeight = 3.6
self.trampK = 400.0 # spring constant
self.normalTrampB = 2.5 # spring damping
self.leavingTrampB = 8.0 # increase damping to slow toon faster when leaving
self.trampB = self.normalTrampB
self.g = -32.0 # acceleration due to gravity
self.jumpBoost = 330.0
self.beginningBoost = 500.0
self.beginningBoostThreshold = self.trampHeight + 1.5
self.earlyJumpThreshold = 75.0
self.boingThreshold = 300.0
self.turnFactor = 120.0
self.stepDT = 0.001
self.targetCameraPos = Point3(0.0, 40.0, 10.0) # relative to toon
self.cameraSpeed = 2.0
self.hopOffPos = Point3(16.0, 0.0, 0.0) # relative to tramp
self.indicatorFactor = 0.0095
self.dropShadowCutoff = 15.0
self.minHeightForText = 15.0
self.heightTextOffset = -0.065
self.beanOffset = 0.5
self.guiBeanOffset = -0.02
self.jumpTextShown = False
self.toonJumped = False
self.turnLeft = False
self.turnRight = False
self.leavingTrampoline = False
self.toonVelocity = 0.0
self.topHeight = 0.0
self.lastPeak = 0.0
self.beginRoundInterval = None
self.hopOnAnim = None
self.hopOffAnim = None
self.flashTextInterval = None
# Jelly Beans
self.numJellyBeans = PartyGlobals.TrampolineNumJellyBeans # These are in PartyGlobals so they can be available to the AI.
self.jellyBeanBonus = PartyGlobals.TrampolineJellyBeanBonus
self.jellyBeanStartHeight = 20.0
self.jellyBeanStopHeight = 90.0
self.jellyBeanColors = [
VBase4(1.0, 0.5, 0.5, 1.0),
VBase4(0.5, 1.0, 0.5, 1.0),
VBase4(0.5, 1.0, 1.0, 1.0),
VBase4(1.0, 1.0, 0.4, 1.0),
VBase4(0.4, 0.4, 1.0, 1.0),
VBase4(1.0, 0.5, 1.0, 1.0),
]
delta = (self.jellyBeanStopHeight -
self.jellyBeanStartHeight) / (self.numJellyBeans - 1)
self.jellyBeanPositions = [
self.jellyBeanStartHeight + n * delta
for n in range(self.numJellyBeans)
]
self.doSimulateStep = False
# import sys
# sys.path.append( "C:\\pratt\\SchellGames\\perforce\\depot\\Tools\\PandaMisc" )
# from Reloader import Reloader
# self.reloader = Reloader( "C:\\cygwin\\home\\pratt\\player_working\\toontown\\src\\parties" )
#---------------------------------------------------
# Loading
#---------------------------------------------------
def load(self):
DistributedPartyTrampolineActivity.notify.debug("load")
DistributedPartyActivity.load(self)
self.loadModels()
self.loadCollision()
self.loadGUI()
self.loadSounds()
self.loadIntervals()
self.activityFSM = TrampolineActivityFSM(self)
self.activityFSM.request("Idle")
self.animFSM = TrampolineAnimFSM(self)
self.setBestHeightInfo("", 0)
def loadModels(self):
self.tramp = self.root.attachNewNode(self.uniqueName("tramp"))
self.screenPlaneElements = NodePath(self.uniqueName("screenPlane"))
self.trampActor = Actor(
"phase_13/models/parties/trampoline_model",
{"emptyAnim": "phase_13/models/parties/trampoline_anim"},
)
self.trampActor.reparentTo(self.tramp)
# Allow reskinning.
if self.texture:
reskinNode = self.tramp.find(
"**/trampoline/__Actor_modelRoot/-GeomNode")
reskinNode.setTexture(loader.loadTexture(self.texture), 100)
self.surface = NodePath(self.uniqueName("trampSurface"))
self.surface.reparentTo(self.tramp)
self.surface.setZ(self.trampHeight)
self.trampActor.controlJoint(self.surface, "modelRoot",
"trampoline_joint1")
self.sign.setPos(PartyGlobals.TrampolineSignOffset)
self.beans = [
loader.loadModelCopy("phase_4/models/props/jellybean4")
for i in range(self.numJellyBeans)
]
for bean in self.beans:
bean.find("**/jellybean").setP(-35.0)
bean.setScale(3.0)
bean.setTransparency(True)
bean.reparentTo(self.tramp)
bean.stash()
self.beans[-1].setScale(8.0)
def loadCollision(self):
collTube = CollisionTube(0.0, 0.0, 0.0, 0.0, 0.0, 6.0, 5.4)
collTube.setTangible(True)
self.trampolineCollision = CollisionNode(
self.uniqueName("TrampolineCollision"))
self.trampolineCollision.addSolid(collTube)
self.trampolineCollision.setCollideMask(OTPGlobals.CameraBitmask
| OTPGlobals.WallBitmask)
self.trampolineCollisionNP = self.tramp.attachNewNode(
self.trampolineCollision)
collSphere = CollisionSphere(0.0, 0.0, 0.0, 7.0)
collSphere.setTangible(False)
self.trampolineTrigger = CollisionNode(
self.uniqueName("TrampolineTrigger"))
self.trampolineTrigger.addSolid(collSphere)
self.trampolineTrigger.setIntoCollideMask(OTPGlobals.WallBitmask)
self.trampolineTriggerNP = self.tramp.attachNewNode(
self.trampolineTrigger)
self.accept("enter%s" % self.uniqueName("TrampolineTrigger"),
self.onTrampolineTrigger)
def loadGUI(self):
self.gui = loader.loadModel("phase_13/models/parties/trampolineGUI")
self.gui.reparentTo(base.a2dTopLeft)
self.gui.setPos(0.115, 0, -1)
self.gui.hide()
self.toonIndicator = self.gui.find("**/trampolineGUI_MovingBar")
jumpLineLocator = self.gui.find("**/jumpLine_locator")
guiBean = self.gui.find("**/trampolineGUI_GreenJellyBean")
self.gui.find("**/trampolineGUI_GreenJellyBean").stash(
) # sadly, the white jelly bean is named GreenJellyBean
self.guiBeans = [
guiBean.instanceUnderNode(jumpLineLocator,
self.uniqueName("guiBean%d" % i))
for i in range(self.numJellyBeans)
]
self.guiBeans[-1].setScale(1.5)
heightTextNode = TextNode(
self.uniqueName("TrampolineActivity.heightTextNode"))
heightTextNode.setFont(ToontownGlobals.getSignFont())
heightTextNode.setAlign(TextNode.ALeft)
heightTextNode.setText("0.0")
heightTextNode.setShadow(0.05, 0.05)
heightTextNode.setShadowColor(0.0, 0.0, 0.0, 1.0)
heightTextNode.setTextColor(1.0, 1.0, 1.0, 1.0)
self.heightText = jumpLineLocator.attachNewNode(heightTextNode)
self.heightText.setX(0.15)
self.heightText.setScale(0.1)
self.heightText.setAlphaScale(0.0)
self.quitEarlyButtonModels = loader.loadModel(
"phase_3.5/models/gui/inventory_gui")
quitEarlyUp = self.quitEarlyButtonModels.find("**//InventoryButtonUp")
quitEarlyDown = self.quitEarlyButtonModels.find(
"**/InventoryButtonDown")
quitEarlyRollover = self.quitEarlyButtonModels.find(
"**/InventoryButtonRollover")
self.quitEarlyButton = DirectButton(
parent=base.a2dTopRight,
relief=None,
text=TTLocalizer.PartyTrampolineQuitEarlyButton,
text_fg=(1, 1, 0.65, 1),
text_pos=(0, -0.23),
text_scale=0.7,
image=(quitEarlyUp, quitEarlyDown, quitEarlyRollover),
image_color=(1, 0, 0, 1),
image_scale=(20, 1, 11),
pos=(-0.183, 0, -0.4),
scale=0.09,
command=self.leaveTrampoline,
)
self.quitEarlyButton.stash()
self.flashText = OnscreenText(
text="",
pos=(0.0, -0.45),
scale=0.2,
fg=(1.0, 1.0, 0.65, 1.0),
align=TextNode.ACenter,
font=ToontownGlobals.getSignFont(),
mayChange=True,
)
self.timer = PartyUtils.getNewToontownTimer()
self.timer.reparentTo(self.screenPlaneElements)
def loadSounds(self):
self.jellyBeanSound = base.loader.loadSfx(
"phase_4/audio/sfx/sparkly.mp3")
self.boingSound = base.loader.loadSfx(
"phase_4/audio/sfx/target_trampoline_2.mp3")
self.whistleSound = base.loader.loadSfx(
"phase_4/audio/sfx/AA_sound_whistle.mp3")
def loadIntervals(self):
def prepareHeightText():
self.heightText.node().setText(
TTLocalizer.PartyTrampolineGetHeight % int(self.toon.getZ()))
self.heightText.setZ(self.indicatorFactor * self.toon.getZ() +
self.heightTextOffset)
self.heightTextInterval = Sequence(
Func(prepareHeightText),
LerpFunc(self.heightText.setAlphaScale,
fromData=1.0,
toData=0.0,
duration=1.0),
)
def unload(self):
DistributedPartyTrampolineActivity.notify.debug("unload")
if self.hopOnAnim and self.hopOnAnim.isPlaying():
self.hopOnAnim.finish()
if self.hopOffAnim and self.hopOffAnim.isPlaying():
self.hopOffAnim.finish()
if self.beginRoundInterval and self.beginRoundInterval.isPlaying():
self.beginRoundInterval.finish()
if self.flashTextInterval and self.flashTextInterval.isPlaying():
self.flashTextInterval.finish()
if self.heightTextInterval and self.heightTextInterval.isPlaying():
self.heightTextInterval.finish()
self.timer.stop()
DistributedPartyActivity.unload(self)
# Unload tasks
taskMgr.remove(self.uniqueName("TrampolineActivity.updateTask"))
taskMgr.remove(self.uniqueName("TrampolineActivity.remoteUpdateTask"))
# Unload events
self.ignoreAll()
# Unload intervals
del self.heightTextInterval
del self.beginRoundInterval
del self.hopOnAnim
del self.hopOffAnim
del self.flashTextInterval
if hasattr(self, 'beanAnims'):
# we need to cleanup the jelly bean interval
self.cleanupJellyBeans()
# Unload gui stuff
self.quitEarlyButton.destroy()
del self.quitEarlyButton
if self.screenPlaneElements:
self.screenPlaneElements.removeNode()
self.screenPlaneElements = None
# Unload fsms
del self.activityFSM
del self.animFSM
#---------------------------------------------------
# Distributed
#---------------------------------------------------
def setBestHeightInfo(self, toonName, height):
if GMUtils.testGMIdentity(toonName):
toonName = GMUtils.handleGMName(toonName)
self.bestHeightInfo = (toonName, height)
DistributedPartyTrampolineActivity.notify.debug(
"%s has the best height of %d" % (toonName, height))
if height > 0:
self.setSignNote(TTLocalizer.PartyTrampolineBestHeight %
self.bestHeightInfo)
else:
self.setSignNote(TTLocalizer.PartyTrampolineNoHeightYet)
def leaveTrampoline(self):
if self.toon != None and self.toon.doId == base.localAvatar.doId:
self._showFlashMessage(TTLocalizer.PartyTrampolineTimesUp)
self.leavingTrampoline = True
self.timer.reset()
self.trampB = self.leavingTrampB
self.ignore("control")
self.quitEarlyButton.stash()
self.gui.hide()
def requestAnim(self, request):
self.animFSM.request(request)
def b_requestAnim(self, request):
self.requestAnim(request)
self.sendUpdate("requestAnim", [request])
def requestAnimEcho(self, request):
if self.toon != None and self.toon.doId != base.localAvatar.doId:
self.requestAnim(request)
def removeBeans(self, beansToRemove):
for i in beansToRemove:
height, bean, guiBean, beanAnim = self.beanDetails[i]
guiBean.stash()
if i in self.beansToCollect:
self.beansToCollect.remove(i)
else:
self.notify.warning(
"removeBeans avoided a crash, %d not in self.beansToCollect"
% i)
self.poofBean(bean, beanAnim)
# bean.stash()
# beanAnim.finish()
def b_removeBeans(self, beansToRemove):
self.removeBeans(beansToRemove)
self.sendUpdate("removeBeans", [beansToRemove])
def removeBeansEcho(self, beansToRemove):
if self.toon != None and self.toon.doId != base.localAvatar.doId:
self.removeBeans(beansToRemove)
def joinRequestDenied(self, reason):
DistributedPartyActivity.joinRequestDenied(self, reason)
self.showMessage(TTLocalizer.PartyActivityDefaultJoinDeny)
base.cr.playGame.getPlace().fsm.request("walk")
def exitRequestDenied(self, reason):
DistributedPartyActivity.exitRequestDenied(self, reason)
self.showMessage(TTLocalizer.PartyActivityDefaultExitDeny)
def setState(self, newState, timestamp):
DistributedPartyTrampolineActivity.notify.debug(
"setState( newState=%s, ... )" % newState)
DistributedPartyActivity.setState(self, newState, timestamp)
self.activityFSM.request(newState)
#---------------------------------------------------
# FSM handling
#---------------------------------------------------
def startIdle(self):
DistributedPartyTrampolineActivity.notify.debug("startIdle")
def finishIdle(self):
DistributedPartyTrampolineActivity.notify.debug("finishIdle")
def startRules(self):
DistributedPartyTrampolineActivity.notify.debug("startRules")
if self.doJellyBeans:
self.setupJellyBeans()
if self.toon != None and self.toon.doId == base.localAvatar.doId:
self.acquireToon()
def startActive(self):
DistributedPartyTrampolineActivity.notify.debug("startActive")
if self.toon != None and self.toon.doId == base.localAvatar.doId:
base.setCellsAvailable(base.bottomCells, True)
self.accept("arrow_left", self.onLeft)
self.accept("arrow_left-up", self.onLeftUp)
self.accept("arrow_right", self.onRight)
self.accept("arrow_right-up", self.onRightUp)
self.beginRoundInterval = Sequence(
Func(self._showFlashMessage, TTLocalizer.PartyTrampolineReady),
Wait(1.2),
Func(self.flashMessage, TTLocalizer.PartyTrampolineGo),
Func(self.beginRound))
self.beginRoundInterval.start()
def finishActive(self):
DistributedPartyTrampolineActivity.notify.debug("finishActive")
if self.doJellyBeans:
self.cleanupJellyBeans()
#---------------------------------------------------
# FSM extras
#---------------------------------------------------
def setupJellyBeans(self):
self.beanAnims = []
self.beansToCollect = []
self.beanDetails = []
self.numBeansCollected = 0
for i in range(self.numJellyBeans):
bean = self.beans[i]
guiBean = self.guiBeans[i]
height = self.jellyBeanPositions[i]
color = random.choice(self.jellyBeanColors)
bean.find("**/jellybean").setColor(color)
if self.toon.doId == base.localAvatar.doId:
bean.setAlphaScale(1.0)
else:
bean.setAlphaScale(0.5)
guiBean.setColor(color)
bean.setZ(height + self.toon.getHeight() + self.beanOffset)
guiBean.setZ(height * self.indicatorFactor + self.guiBeanOffset)
bean.setH(0.0)
bean.unstash()
guiBean.unstash()
beanAnim = bean.hprInterval(
1.5, VBase3((((i % 2) * 2) - 1) * 360.0, 0.0, 0.0)
) # the (((i % 2)*2) - 1) makes adjacent beans spin opposite directions
beanAnim.loop()
self.beanAnims.append(beanAnim)
self.beanDetails.append((height, bean, guiBean, beanAnim))
self.beansToCollect = list(range(self.numJellyBeans))
def cleanupJellyBeans(self):
for bean in self.beans:
bean.stash()
for guiBean in self.guiBeans:
guiBean.stash()
# If handleToonJoined hasn't been sent toonId on some clients
if hasattr(self, 'beanAnims'):
for beanAnim in self.beanAnims:
beanAnim.finish()
del self.beanAnims
del self.beansToCollect
def beginRound(self):
base.playSfx(self.whistleSound)
self.timer.setTime(PartyGlobals.TrampolineDuration)
self.timer.countdown(PartyGlobals.TrampolineDuration)
self.timer.show()
self.gui.show()
self.quitEarlyButton.unstash()
self.notify.debug("Accepting contorl")
self.accept("control", self.onJump)
self.notify.debug("setting simulate step to true")
self.doSimulateStep = True
def acquireToon(self):
# self.dataLog = open( "dataLog.txt", "w" )
self.toon.disableSmartCameraViews()
self.toon.stopUpdateSmartCamera()
camera.wrtReparentTo(render)
self.toon.dropShadow.reparentTo(hidden)
self.toon.startPosHprBroadcast(period=0.2)
self.toonAcceleration = 0.0
self.toonVelocity = 0.0
self.topHeight = 0.0
self.trampB = self.normalTrampB
self.leavingTrampoline = False
self.hopOnAnim = Sequence(
Func(self.toon.b_setAnimState, "jump", 1.0),
Wait(0.4),
PartyUtils.arcPosInterval(0.75, self.toon,
Point3(0.0, 0.0, self.trampHeight), 5.0,
self.tramp),
Func(self.postHopOn),
)
self.hopOnAnim.start()
def postHopOn(self):
self.toon.setH(self.toon.getH() +
90.0) # makes camera adjustment less jarring
self.toon.dropShadow.reparentTo(self.surface)
self.screenPlaneElements.reparentTo(aspect2d)
self.timeLeftToSimulate = 0.0
self.doSimulateStep = False
taskMgr.add(self.updateTask,
self.uniqueName("TrampolineActivity.updateTask"))
base.setCellsAvailable(base.leftCells, False)
base.setCellsAvailable(base.bottomCells, False)
DistributedPartyActivity.startRules(self)
def releaseToon(self):
self._hideFlashMessage()
self.ignore("arrow_left")
self.ignore("arrow_left-up")
self.ignore("arrow_right")
self.ignore("arrow_right-up")
taskMgr.remove(self.uniqueName("TrampolineActivity.updateTask"))
self.hopOffAnim = Sequence(
self.toon.hprInterval(0.5,
VBase3(-90.0, 0.0, 0.0),
other=self.tramp),
Func(self.toon.b_setAnimState, "jump", 1.0),
Func(self.toon.dropShadow.reparentTo, hidden),
Wait(0.4),
PartyUtils.arcPosInterval(0.75, self.toon, self.hopOffPos, 5.0,
self.tramp),
Func(self.postHopOff),
)
self.hopOffAnim.start()
def postHopOff(self):
self.screenPlaneElements.reparentTo(hidden)
base.setCellsAvailable(base.leftCells, True)
self.timer.stop()
self.timer.hide()
self.toon.dropShadow.reparentTo(self.toon.getShadowJoint())
self.toon.dropShadow.setAlphaScale(1.0)
self.toon.dropShadow.setScale(1.0)
# Continue broadcasting so remote toons see us reach the final hop off position.
#self.toon.stopPosHprBroadcast()
self.b_requestAnim("Off")
camera.reparentTo(base.localAvatar)
base.localAvatar.startUpdateSmartCamera()
base.localAvatar.enableSmartCameraViews()
base.localAvatar.setCameraPositionByIndex(base.localAvatar.cameraIndex)
place = base.cr.playGame.getPlace()
if self.doJellyBeans:
self.sendUpdate("awardBeans",
[self.numBeansCollected,
int(self.topHeight)])
if int(self.topHeight) > self.bestHeightInfo[1]:
self.sendUpdate("reportHeightInformation",
[int(self.topHeight)])
self.d_toonExitDemand()
#---------------------------------------------------
# Event Handling
#---------------------------------------------------
def onTrampolineTrigger(self, collEntry):
if (self.activityFSM._state == "Idle") and (self.toon == None) and (
base.cr.playGame.getPlace().fsm.getCurrentState().getName()
== "walk"):
base.cr.playGame.getPlace().fsm.request("activity")
self.d_toonJoinRequest()
else:
self.flashMessage(TTLocalizer.PartyTrampolineActivityOccupied,
duration=2.0)
def onJump(self):
self.notify.debug("got onJump")
if self.toon != None and self.toon.getZ() < self.trampHeight:
# Have to be on the trampoline
self.toonJumped = True
self.b_requestAnim("Jump")
else:
self.notify.debug("z is less than tramp height")
def onLeft(self):
self.turnLeft = True
def onLeftUp(self):
self.turnLeft = False
def onRight(self):
self.turnRight = True
def onRightUp(self):
self.turnRight = False
#---------------------------------------------------
# Super class functionality
#---------------------------------------------------
def handleToonJoined(self, toonId):
DistributedPartyTrampolineActivity.notify.debug("handleToonJoined")
self.toon = self.getAvatar(toonId)
if self.toon != None and not self.toon.isEmpty():
self.oldJumpSquatPlayRate = self.toon.getPlayRate("jump-squat")
self.oldJumpLandPlayRate = self.toon.getPlayRate("jump-land")
self.toon.setPlayRate(2.5, "jump-squat")
self.toon.setPlayRate(2.0, "jump-land")
self.turnLeft = False
self.turnRight = False
self.activityFSM.request("Rules")
if self.toon.doId != base.localAvatar.doId:
taskMgr.add(
self.remoteUpdateTask,
self.uniqueName("TrampolineActivity.remoteUpdateTask"))
else:
self.notify.warning("handleToonJoined could not get toon %d" %
toonId)
def handleToonExited(self, toonId):
DistributedPartyTrampolineActivity.notify.debug("handleToonExited")
if self.toon != None:
if self.toon.doId != base.localAvatar.doId:
taskMgr.remove(
self.uniqueName("TrampolineActivity.remoteUpdateTask"))
self.surface.setZ(self.trampHeight)
self.toon.setPlayRate(self.oldJumpSquatPlayRate, "jump-squat")
self.toon.setPlayRate(self.oldJumpLandPlayRate, "jump-land")
self.toon = None
def handleToonDisabled(self, toonId):
"""
A toon dropped unexpectedly from the game. Handle it!
"""
DistributedPartyTrampolineActivity.notify.debug("handleToonDisabled")
DistributedPartyTrampolineActivity.notify.debug("avatar " +
str(toonId) +
" disabled")
if base.localAvatar.doId == toonId:
self.releaseToon()
def handleRulesDone(self):
self.sendUpdate("toonReady")
self.finishRules()
def getTitle(self):
if self.doJellyBeans:
return TTLocalizer.PartyTrampolineJellyBeanTitle
elif self.doTricks:
return TTLocalizer.PartyTrampolineTricksTitle
else:
return DistributedPartyActivity.getTitle(self)
def getInstructions(self):
return TTLocalizer.PartyTrampolineActivityInstructions
#---------------------------------------------------
# Simulation
#---------------------------------------------------
def updateTask(self, task):
# Only run on local client
z = self.toon.getZ()
dt = globalClock.getDt()
if self.doSimulateStep:
self.timeLeftToSimulate += dt
while self.timeLeftToSimulate >= self.stepDT:
z, a = self.simulateStep(z)
self.timeLeftToSimulate -= self.stepDT
self.toon.setZ(z)
# Move tramp surface
if z <= self.trampHeight:
self.surface.setZ(z)
else:
self.surface.setZ(self.trampHeight)
# Move toon indicator
self.toonIndicator.setZ((z - self.trampHeight) * self.indicatorFactor)
# Turn left or right
if self.turnLeft:
self.toon.setH(self.toon.getH() + self.turnFactor * dt)
if self.turnRight:
self.toon.setH(self.toon.getH() - self.turnFactor * dt)
# Update camera
currentPos = base.camera.getPos(self.toon)
vec = self.targetCameraPos - currentPos
newPos = currentPos + vec * (dt * self.cameraSpeed)
base.camera.setPos(self.toon, newPos)
base.camera.lookAt(self.toon)
# Fade and scale drop shadow
if z > self.trampHeight:
heightFactor = 1.0 - min(
1.0, (z - self.trampHeight) / self.dropShadowCutoff)
self.toon.dropShadow.setAlphaScale(heightFactor)
self.toon.dropShadow.setScale(max(0.1, heightFactor))
else:
self.toon.dropShadow.setAlphaScale(1.0)
self.toon.dropShadow.setScale(1.0)
# Leave trampoline if necessary
if self.leavingTrampoline and (z < self.trampHeight) and (abs(a) <
0.1):
self.releaseToon()
# Simulate poor framerate
# time.sleep( 0.03 )
return Task.cont
def simulateStep(self, z):
# Calculate acceleration
if z >= self.trampHeight:
# Above the trampoline; only use gravity.
a = self.g
# Clear jumped flag
self.toonJumped = False
else:
# On the trampoline; use gravity + spring + damping
a = self.g + self.trampK * (self.trampHeight -
z) - self.trampB * self.toonVelocity
# Add jump acceleration if necessary
if self.toonJumped:
# Don't penalize early jumps.
# If we're above the earlyJumpThreshold, go ahead and add jump
# acceleration, even if the toon hasn't bottomed out (which
# will reduce the effectiveness of the jump).
# Otherwise, only add jump acceleration, if the toon has
# bottomed out (toonVelocity >= 0.0).
#self.notify.debug("self.lastPeak=%s earlyJumpThreshold=%s toonVelocity=%s" %(self.lastPeak, self.earlyJumpThreshold, self.toonVelocity ))
if (self.lastPeak > self.earlyJumpThreshold) or (
self.toonVelocity >= -3E5):
a += self.jumpBoost
# Add beginning boost if necessary.
if self.lastPeak < self.beginningBoostThreshold:
a += self.beginningBoost
# Calculate velocity
#import pdb; pdb.set_trace()
lastVelocity = self.toonVelocity
self.toonVelocity += a * self.stepDT
if (lastVelocity > 0.0) and (self.toonVelocity <= 0.0):
topOfJump = True
bottomOfJump = False
elif (lastVelocity < 0.0) and (self.toonVelocity >= 0.0):
topOfJump = False
bottomOfJump = True
else:
topOfJump = False
bottomOfJump = False
# optimal jumping
# if bottomOfJump and self.isAccepting( "control" ):
# self.toonJumped = True
# print z
# Calculate position
newZ = z + self.toonVelocity * self.stepDT
if newZ > self.topHeight:
self.topHeight = newZ
if self.doJellyBeans:
self.collectJellyBeans(newZ)
if topOfJump:
# Set lastPeak
self.lastPeak = newZ
# Show height text if necessary
if newZ >= self.minHeightForText:
self.heightTextInterval.start()
# Set anim state
if topOfJump:
if newZ > (self.trampHeight + 20.0):
self.b_requestAnim("Falling")
elif self.animFSM._state == "Jump":
self.b_requestAnim("Falling")
if (newZ <= self.trampHeight) and (z > self.trampHeight):
if self.animFSM._state == "Falling":
self.b_requestAnim("Land")
elif self.animFSM._state != "Neutral":
self.b_requestAnim("Neutral")
# Play "boing" sound.
if bottomOfJump and (a > self.boingThreshold):
base.playSfx(self.boingSound)
return newZ, a
def collectJellyBeans(self, z):
beansToRemove = []
for i in self.beansToCollect:
height = self.beanDetails[i][0]
if height <= z:
beansToRemove.append(i)
if len(beansToRemove) > 0:
base.playSfx(self.jellyBeanSound)
self.numBeansCollected += len(beansToRemove)
self.b_removeBeans(beansToRemove)
def remoteUpdateTask(self, task):
# Only run on remote clients
# Move tramp surface
if self.toon != None and not self.toon.isEmpty():
z = self.toon.getZ()
if z <= self.trampHeight:
self.surface.setZ(z)
else:
self.surface.setZ(self.trampHeight)
return Task.cont
#---------------------------------------------------
# Misc
#---------------------------------------------------
def poofBean(self, bean, beanAnim):
if bean == None:
self.notify.warning(
"poofBean, returning immediately as bean is None")
return
if bean.isEmpty():
self.notify.warning(
"poofBean, returning immediately as bean is empty")
return
currentAlpha = bean.getColorScale()[3]
currentScale = bean.getScale()
poofAnim = Sequence(
Parallel(
LerpFunc(bean.setAlphaScale,
fromData=currentAlpha,
toData=0.0,
duration=0.25),
LerpFunc(bean.setScale,
fromData=currentScale,
toData=currentScale * 5.0,
duration=0.25),
),
Func(bean.stash),
Func(beanAnim.finish),
Func(bean.setAlphaScale, currentAlpha),
Func(bean.setScale, currentScale),
)
poofAnim.start()
def _showFlashMessage(self, message):
if self.isDisabled():
assert self.notify.debug(
"_showFlasMessage disabled, not showing %s" % message)
return
if (self.flashTextInterval
is not None) and self.flashTextInterval.isPlaying():
self.flashTextInterval.finish()
self.flashText.setText(message)
self.flashText.setAlphaScale(1.0)
self.flashText.unstash()
def _hideFlashMessage(self, duration=0.0):
if self.isDisabled():
assert self.notify.debug(
"_hideFlashMessage we're disabled, but still hiding self.flashText"
)
# return
self.flashTextInterval = Sequence(
Wait(duration),
LerpFunc(self.flashText.setAlphaScale,
fromData=1.0,
toData=0.0,
duration=1.0),
Func(self.flashText.stash),
)
self.flashTextInterval.start()
def flashMessage(self, message, duration=0.5):
self._showFlashMessage(message)
self._hideFlashMessage(duration)
