def pieThrow(self, avId, timestamp, heading, pos, power):
toon = self.activity.getAvatar(avId)
if toon is None:
return
tossTrack, pieTrack, flyPie = self.getTossPieInterval(toon, pos[0], pos[1], pos[2], heading, 0, 0, power)
if avId == base.localAvatar.doId:
flyPie.setTag('throwerId', str(avId))
collSphere = CollisionSphere(0, 0, 0, 0.5)
collSphere.setTangible(0)
name = 'PieSphere-%d' % avId
collSphereName = self.activity.uniqueName(name)
collNode = CollisionNode(collSphereName)
collNode.setFromCollideMask(ToontownGlobals.PieBitmask)
collNode.addSolid(collSphere)
collNP = flyPie.attachNewNode(collNode)
base.cTrav.addCollider(collNP, self.pieHandler)
self.toonPieEventNames[collNP] = 'pieHit-' + collSphereName
self.accept(self.toonPieEventNames[collNP], self.handlePieCollision)
else:
player = self.players.get(avId)
if player is not None:
player.faceForward()
def matchRunningAnim(toon = toon):
toon.playingAnim = None
toon.setSpeed(toon.forwardSpeed, toon.rotateSpeed)
newTossTrack = Sequence(tossTrack, Func(matchRunningAnim))
pieTrack = Parallel(newTossTrack, pieTrack, name='PartyCogActivity.pieTrack-%d-%s' % (avId, timestamp))
elapsedTime = globalClockDelta.localElapsedTime(timestamp)
if elapsedTime < 16.0 / 24.0:
elapsedTime = 16.0 / 24.0
pieTrack.start(elapsedTime)
self.pieIvals.append(pieTrack)
self.toonPieTracks[avId] = pieTrack
def animateArrival(self):
"""
Cheesy animation introducing viewer to the DESK and TYPEWRITER
:return:
"""
camMoveInterval = LerpPosInterval(self.base.camera, 2, self.cameraTarget)
camHprInterval = LerpHprInterval(self.base.camera, 2, self.cameraHprTarget)
dropKeyboardInterval = LerpPosInterval(self.typewriterNP, 2,
self.typewriterTarget,
startPos=self.typewriterStart,
blendType='easeOut')
sequence = Parallel(camMoveInterval, camHprInterval, dropKeyboardInterval)
sequence.setDoneEvent('arrivalFinished')
def arrivalFinished():
self.activateTypewriter()
self.base.ignore('enter')
self.base.ignore('esc')
self.base.accept('arrivalFinished', arrivalFinished)
sequence.start()
# for the impatient...
def cancelStartupSequence():
sequence.finish()
self.base.acceptOnce('enter', cancelStartupSequence)
self.base.acceptOnce('esc', cancelStartupSequence)
def pieThrow(self, avId, timestamp, heading, pos, power):
"""Show local or remote toon throwing a pie."""
toon = self.activity.getAvatar(avId)
if toon is None:
return
tossTrack, pieTrack, flyPie = self.getTossPieInterval(
toon, pos[0], pos[1], pos[2], heading, 0, 0, power)
if avId == base.localAvatar.doId:
flyPie.setTag('throwerId', str(avId))
collSphere = CollisionSphere(0, 0, 0, 0.5)
# Make the sphere intangible
collSphere.setTangible(0)
name = "PieSphere-%d" % avId
collSphereName = self.activity.uniqueName(name)
collNode = CollisionNode(collSphereName)
collNode.setFromCollideMask(ToontownGlobals.PieBitmask)
collNode.addSolid(collSphere)
collNP = flyPie.attachNewNode(collNode)
base.cTrav.addCollider(collNP, self.pieHandler)
self.toonPieEventNames[collNP] = 'pieHit-' + collSphereName
self.accept(self.toonPieEventNames[collNP],
self.handlePieCollision)
else:
player = self.players.get(avId)
if player is not None:
player.faceForward()
def matchRunningAnim(toon=toon):
toon.playingAnim = None
toon.setSpeed(toon.forwardSpeed, toon.rotateSpeed)
newTossTrack = Sequence(tossTrack, Func(matchRunningAnim))
pieTrack = Parallel(newTossTrack,
pieTrack,
name="PartyCogActivity.pieTrack-%d-%s" %
(avId, timestamp))
elapsedTime = globalClockDelta.localElapsedTime(timestamp)
if elapsedTime < 16. / 24.:
elapsedTime = 16. / 24. # make the pie fly immediately
pieTrack.start(elapsedTime)
self.pieIvals.append(pieTrack)
self.toonPieTracks[avId] = pieTrack
def animateArrival(self):
"""
Cheesy animation introducing viewer to the DESK and TYPEWRITER
:return:
"""
camMoveInterval = LerpPosInterval(self.base.camera, 2,
self.cameraTarget)
camHprInterval = LerpHprInterval(self.base.camera, 2,
self.cameraHprTarget)
dropKeyboardInterval = LerpPosInterval(self.typewriterNP,
2,
self.typewriterTarget,
startPos=self.typewriterStart,
blendType='easeOut')
sequence = Parallel(camMoveInterval, camHprInterval,
dropKeyboardInterval)
sequence.setDoneEvent('arrivalFinished')
def arrivalFinished():
self.activateTypewriter()
self.base.ignore('enter')
self.base.ignore('esc')
self.base.accept('arrivalFinished', arrivalFinished)
sequence.start()
# for the impatient...
def cancelStartupSequence():
sequence.finish()
self.base.acceptOnce('enter', cancelStartupSequence)
self.base.acceptOnce('esc', cancelStartupSequence)
class DistributedPartyTugOfWarActivity(DistributedPartyTeamActivity):
notify = directNotify.newCategory("DistributedPartyTugOfWarActivity")
def __init__(self, cr):
"""
cr: instance of ClientRepository
"""
DistributedPartyTeamActivity.__init__(
self,
cr,
PartyGlobals.ActivityIds.PartyTugOfWar,
startDelay=PartyGlobals.TugOfWarStartDelay)
assert (self.notify.debug("__init__"))
# these are the indices of the active buttons
self.buttons = [0, 1]
# these variables are used for calculation how fast the player is pressing the keys
self.arrowKeys = None
self.keyTTL = []
self.idealRate = 0.0
self.keyRate = 0
self.allOutMode = False
self.rateMatchAward = 0.0 # bonus for consistently hitting the ideal rate
self.toonIdsToStartPositions = {} # initial positions of toons
self.toonIdsToIsPullingFlags = {} # whether or not a toon is pulling
self.toonIdsToRightHands = {} # used for setting up ropes
self.fallenToons = [] # toons in the water
self.fallenPositions = []
self.unusedFallenPositionsIndices = [0, 1, 2, 3]
self.toonIdsToAnimIntervals = {}
self.tugRopes = []
def generate(self):
DistributedPartyTeamActivity.generate(self)
assert (self.notify.debug("generate"))
self._hopOffFinishedSV = StateVar(True)
self._rewardFinishedSV = StateVar(True)
self._isWalkStateReadyFC = FunctionCall(self._testWalkStateReady,
self._hopOffFinishedSV,
self._rewardFinishedSV)
def delete(self):
self._isWalkStateReadyFC.destroy()
self._hopOffFinishedSV.destroy()
self._rewardFinishedSV.destroy()
DistributedPartyTeamActivity.delete(self)
def handleToonJoined(self, toonId):
DistributedPartyTeamActivity.handleToonJoined(self, toonId)
self.toonIdsToAnimIntervals[toonId] = None
if toonId == base.localAvatar.doId:
base.cr.playGame.getPlace().fsm.request("activity")
# set camera to a 3rd person view of play area
camera.wrtReparentTo(self.root)
self.cameraMoveIval = LerpPosHprInterval(
camera,
1.5,
PartyGlobals.TugOfWarCameraPos,
PartyGlobals.TugOfWarCameraInitialHpr,
other=self.root,
)
self.cameraMoveIval.start()
self.localToonPosIndex = self.getIndex(base.localAvatar.doId,
self.localToonTeam)
self.notify.debug("posIndex: %d" % self.localToonPosIndex)
toon = self.getAvatar(toonId)
targetPos = self.dockPositions[self.localToonTeam][
self.localToonPosIndex]
# prevent toons from clipping through the dock by warping them to dock height
if toon.getZ(self.root) < PartyGlobals.TugOfWarToonPositionZ:
toon.setZ(self.root, PartyGlobals.TugOfWarToonPositionZ)
targetH = fitDestAngle2Src(
toon.getH(self.root),
PartyGlobals.TugOfWarHeadings[self.localToonTeam])
travelVector = targetPos - toon.getPos(self.root)
duration = travelVector.length() / 5.0
if self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
self.toonIdsToAnimIntervals[toonId] = Sequence(
Func(toon.startPosHprBroadcast, 0.1),
Func(toon.b_setAnimState, "run"),
LerpPosHprInterval(toon,
duration,
targetPos,
VBase3(targetH, 0.0, 0.0),
other=self.root),
Func(toon.stopPosHprBroadcast),
Func(toon.b_setAnimState, "neutral"),
)
self.toonIdsToAnimIntervals[toonId].start()
def handleToonExited(self, toonId):
DistributedPartyTeamActivity.handleToonExited(self, toonId)
# clean up local toon stuff
if toonId == base.localAvatar.doId:
self.cameraMoveIval.pause()
# make toon jump off the dock if needed
if toonId not in self.fallenToons:
# finish any existing interval for that toon
if toonId in self.toonIdsToAnimIntervals and \
self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
toon = self.getAvatar(toonId)
# clamp targetHeading to minimize spin
targetH = fitDestAngle2Src(toon.getH(self.root), 180.0)
targetPos = self.hopOffPositions[self.getTeam(toonId)][
self.getIndex(toonId, self.getTeam(toonId))]
hopOffAnim = Sequence(
Func(toon.startPosHprBroadcast, 0.1),
toon.hprInterval(0.2,
VBase3(targetH, 0.0, 0.0),
other=self.root),
Func(toon.b_setAnimState, "jump", 1.0),
Wait(0.4),
PartyUtils.arcPosInterval(0.75, toon, targetPos, 5.0,
self.root),
Func(toon.stopPosHprBroadcast),
# make sure toon ends up on the ground on remote clients
Func(toon.sendCurrentPosition),
Func(self.hopOffFinished, toonId),
)
self.toonIdsToAnimIntervals[toonId] = hopOffAnim
self._hopOffFinishedSV.set(False)
self.toonIdsToAnimIntervals[toonId].start()
# local toons not on the dock are put back into the walk state
else:
self._hopOffFinishedSV.set(True)
del self.toonIdsToAnimIntervals[toonId]
def handleRewardDone(self):
# don't call down, it puts the toon in a bad state because it interferes with
# the 'hopOffAnim'
self._rewardFinishedSV.set(True)
def _testWalkStateReady(self, hoppedOff, rewardFinished):
assert (self.notify.debug("_testWalkStateReady %d %d" %
(hoppedOff, rewardFinished)))
if hoppedOff and rewardFinished:
DistributedPartyTeamActivity.handleRewardDone(self)
def hopOffFinished(self, toonId):
assert (self.notify.debug("hopOffFinished( toonId=%d )" % toonId))
if hasattr(self,"toonIdsToAnimIntervals") and \
toonId in self.toonIdsToAnimIntervals:
del self.toonIdsToAnimIntervals[toonId] # clean up anim dictionary
if toonId == base.localAvatar.doId:
if hasattr(self._hopOffFinishedSV, '_value'):
self._hopOffFinishedSV.set(True)
def handleToonShifted(self, toonId):
assert (self.notify.debug("handleToonShifted( toonId=%d )" % toonId))
if toonId == base.localAvatar.doId:
# update local toon's position on the dock if they got shifted
self.localToonPosIndex = self.getIndex(base.localAvatar.doId,
self.localToonTeam)
if self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
toon = self.getAvatar(toonId)
targetPos = self.dockPositions[self.localToonTeam][
self.localToonPosIndex]
self.toonIdsToAnimIntervals[toonId] = Sequence(
Wait(0.6), # give leaving toon time to jump off dock
Func(toon.startPosHprBroadcast, 0.1),
Func(toon.b_setAnimState, "run"),
toon.posInterval(0.5, targetPos, other=self.root),
Func(toon.stopPosHprBroadcast),
Func(toon.b_setAnimState, "neutral"),
)
self.toonIdsToAnimIntervals[toonId].start()
def handleToonDisabled(self, toonId):
"""
A toon dropped unexpectedly from the game. Handle it!
"""
assert (self.notify.debug("handleToonDisabled( toonId:%d )" % toonId))
if self.toonIdsToAnimIntervals.has_key(toonId):
if self.toonIdsToAnimIntervals[toonId]:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
else:
self.notify.debug("self.toonIdsToAnimIntervals[%d] is none" %
toonId)
def setToonsPlaying(self, leftTeamToonIds, rightTeamToonIds):
"""Overrides DistributedPartyActivity's setToonsPlaying"""
DistributedPartyTeamActivity.setToonsPlaying(self, leftTeamToonIds,
rightTeamToonIds)
# update table of right hands
self.toonIdsToRightHands.clear()
for toonId in self.getToonIdsAsList():
toon = self.getAvatar(toonId)
if toon:
self.toonIdsToRightHands[toonId] = toon.getRightHands()[0]
def load(self):
"""
Load the necessary assets
"""
DistributedPartyTeamActivity.load(self)
assert (self.notify.debug("load"))
self.loadModels()
self.loadGuiElements()
self.loadSounds()
self.loadIntervals()
self.arrowKeys = ArrowKeys()
def loadModels(self):
# load the tug of war play area
self.playArea = loader.loadModel(
"phase_13/models/parties/partyTugOfWar")
# reparent to the party ground root
self.playArea.reparentTo(self.root)
# place the activity sign
self.sign.reparentTo(self.playArea.find("**/TugOfWar_sign_locator"))
# define initial positions, with index 0 being closest to the other team
self.dockPositions = [
[], # left team positions
[], # right team positions
]
for i in range(4):
self.dockPositions[0].append(
Point3(
-PartyGlobals.TugOfWarInitialToonPositionsXOffset -
PartyGlobals.TugOfWarToonPositionXSeparation * i,
0.0,
PartyGlobals.TugOfWarToonPositionZ,
))
for i in range(4):
self.dockPositions[1].append(
Point3(
PartyGlobals.TugOfWarInitialToonPositionsXOffset +
PartyGlobals.TugOfWarToonPositionXSeparation * i,
0.0,
PartyGlobals.TugOfWarToonPositionZ,
))
self.hopOffPositions = [
[], # left team positions
[], # right team positions
]
for i in range(1, 5):
self.hopOffPositions[
PartyGlobals.TeamActivityTeams.LeftTeam].append(
self.playArea.find("**/leftTeamHopOff%d_locator" %
i).getPos())
self.hopOffPositions[
PartyGlobals.TeamActivityTeams.RightTeam].append(
self.playArea.find("**/rightTeamHopOff%d_locator" %
i).getPos())
# load positions for when toons fall into the water
for i in range(1, 5):
pos = self.playArea.find("**/fallenToon%d_locator" % i).getPos()
self.fallenPositions.append(pos)
# load collision that allows toons to play the game
# create one for each dock that lets toons join a particular team
self.joinCollision = []
self.joinCollisionNodePaths = []
for i in range(len(PartyGlobals.TeamActivityTeams)):
collShape = CollisionTube(
PartyGlobals.TugOfWarJoinCollisionEndPoints[0],
PartyGlobals.TugOfWarJoinCollisionEndPoints[1],
PartyGlobals.TugOfWarJoinCollisionRadius)
collShape.setTangible(True)
self.joinCollision.append(
CollisionNode("TugOfWarJoinCollision%d" % i))
self.joinCollision[i].addSolid(collShape)
tubeNp = self.playArea.attachNewNode(self.joinCollision[i])
tubeNp.node().setCollideMask(ToontownGlobals.WallBitmask)
self.joinCollisionNodePaths.append(tubeNp)
self.joinCollisionNodePaths[i].setPos(
PartyGlobals.TugOfWarJoinCollisionPositions[i])
self.__enableCollisions()
# Get the rope texture by extracting it from its model.
ropeModel = loader.loadModel(
"phase_4/models/minigames/tug_of_war_rope")
self.ropeTexture = ropeModel.findTexture("*")
ropeModel.removeNode()
# create as many ropes as we will ever need
for i in range(PartyGlobals.TugOfWarMaximumPlayersPerTeam * 2 - 1):
rope = Rope(self.uniqueName("TugRope%d" % i))
if rope.showRope:
rope.ropeNode.setRenderMode(RopeNode.RMBillboard)
rope.ropeNode.setThickness(0.2)
rope.setTexture(self.ropeTexture)
rope.ropeNode.setUvMode(RopeNode.UVDistance)
rope.ropeNode.setUvDirection(1)
rope.setTransparency(1)
rope.setColor(0.89, 0.89, 0.6, 1.0)
rope.reparentTo(self.root)
rope.stash()
self.tugRopes.append(rope)
# Splash object for when toon hits the water
self.splash = Splash.Splash(self.root)
self.splash.setScale(2.0, 4.0, 1.0)
pos = self.fallenPositions[0]
self.splash.setPos(pos[0], pos[1], PartyGlobals.TugOfWarSplashZOffset)
self.splash.hide()
def loadGuiElements(self):
# load gui power meter
self.powerMeter = MinigamePowerMeter(
PartyGlobals.TugOfWarPowerMeterSize)
self.powerMeter.reparentTo(aspect2d)
self.powerMeter.setPos(0.0, 0.0, 0.6)
self.powerMeter.hide()
# Load the arrows for button indicator
self.arrows = [None] * 2
for x in range(len(self.arrows)):
self.arrows[x] = loader.loadModel('phase_3/models/props/arrow')
self.arrows[x].reparentTo(self.powerMeter)
self.arrows[x].setScale(.2 - .4 * x, .2, .2)
self.arrows[x].setPos(.12 - .24 * x, 0, -.26)
def loadSounds(self):
self.splashSound = base.loadSfx(
"phase_4/audio/sfx/MG_cannon_splash.mp3")
self.whistleSound = base.loadSfx(
"phase_4/audio/sfx/AA_sound_whistle.mp3")
def loadIntervals(self):
# create an interval that updates the ideal key press rate for each stage
self.updateIdealRateInterval = Sequence()
# other code handles setting the initial ideal rate, so only add the
# wait for the first state
self.updateIdealRateInterval.append(
Wait(PartyGlobals.TugOfWarTargetRateList[0][0]), )
# for each stage after the first
for i in range(1, len(PartyGlobals.TugOfWarTargetRateList)):
duration = PartyGlobals.TugOfWarTargetRateList[i][0]
idealRate = PartyGlobals.TugOfWarTargetRateList[i][1]
# set ideal speed
self.updateIdealRateInterval.append(
Func(self.setIdealRate, idealRate))
# add delay for stage's length or set last stage flag
if i == (len(PartyGlobals.TugOfWarTargetRateList) - 1):
self.updateIdealRateInterval.append(
Func(setattr, self, "allOutMode", True))
else:
self.updateIdealRateInterval.append(Wait(duration), )
# create an interval that updates the local player's key press rate
self.updateKeyPressRateInterval = Sequence(
Wait(PartyGlobals.TugOfWarKeyPressUpdateRate),
Func(self.updateKeyPressRate),
)
# create an interval that updates the local player's force and tells the
# server
self.reportToServerInterval = Sequence(
Wait(PartyGlobals.TugOfWarKeyPressReportRate),
Func(self.reportToServer),
)
self.setupInterval = Parallel()
# run this even if the local toon is not playing
self.globalSetupInterval = Sequence(
Wait(PartyGlobals.TugOfWarReadyDuration +
PartyGlobals.TugOfWarGoDuration),
Func(self.tightenRopes),
)
# only run this when a local toon is playing
self.localSetupInterval = Sequence(
Func(self.setStatus, TTLocalizer.PartyTugOfWarReady),
Func(self.showStatus),
Wait(PartyGlobals.TugOfWarReadyDuration),
Func(base.playSfx, self.whistleSound),
Func(self.setStatus, TTLocalizer.PartyTugOfWarGo),
Wait(PartyGlobals.TugOfWarGoDuration),
Func(self.enableKeys),
Func(self.hideStatus),
Func(self.updateIdealRateInterval.start),
Func(self.updateKeyPressRateInterval.loop),
Func(self.reportToServerInterval.loop),
)
# interval for playing the splash sound and showing the splash visual effect
self.splashInterval = Sequence(
Func(base.playSfx, self.splashSound),
Func(self.splash.play),
)
def unload(self):
DistributedPartyTeamActivity.unload(self)
self.arrowKeys.destroy()
self.unloadIntervals()
self.unloadModels()
self.unloadGuiElements()
self.unloadSounds()
# delete variables
if hasattr(self, "toonIds"):
del self.toonIds
del self.buttons
del self.arrowKeys
del self.keyTTL
del self.idealRate
del self.keyRate
del self.allOutMode
del self.rateMatchAward
del self.toonIdsToStartPositions
del self.toonIdsToIsPullingFlags
del self.toonIdsToRightHands
del self.fallenToons
del self.fallenPositions
del self.unusedFallenPositionsIndices
self.toonIdsToAnimIntervals.clear()
del self.toonIdsToAnimIntervals
def unloadModels(self):
self.playArea.removeNode()
del self.playArea
del self.dockPositions
del self.hopOffPositions
self.__disableCollisions()
while len(self.joinCollision) > 0:
collNode = self.joinCollision.pop()
del collNode
while len(self.joinCollisionNodePaths) > 0:
collNodePath = self.joinCollisionNodePaths.pop()
collNodePath.removeNode()
del collNodePath
while len(self.tugRopes) > 0:
rope = self.tugRopes.pop()
if rope is not None:
rope.removeNode()
del rope
del self.tugRopes
self.splash.destroy()
del self.splash
def unloadGuiElements(self):
for arrow in self.arrows:
if arrow is not None:
arrow.removeNode()
del arrow
del self.arrows
if self.powerMeter is not None:
self.powerMeter.cleanup()
del self.powerMeter
def unloadSounds(self):
del self.splashSound
del self.whistleSound
def unloadIntervals(self):
self.updateIdealRateInterval.pause()
del self.updateIdealRateInterval
self.updateKeyPressRateInterval.pause()
del self.updateKeyPressRateInterval
self.reportToServerInterval.pause()
del self.reportToServerInterval
self.setupInterval.pause()
del self.setupInterval
self.globalSetupInterval.pause()
del self.globalSetupInterval
self.localSetupInterval.pause()
del self.localSetupInterval
self.splashInterval.pause()
del self.splashInterval
def __enableCollisions(self):
assert (self.notify.debug("__enableCollisions"))
for i in range(len(PartyGlobals.TeamActivityTeams)):
self.accept(
"enterTugOfWarJoinCollision%d" % i,
getattr(
self,
"_join%s" % PartyGlobals.TeamActivityTeams.getString(i)))
def __disableCollisions(self):
assert (self.notify.debug("__disableCollisions"))
for i in range(len(PartyGlobals.TeamActivityTeams)):
self.ignore("enterTugOfWarJoinCollision%d" % i)
# FSM transition methods
def startWaitForEnough(self):
DistributedPartyTeamActivity.startWaitForEnough(self)
self.__enableCollisions()
def finishWaitForEnough(self):
DistributedPartyTeamActivity.finishWaitForEnough(self)
self.__disableCollisions()
def startWaitToStart(self, waitStartTimestamp):
DistributedPartyTeamActivity.startWaitToStart(self, waitStartTimestamp)
self.__enableCollisions()
def finishWaitToStart(self):
DistributedPartyTeamActivity.finishWaitToStart(self)
self.__disableCollisions()
def startRules(self):
DistributedPartyTeamActivity.startRules(self)
self.setUpRopes()
# display rules to the local toon if we have one
if self.isLocalToonPlaying:
self.showControls()
def finishRules(self):
DistributedPartyTeamActivity.finishRules(self)
# check for a non-standard transition and do additional cleanup as needed
if self.activityFSM.getCurrentOrNextState() == "WaitForEnough":
self.hideRopes()
self.hideControls()
def finishWaitForServer(self):
DistributedPartyTeamActivity.finishWaitForServer(self)
# check for a non-standard transition and do additional cleanup as needed
if self.activityFSM.getCurrentOrNextState() == "WaitForEnough":
self.hideRopes()
self.hideControls()
def startActive(self):
DistributedPartyTeamActivity.startActive(self)
# reset active variables
self.toonIdsToStartPositions.clear()
self.toonIdsToIsPullingFlags.clear()
for toonId in self.getToonIdsAsList():
self.toonIdsToIsPullingFlags[toonId] = False
toon = self.getAvatar(toonId)
if toon:
self.toonIdsToStartPositions[toonId] = toon.getPos(self.root)
else:
# what the heck do we do at this point? lets try 0,0,0
self.notify.warning(
"couldn't find toon %d assigning 0,0,0 to startPos" %
toonId)
self.toonIdsToStartPositions[toonId] = Point3(0, 0, 0)
self.unusedFallenPositionsIndices = [0, 1, 2, 3]
self.setupInterval = Parallel(self.globalSetupInterval)
if self.isLocalToonPlaying:
self.keyTTL = []
self.idealForce = 0.0
self.keyRate = 0
self.rateMatchAward = 0.0
self.allOutMode = False
self.setIdealRate(PartyGlobals.TugOfWarTargetRateList[0][1])
self.setupInterval.append(self.localSetupInterval)
self.setupInterval.start()
def finishActive(self):
DistributedPartyTeamActivity.finishActive(self)
self.hideControls()
self.disableKeys()
self.setupInterval.pause()
self.reportToServerInterval.pause()
self.updateKeyPressRateInterval.pause()
self.updateIdealRateInterval.pause()
self.hideRopes()
def startConclusion(self, losingTeam):
DistributedPartyTeamActivity.startConclusion(self, losingTeam)
if self.isLocalToonPlaying:
self._rewardFinishedSV.set(False)
if losingTeam == PartyGlobals.TeamActivityNeitherTeam:
self.setStatus(TTLocalizer.PartyTeamActivityGameTie)
else:
self.setStatus(TTLocalizer.PartyTugOfWarGameEnd)
self.showStatus()
if losingTeam == PartyGlobals.TeamActivityNeitherTeam:
# tie
for toonId in self.getToonIdsAsList():
if self.getAvatar(toonId):
self.getAvatar(toonId).loop("neutral")
else:
# winning and losing team
for toonId in self.toonIds[losingTeam]:
if self.getAvatar(toonId):
self.getAvatar(toonId).loop("neutral")
for toonId in self.toonIds[1 - losingTeam]:
if self.getAvatar(toonId):
self.getAvatar(toonId).loop("victory")
for ival in self.toonIdsToAnimIntervals.values():
if ival is not None:
ival.finish()
def finishConclusion(self):
DistributedPartyTeamActivity.finishConclusion(self)
self.fallenToons = []
def getTitle(self):
return TTLocalizer.PartyTugOfWarTitle
def getInstructions(self):
return TTLocalizer.TugOfWarInstructions
def showControls(self):
# show the power meter and arrows so player can see them while they
# read the rules
for arrow in self.arrows:
arrow.setColor(PartyGlobals.TugOfWarDisabledArrowColor)
# set meter to first stage values
self.powerMeter.setTarget(PartyGlobals.TugOfWarTargetRateList[0][1])
self.powerMeter.setPower(PartyGlobals.TugOfWarTargetRateList[0][1])
self.powerMeter.setBarColor((0.0, 1.0, 0.0, 0.5))
self.powerMeter.clearTooSlowTooFast()
self.powerMeter.show()
def hideControls(self):
self.powerMeter.hide()
def setUpRopes(self):
self.notify.debug("setUpRopes")
ropeIndex = 0
# setup rope linking the left team to the right team
leftToonId = -1
if self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam]:
leftToonId = self.toonIds[
PartyGlobals.TeamActivityTeams.LeftTeam][0]
rightToonId = -1
if self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam]:
rightToonId = self.toonIds[
PartyGlobals.TeamActivityTeams.RightTeam][0]
if leftToonId in self.toonIdsToRightHands and \
rightToonId in self.toonIdsToRightHands:
self.tugRopes[ropeIndex].setup(
3,
(
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.LeftTeam][0]],
(0, 0, 0)),
(self.root, (0.0, 0.0, 2.5)),
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.RightTeam][0]],
(0, 0, 0)),
),
[0, 0, 0, 1, 1, 1],
)
self.tugRopes[ropeIndex].unstash()
ropeIndex += 1
# setup ropes linking toons on the left team
if len(self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam]) > 1:
for i in range(
len(self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam])
- 1, 0, -1):
self.notify.debug(
"Connecting rope between toon %d and toon %d of left team."
% (i, i - 1))
self.tugRopes[ropeIndex].setup(
3,
(
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.LeftTeam][i]],
(0, 0, 0)),
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.LeftTeam][i]],
(0, 0, 0)),
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.LeftTeam][i - 1]],
(0, 0, 0)),
),
[0, 0, 0, 1, 1, 1],
)
self.tugRopes[ropeIndex].unstash()
ropeIndex += 1
# setup ropes linking toons on the right team
if len(self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam]) > 1:
for i in range(
len(self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam])
- 1):
self.notify.debug(
"Connecting rope between toon %d and toon %d of left team."
% (i, i + 1))
self.tugRopes[ropeIndex].setup(
3,
(
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.RightTeam][i]],
(0, 0, 0)),
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.RightTeam][i]],
(0, 0, 0)),
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.RightTeam][i + 1]],
(0, 0, 0)),
),
[0, 0, 0, 1, 1, 1],
)
self.tugRopes[ropeIndex].unstash()
ropeIndex += 1
def tightenRopes(self):
"""
The pulling part has started. Make the rope between the teams taut.
"""
self.notify.debug("tightenRopes")
self.tugRopes[0].setup(
3,
(
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.LeftTeam][0]], (0, 0, 0)),
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.LeftTeam][0]], (0, 0, 0)),
(self.toonIdsToRightHands[self.toonIds[
PartyGlobals.TeamActivityTeams.RightTeam][0]], (0, 0, 0)),
),
[0, 0, 0, 1, 1, 1],
)
def hideRopes(self):
self.notify.debug("hideRopes")
for rope in self.tugRopes:
rope.stash()
def handleGameTimerExpired(self):
assert (self.notify.debug("game timer expired"))
self.disableKeys() # do not allow any more input
def setIdealRate(self, idealRate):
self.notify.debug("setIdealRate( %d )" % idealRate)
self.idealRate = idealRate
self.idealForce = self.advantage * (4 + 0.4 * self.idealRate)
def updateKeyPressRate(self):
# decrement times to live for each key press entry in keyTTL
for i in range(len(self.keyTTL)):
self.keyTTL[i] -= PartyGlobals.TugOfWarKeyPressUpdateRate
# remove all key presses that have run out of time to live
# I think this only removes at most 1 item from the list, which is not
# what we want, but worked for Trolley tug of war so I'm afraid to "fix" it
for i in range(len(self.keyTTL)):
if self.keyTTL[i] <= 0.0:
a = self.keyTTL[0:i]
del self.keyTTL
self.keyTTL = a
break
self.keyRate = len(self.keyTTL)
# if the user has matched the idealRate several times in a row, add
# a little bit to their power
if self.keyRate == self.idealRate or self.keyRate == self.idealRate + 1:
self.rateMatchAward += 0.3
else:
self.rateMatchAward = 0.0
def reportToServer(self):
self.currentForce = self.computeForce(self.keyRate)
self.sendUpdate("reportKeyRateForce",
[self.keyRate, self.currentForce])
self.setSpeedGauge()
self.setAnimState(base.localAvatar.doId, self.keyRate)
def computeForce(self, keyRate):
# return a force in the range 0-self.idealRate
F = 0
# if this is the last stage, make force directly proportional to keyrate
if self.allOutMode:
F = 0.75 * keyRate
# otherwise, make force proportional to how close you are to ideal key rate
else:
stdDev = 0.25 * self.idealRate
F = self.advantage * (
self.rateMatchAward + 4 + 0.4 * self.idealRate) * math.pow(
math.e, -math.pow(keyRate - self.idealRate, 2) /
(2.0 * math.pow(stdDev, 2)))
return F
def setSpeedGauge(self):
# update the power meter to show the toon's speed and the target speed
self.powerMeter.setPower(self.keyRate)
self.powerMeter.setTarget(self.idealRate)
# change the color of the power meter to indicate how well the toon is doing
# the color should be dark if you are doing badly, and green if you are doing well
if not self.allOutMode:
# tell the toon if he is pulling too fast or too slow
self.powerMeter.updateTooSlowTooFast()
index = float(self.currentForce) / self.idealForce
bonus = 0.0
if index > 1.0:
bonus = max(1.0, index - 1.0)
index = 1.0
color = (0, 0.75 * index + 0.25 * bonus, 0.75 * (1 - index), 0.5)
self.powerMeter.setBarColor(color)
else:
self.powerMeter.setBarColor((0.0, 1.0, 0.0, 0.5))
def updateToonKeyRate(self, toonId, keyRate):
# since we set the local toon's pulling animation locally, don't do it
# here
if toonId != base.localAvatar.doId:
self.setAnimState(toonId, keyRate)
def setAnimState(self, toonId, keyRate):
if self.activityFSM.state != "Active":
return
toon = self.getAvatar(toonId)
if not self.toonIdsToIsPullingFlags.has_key(toonId):
if self.getTeam(toonId) == None:
self.notify.warning(
"setAnimState called with toonId (%d) that wasn't in self.toonIds"
% toonId)
return
else:
self.notify.warning(
"setAnimState called with toonId (%d) that was in self.toonIds but not in self.toonIdsToIsPullingFlags. Adding it."
% toonId)
self.toonIdsToIsPullingFlags[toonId] = False
if keyRate > 0 and not self.toonIdsToIsPullingFlags[toonId]:
if toon:
toon.loop('tug-o-war')
else:
self.notify.warning(
"toon %d is None, skipping toon.loop(tugowar)" % toonId)
self.toonIdsToIsPullingFlags[toonId] = True
if keyRate <= 0 and self.toonIdsToIsPullingFlags[toonId]:
if toon:
toon.pose('tug-o-war', 3)
toon.startLookAround()
else:
self.notify.warning(
"toon %d is None, skipping toon.startLookAround" % toonId)
self.toonIdsToIsPullingFlags[toonId] = False
def enableKeys(self):
self.notify.debug("enableKeys")
# Change the order of the press handlers because we are only using 2 keys
self.arrowKeys.setPressHandlers([
lambda: self.__pressHandler(2),
lambda: self.__pressHandler(3),
lambda: self.__pressHandler(1),
lambda: self.__pressHandler(0),
])
self.arrowKeys.setReleaseHandlers([
lambda: self.__releaseHandler(2),
lambda: self.__releaseHandler(3),
lambda: self.__releaseHandler(1),
lambda: self.__releaseHandler(0),
])
for arrow in self.arrows:
arrow.setColor(PartyGlobals.TugOfWarEnabledArrowColor)
def disableKeys(self):
self.arrowKeys.setPressHandlers(self.arrowKeys.NULL_HANDLERS)
self.arrowKeys.setReleaseHandlers(self.arrowKeys.NULL_HANDLERS)
# callbacks for when the buttons are pressed and released
def __pressHandler(self, index):
if index == self.buttons[0]:
self.arrows[index].setColor(
PartyGlobals.TugOfWarHilightedArrowColor)
self.keyTTL.insert(0, PartyGlobals.TugOfWarKeyPressTimeToLive)
self.buttons.reverse()
def __releaseHandler(self, index):
if index in self.buttons:
self.arrows[index].setColor(PartyGlobals.TugOfWarEnabledArrowColor)
def updateToonPositions(self, offset):
# Since the timer expires locally, we may still get a few
# messages from the AI that were on the wire when we left
# the play state, just ignore it
if self.activityFSM.state != "Active":
return
# adjust the camera angle
if self.isLocalToonPlaying:
camera.lookAt(self.root, offset, 0.0,
PartyGlobals.TugOfWarCameraLookAtHeightOffset)
# this client sets the position of all toons playing
for toonId in self.getToonIdsAsList():
if hasattr(self,"fallenToons") and \
toonId not in self.fallenToons:
toon = self.getAvatar(toonId)
if toon is not None:
origPos = self.toonIdsToStartPositions[toonId]
curPos = toon.getPos(self.root)
newPos = Point3(origPos[0] + offset, curPos[1], curPos[2])
# finish any existing animation interval
if self.toonIdsToAnimIntervals[toonId] != None:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
self.checkIfFallen(toonId)
if toonId not in self.fallenToons:
self.toonIdsToAnimIntervals[toonId] = Sequence(
LerpPosInterval(
toon,
duration=PartyGlobals.
TugOfWarKeyPressReportRate,
pos=newPos,
other=self.root,
), Func(self.checkIfFallen, toonId))
self.toonIdsToAnimIntervals[toonId].start()
def checkIfFallen(self, toonId):
# check if toon has fallen
if hasattr(self,"fallenToons") and \
toonId not in self.fallenToons:
toon = self.getAvatar(toonId)
if toon:
curPos = toon.getPos(self.root)
team = self.getTeam(toonId)
if ((team == PartyGlobals.TeamActivityTeams.LeftTeam
and curPos[0] > -2.0)
or (team == PartyGlobals.TeamActivityTeams.RightTeam
and curPos[0] < 2.0)):
# throw all toons from this side in the water
losingTeam = self.getTeam(toonId)
self.throwTeamInWater(losingTeam)
# tell AI that a team fell in the water
self.sendUpdate("reportFallIn", [losingTeam])
def throwTeamInWater(self, losingTeam):
self.notify.debug("throwTeamInWater( %s )" %
PartyGlobals.TeamActivityTeams.getString(losingTeam))
splashSet = False
for toonId in self.toonIds[losingTeam]:
# throw toon in water
self.fallenToons.append(toonId)
toon = self.getAvatar(toonId)
# getting a a crash of popping from empty list
#fallenPosIndex = self.unusedFallenPositionsIndices.pop(0)
fallenPosIndex = self.toonIds[losingTeam].index(toonId)
if (fallenPosIndex < 0) or (fallenPosIndex >= 4):
fallenPosIndex = 0
newPos = self.fallenPositions[fallenPosIndex]
# animate the toons falling into the water
if self.toonIdsToAnimIntervals[toonId] is not None:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
# Fall into water
if toon:
parallel = Parallel(
ActorInterval(actor=toon,
animName='slip-forward',
duration=2.0),
LerpPosInterval(toon,
duration=2.0,
pos=newPos,
other=self.root),
)
else:
self.notify.warning("toon %d is none, skipping slip-forward" %
toonId)
parallel = Parallel()
# only setup splash for the first toon
if not splashSet:
splashSet = True
parallel.append(self.splashInterval)
if toon:
self.toonIdsToAnimIntervals[toonId] = Sequence(
parallel,
Func(toon.loop, 'neutral'),
)
else:
self.notify.warning(
"toon %d is none, skipping toon.loop(neutral)" % toonId)
self.toonIdsToAnimIntervals[toonId] = parallel
self.toonIdsToAnimIntervals[toonId].start()
def setAdvantage(self, advantage):
DistributedPartyTeamActivity.setAdvantage(self, advantage)
if self.isLocalToonPlaying:
self.setIdealRate(PartyGlobals.TugOfWarTargetRateList[0][1])
class World(DirectObject):
def __init__(self):
#Our standard title and instructions text
self.title = OnscreenText(text="Panda3D: Tutorial - Musicbox(sounds)",
style=1,
fg=(1, 1, 1, 1),
pos=(0.7, -0.95),
scale=.07)
self.escapeEventText = OnscreenText(text="ESC: Quit",
style=1,
fg=(1, 1, 1, 1),
pos=(-1.3, 0.95),
align=TextNode.ALeft,
scale=.05)
#Set up the key input
self.accept('escape', sys.exit)
#Fix the camera position
base.disableMouse()
#Loading sounds is done in a similar way to loading other things
#Loading the main music box song
self.musicBoxSound = base.loadMusic('music/musicbox.ogg')
self.musicBoxSound.setVolume(.5) #Volume is a percentage from 0 to 1
self.musicBoxSound.setLoopCount(
0) #0 means loop forever, 1 (default) means
#play once. 2 or higher means play that
#many times
#Sound objects do not have a pause function, just play and stop. So we will
#Use this variable to keep track of where the sound is at when it was stoped
#to impliment pausing
self.musicTime = 0
#Loading the open/close effect
#loadSFX and loadMusic are identical. They are often used for organization
#(loadMusic is used for background music, loadSfx is used for other effects)
self.lidSfx = base.loadSfx('music/openclose.ogg')
#The open/close file has both effects in it. Fortunatly we can use intervals
#to easily define parts of a sound file to play
self.lidOpenSfx = SoundInterval(self.lidSfx, duration=2, startTime=0)
self.lidCloseSfx = SoundInterval(self.lidSfx, startTime=5)
#For this tutorial, it seemed appropriate to have on screen controls. The
#following code creates them
#This is a label for a slider
self.sliderText = OnscreenText("Volume",
style=1,
fg=(1, 1, 1, 1),
pos=(0, 0.8),
scale=.07)
#The slider itself. It calls self.setMusicBoxVolume when changed
self.slider = DirectSlider(pos=Vec3(0, 0, .7),
value=.50,
command=self.setMusicBoxVolume)
#A button that calls self.toggleMusicBox when pressed
self.button = DirectButton(pos=Vec3(.7, 0, .7),
text="Open Box",
scale=.1,
pad=(.5, .5),
rolloverSound=None,
clickSound=None,
command=self.toggleMusicBox)
#A variable to represent the state of the simulation. It starts closed
self.boxOpen = False
#Here we load and set up the music box. It was modeled in a complex way, so
#setting it up will be complicated
self.musicBox = loader.loadModel('models/MusicBox')
self.musicBox.setPos(0, 60, -10)
self.musicBox.reparentTo(render)
#Just like the scene graph contains hierarchies of nodes, so can
#models. You can get the NodePath for the node using the find
#function, and then you can animate the model by moving its parts
#To see the hierarchy of a model, use, the ls function
#self.musicBox.ls() prints out the entire hierarchy of the model
#Finding pieces of the model
self.Lid = self.musicBox.find('**/lid')
self.Panda = self.musicBox.find('**/turningthing')
#This model was made with the hinge in the wrong place
#this is here so we have something to turn
self.HingeNode = self.musicBox.find('**/box').attachNewNode(
'nHingeNode')
self.HingeNode.setPos(.8659, 6.5, 5.4)
#WRT - ie with respect to. Reparents the object without changing
#its position, size, or orientation
self.Lid.wrtReparentTo(self.HingeNode)
self.HingeNode.setHpr(0, 90, 0)
#This sets up an interval to play the close sound and actually close the box
#at the same time.
self.lidClose = Parallel(
self.lidCloseSfx,
LerpFunc(self.HingeNode.setP,
duration=2,
fromData=0,
toData=90,
blendType='easeInOut'))
#Same thing for opening the box
self.lidOpen = Parallel(
self.lidOpenSfx,
LerpFunc(self.HingeNode.setP,
duration=2,
fromData=90,
toData=0,
blendType='easeInOut'))
#The interval for turning the panda
self.PandaTurn = self.Panda.hprInterval(7, Vec3(360, 0, 0))
#Do a quick loop and pause to set it as a looping interval so it can be
#started with resume and loop properly
self.PandaTurn.loop()
self.PandaTurn.pause()
def setMusicBoxVolume(self):
#Simply reads the current value from the slider and sets it in the sound
newVol = self.slider.guiItem.getValue()
self.musicBoxSound.setVolume(newVol)
def toggleMusicBox(self):
if self.boxOpen:
#close the box
self.lidClose.start() #Start the close box interval
self.PandaTurn.pause() #Pause the figurine turning
#Save the current time of the music box song
self.musicTime = self.musicBoxSound.getTime()
self.musicBoxSound.stop() #Stop the music box song
self.button['text'] = "Open Box" #Prepare to change button label
else:
#open the box
self.lidOpen.start() #Start the open box interval
self.PandaTurn.resume() #Resume the figuring turning
#Reset the time of the music box song so it starts where it left off
self.musicBoxSound.setTime(self.musicTime)
self.musicBoxSound.play() #Play the music box song
self.button['text'] = "Close Box" #Prepare to change button label
self.button.setText() #Actually change the button label
self.boxOpen = not self.boxOpen #Set our state to opposite what it was
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 DistributedPartyDanceActivityBase(DistributedPartyActivity):
notify = directNotify.newCategory('DistributedPartyDanceActivity')
def __init__(self,
cr,
actId,
dancePatternToAnims,
model='phase_13/models/parties/danceFloor'):
DistributedPartyActivity.__init__(self, cr, actId,
ActivityTypes.Continuous)
self.model = model
self.danceFloor = None
self.localToonDancing = False
self.keyCodes = None
self.gui = None
self.currentCameraMode = None
self.orthoWalk = None
self.cameraParallel = None
self.localToonDanceSequence = None
self.localPatternsMatched = []
self.dancePatternToAnims = dancePatternToAnims
self.dancingToonFSMs = {}
return
def generateInit(self):
self.notify.debug('generateInit')
DistributedPartyActivity.generateInit(self)
self.keyCodes = KeyCodes(patterns=self.dancePatternToAnims.keys())
self.gui = KeyCodesGui(self.keyCodes)
self.__initOrthoWalk()
self.activityFSM = DanceActivityFSM(self)
def announceGenerate(self):
DistributedPartyActivity.announceGenerate(self)
self.activityFSM.request('Active')
def load(self):
DistributedPartyActivity.load(self)
self.danceFloor = loader.loadModel(self.model)
self.danceFloor.reparentTo(self.getParentNodePath())
self.danceFloor.setPos(self.x, self.y, 0.0)
self.danceFloor.setH(self.h)
self.danceFloor.wrtReparentTo(render)
self.sign.setPos(22, -22, 0)
floor = self.danceFloor.find('**/danceFloor_mesh')
self.danceFloorSequence = Sequence(Wait(0.3),
Func(floor.setH, floor, 36))
discoBall = self.danceFloor.find('**/discoBall_mesh')
self.discoBallSequence = Parallel(
discoBall.hprInterval(6.0, Vec3(360, 0, 0)),
Sequence(
discoBall.posInterval(3,
Point3(0, 0, 1),
blendType='easeInOut'),
discoBall.posInterval(3,
Point3(0, 0, 0),
blendType='easeInOut')))
def unload(self):
DistributedPartyActivity.unload(self)
self.activityFSM.request('Disabled')
if self.localToonDanceSequence is not None:
self.localToonDanceSequence.finish()
if self.localToonDancing:
self.__localStopDancing()
self.ignoreAll()
if self.discoBallSequence is not None:
self.discoBallSequence.finish()
if self.danceFloorSequence is not None:
self.danceFloorSequence.finish()
del self.danceFloorSequence
del self.discoBallSequence
del self.localToonDanceSequence
if self.danceFloor is not None:
self.danceFloor.removeNode()
self.danceFloor = None
self.__destroyOrthoWalk()
for toonId in self.dancingToonFSMs.keys():
self.dancingToonFSMs[toonId].destroy()
del self.dancingToonFSMs[toonId]
del self.dancingToonFSMs
del self.cameraParallel
del self.currentCameraMode
if self.keyCodes is not None:
self.keyCodes.destroy()
del self.keyCodes
del self.activityFSM
del self.gui
del self.localPatternsMatched
return
def handleToonDisabled(self, toonId):
self.notify.debug('handleToonDisabled avatar ' + str(toonId) +
' disabled')
if toonId in self.dancingToonFSMs:
self.dancingToonFSMs[toonId].request('cleanup')
self.dancingToonFSMs[toonId].destroy()
del self.dancingToonFSMs[toonId]
def getTitle(self):
self.notify.warning('define title for this dance activity')
return TTLocalizer.PartyDanceActivityTitle
def getInstructions(self):
self.notify.warning('define instructions for this dance activity')
return TTLocalizer.PartyDanceActivityInstructions
def startActive(self):
self.accept('enter' + DANCE_FLOOR_COLLISION,
self.__handleEnterDanceFloor)
self.accept('exit' + DANCE_FLOOR_COLLISION,
self.__handleExitDanceFloor)
self.danceFloorSequence.loop()
self.discoBallSequence.loop()
def finishActive(self):
pass
def startDisabled(self):
self.ignore('enter' + DANCE_FLOOR_COLLISION)
self.ignore('exit' + DANCE_FLOOR_COLLISION)
self.discoBallSequence.pause()
self.danceFloorSequence.pause()
def finishDisabled(self):
pass
def __initOrthoWalk(self):
self.notify.debug('Initialize Ortho Walk')
orthoDrive = OrthoDrive(9.778)
self.orthoWalk = OrthoWalk(orthoDrive, broadcast=True)
def __destroyOrthoWalk(self):
self.notify.debug('Destroy Ortho Walk')
self.orthoWalk.stop()
self.orthoWalk.destroy()
del self.orthoWalk
def __disableLocalControl(self):
self.orthoWalk.stop()
self.keyCodes.disable()
self.keyCodesGui.disable()
def __enableLocalControl(self):
self.orthWalk.start()
self.keyCodes.enable()
self.keyCodesGui.enable()
self.keyCodesGui.hideAll()
def __handleEnterDanceFloor(self, collEntry):
if not self.isLocalToonInActivity() and not self.localToonDancing:
self.notify.debug('Toon enters dance floor collision area.')
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
place.fsm.request('activity')
self.d_toonJoinRequest()
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
place.fsm.request('activity')
def joinRequestDenied(self, reason):
DistributedPartyActivity.joinRequestDenied(self, reason)
self.showMessage(TTLocalizer.PartyActivityDefaultJoinDeny)
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
place.fsm.request('walk')
def setToonsPlaying(self, toonIds, toonHeadings):
self.notify.debug('setToonsPlaying')
self.notify.debug('\ttoonIds: %s' % toonIds)
self.notify.debug('\ttoonHeadings: %s' % toonHeadings)
exitedToons, joinedToons = self.getToonsPlayingChanges(
self.toonIds, toonIds)
self.notify.debug('\texitedToons: %s' % exitedToons)
self.notify.debug('\tjoinedToons: %s' % joinedToons)
self.setToonIds(toonIds)
self._processExitedToons(exitedToons)
for toonId in joinedToons:
if toonId != base.localAvatar.doId or toonId == base.localAvatar.doId and self.isLocalToonRequestStatus(
PartyGlobals.ActivityRequestStatus.Joining):
self._enableHandleToonDisabled(toonId)
self.handleToonJoined(toonId,
toonHeadings[toonIds.index(toonId)])
if toonId == base.localAvatar.doId:
self._localToonRequestStatus = None
return
def handleToonJoined(self, toonId, h):
self.notify.debug('handleToonJoined( toonId=%d, h=%.2f )' %
(toonId, h))
if toonId in base.cr.doId2do:
toonFSM = PartyDanceActivityToonFSM(toonId, self, h)
toonFSM.request('Init')
self.dancingToonFSMs[toonId] = toonFSM
if toonId == base.localAvatar.doId:
self.__localStartDancing(h)
def __localStartDancing(self, h):
if not self.localToonDancing:
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
self.localToonDancing = True
place.fsm.request('activity')
self.__updateLocalToonState(ToonDancingStates.Run)
self.__setViewMode(DanceViews.Dancing)
self.gui.load()
self.startRules()
self.__localEnableControls()
else:
self.notify.warning(
'__localStartDancing, failed in playGame.getPlace()')
def handleRulesDone(self):
self.finishRules()
def __localEnableControls(self):
if base.localAvatar.doId not in self.dancingToonFSMs:
self.notify.debug(
'no dancing FSM for local avatar, not enabling controls')
return
self.accept(KeyCodes.PATTERN_MATCH_EVENT, self.__doDanceMove)
self.accept(KeyCodes.PATTERN_NO_MATCH_EVENT, self.__noDanceMoveMatch)
self.acceptOnce(KeyCodes.KEY_DOWN_EVENT, self._handleKeyDown)
self.accept(KeyCodes.KEY_UP_EVENT, self._handleKeyUp)
self.keyCodes.enable()
self.orthoWalk.start()
self.gui.enable()
self.gui.hideAll()
def __localDisableControls(self):
self.orthoWalk.stop()
self.keyCodes.disable()
self.gui.disable()
self.ignore(KeyCodes.PATTERN_MATCH_EVENT)
self.ignore(KeyCodes.PATTERN_NO_MATCH_EVENT)
self.ignore(KeyCodes.KEY_DOWN_EVENT)
self.ignore(KeyCodes.KEY_UP_EVENT)
def __handleExitDanceFloor(self, collEntry):
if self.localToonDanceSequence is not None:
self.notify.debug('finishing %s' % self.localToonDanceSequence)
self.localToonDanceSequence.finish()
self.localToonDanceSequence = None
self.finishRules()
self.notify.debug('Toon exits dance floor collision area.')
self.d_toonExitRequest()
return
def exitRequestDenied(self, reason):
DistributedPartyActivity.exitRequestDenied(self, reason)
if reason != PartyGlobals.DenialReasons.SilentFail:
self.showMessage(TTLocalizer.PartyActivityDefaultExitDeny)
def handleToonExited(self, toonId):
self.notify.debug('exitDanceFloor %s' % toonId)
if toonId == base.localAvatar.doId:
self.__localStopDancing()
def __localStopDancing(self):
if self.localToonDancing:
self.__localDisableControls()
self.gui.unload()
self.__setViewMode(DanceViews.Normal)
self.__updateLocalToonState(ToonDancingStates.Cleanup)
if base.cr.playGame.getPlace():
if hasattr(base.cr.playGame.getPlace(), 'fsm'):
base.cr.playGame.getPlace().fsm.request('walk')
self.localToonDancing = False
def __doDanceMove(self, pattern):
self.notify.debug('Dance move! %s' % pattern)
anim = self.dancePatternToAnims.get(pattern)
if anim:
self.__updateLocalToonState(ToonDancingStates.DanceMove, anim)
self.gui.setColor(0, 1, 0)
self.gui.showText(DanceAnimToName.get(anim, anim))
self.finishRules()
if pattern not in self.localPatternsMatched:
camNode = NodePath(self.uniqueName('danceCamNode'))
camNode.reparentTo(base.localAvatar)
camNode.lookAt(camera)
camNode.setHpr(camNode.getH(), 0, 0)
node2 = NodePath('tempCamNode')
node2.reparentTo(camNode)
node2.setPos(Point3(0, 15, 10))
node2.lookAt(camNode)
h = node2.getH() * (camera.getH(camNode) /
abs(camera.getH(camNode)))
node2.removeNode
del node2
hpr = camera.getHpr()
pos = camera.getPos()
camParent = camera.getParent()
camera.wrtReparentTo(camNode)
self.localToonDanceSequence = Sequence(
Func(self.__localDisableControls),
Parallel(
camera.posInterval(0.5,
Point3(0, 15, 10),
blendType='easeIn'),
camera.hprInterval(0.5,
Point3(h, -20, 0),
blendType='easeIn')),
camNode.hprInterval(4.0, Point3(camNode.getH() - 360, 0,
0)),
Func(camera.wrtReparentTo, camParent),
Func(camNode.removeNode),
Parallel(camera.posInterval(0.5, pos, blendType='easeOut'),
camera.hprInterval(0.5, hpr,
blendType='easeOut')),
Func(self.__localEnableControls))
else:
self.localToonDanceSequence = Sequence(
Func(self.__localDisableControls), Wait(2.0),
Func(self.__localEnableControls))
self.localToonDanceSequence.start()
self.localPatternsMatched.append(pattern)
def __noDanceMoveMatch(self):
self.gui.setColor(1, 0, 0)
self.gui.showText('No Match!')
self.__updateLocalToonState(ToonDancingStates.DanceMove)
self.localToonDanceSequence = Sequence(
Func(self.__localDisableControls), Wait(1.0),
Func(self.__localEnableControls))
self.localToonDanceSequence.start()
def _handleKeyDown(self, key, index):
self.__updateLocalToonState(ToonDancingStates.Run)
def _handleKeyUp(self, key):
if not self.keyCodes.isAnyKeyPressed():
self.__updateLocalToonState(ToonDancingStates.DanceMove)
self.acceptOnce(KeyCodes.KEY_DOWN_EVENT, self._handleKeyDown)
def __updateLocalToonState(self, state, anim=''):
self._requestToonState(base.localAvatar.doId, state, anim)
self.d_updateDancingToon(state, anim)
def d_updateDancingToon(self, state, anim):
self.sendUpdate('updateDancingToon', [state, anim])
def setDancingToonState(self, toonId, state, anim):
if toonId != base.localAvatar.doId and toonId in self.dancingToonFSMs:
self._requestToonState(toonId, state, anim)
def _requestToonState(self, toonId, state, anim):
if toonId in self.dancingToonFSMs:
state = ToonDancingStates.getString(state)
curState = self.dancingToonFSMs[toonId].getCurrentOrNextState()
try:
self.dancingToonFSMs[toonId].request(state, anim)
except FSM.RequestDenied:
self.notify.warning('could not go from state=%s to state %s' %
(curState, state))
if state == ToonDancingStates.getString(ToonDancingStates.Cleanup):
self.notify.debug('deleting this fsm %s' %
self.dancingToonFSMs[toonId])
del self.dancingToonFSMs[toonId]
if self.localToonDanceSequence:
self.notify.debug(
'forcing a finish of localToonDanceSequence')
self.localToonDanceSequence.finish()
self.localToonDanceSequence = None
return
def __setViewMode(self, mode):
toon = base.localAvatar
if mode == DanceViews.Normal:
if self.cameraParallel is not None:
self.cameraParallel.pause()
self.cameraParallel = None
camera.reparentTo(toon)
base.localAvatar.startUpdateSmartCamera()
elif mode == DanceViews.Dancing:
base.localAvatar.stopUpdateSmartCamera()
camera.wrtReparentTo(self.danceFloor)
node = NodePath('temp')
node.reparentTo(toon.getParent())
node.setPos(Point3(0, -40, 20))
node2 = NodePath('temp2')
node2.reparentTo(self.danceFloor)
node.reparentTo(node2)
node2.setH(render, toon.getParent().getH())
pos = node.getPos(self.danceFloor)
node2.removeNode()
node.removeNode()
self.cameraParallel = Parallel(
camera.posInterval(0.5, pos, blendType='easeIn'),
camera.hprInterval(0.5,
Point3(0, -27, 0),
other=toon.getParent(),
blendType='easeIn'))
self.cameraParallel.start()
self.currentCameraMode = mode
return
class DistributedPartyTugOfWarActivity(DistributedPartyTeamActivity):
notify = directNotify.newCategory('DistributedPartyTugOfWarActivity')
def __init__(self, cr):
DistributedPartyTeamActivity.__init__(self, cr, PartyGlobals.ActivityIds.PartyTugOfWar, startDelay=PartyGlobals.TugOfWarStartDelay)
self.buttons = [0, 1]
self.arrowKeys = None
self.keyTTL = []
self.idealRate = 0.0
self.keyRate = 0
self.allOutMode = False
self.rateMatchAward = 0.0
self.toonIdsToStartPositions = {}
self.toonIdsToIsPullingFlags = {}
self.toonIdsToRightHands = {}
self.fallenToons = []
self.fallenPositions = []
self.unusedFallenPositionsIndices = [0,
1,
2,
3]
self.toonIdsToAnimIntervals = {}
self.tugRopes = []
return
def generate(self):
DistributedPartyTeamActivity.generate(self)
self._hopOffFinishedSV = StateVar(True)
self._rewardFinishedSV = StateVar(True)
self._isWalkStateReadyFC = FunctionCall(self._testWalkStateReady, self._hopOffFinishedSV, self._rewardFinishedSV)
def delete(self):
self._isWalkStateReadyFC.destroy()
self._hopOffFinishedSV.destroy()
self._rewardFinishedSV.destroy()
DistributedPartyTeamActivity.delete(self)
def handleToonJoined(self, toonId):
DistributedPartyTeamActivity.handleToonJoined(self, toonId)
self.toonIdsToAnimIntervals[toonId] = None
if toonId == base.localAvatar.doId:
base.cr.playGame.getPlace().fsm.request('activity')
camera.wrtReparentTo(self.root)
self.cameraMoveIval = LerpPosHprInterval(camera, 1.5, PartyGlobals.TugOfWarCameraPos, PartyGlobals.TugOfWarCameraInitialHpr, other=self.root)
self.cameraMoveIval.start()
self.localToonPosIndex = self.getIndex(base.localAvatar.doId, self.localToonTeam)
self.notify.debug('posIndex: %d' % self.localToonPosIndex)
toon = self.getAvatar(toonId)
targetPos = self.dockPositions[self.localToonTeam][self.localToonPosIndex]
if toon.getZ(self.root) < PartyGlobals.TugOfWarToonPositionZ:
toon.setZ(self.root, PartyGlobals.TugOfWarToonPositionZ)
targetH = fitDestAngle2Src(toon.getH(self.root), PartyGlobals.TugOfWarHeadings[self.localToonTeam])
travelVector = targetPos - toon.getPos(self.root)
duration = travelVector.length() / 5.0
if self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
self.toonIdsToAnimIntervals[toonId] = Sequence(Func(toon.startPosHprBroadcast, 0.1), Func(toon.b_setAnimState, 'run'), LerpPosHprInterval(toon, duration, targetPos, VBase3(targetH, 0.0, 0.0), other=self.root), Func(toon.stopPosHprBroadcast), Func(toon.b_setAnimState, 'neutral'))
self.toonIdsToAnimIntervals[toonId].start()
return
def handleToonExited(self, toonId):
DistributedPartyTeamActivity.handleToonExited(self, toonId)
if toonId == base.localAvatar.doId:
self.cameraMoveIval.pause()
if toonId not in self.fallenToons:
if toonId in self.toonIdsToAnimIntervals and self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
toon = self.getAvatar(toonId)
targetH = fitDestAngle2Src(toon.getH(self.root), 180.0)
targetPos = self.hopOffPositions[self.getTeam(toonId)][self.getIndex(toonId, self.getTeam(toonId))]
hopOffAnim = Sequence(Func(toon.startPosHprBroadcast, 0.1), toon.hprInterval(0.2, VBase3(targetH, 0.0, 0.0), other=self.root), Func(toon.b_setAnimState, 'jump', 1.0), Wait(0.4), PartyUtils.arcPosInterval(0.75, toon, targetPos, 5.0, self.root), Func(toon.stopPosHprBroadcast), Func(toon.sendCurrentPosition), Func(self.hopOffFinished, toonId))
self.toonIdsToAnimIntervals[toonId] = hopOffAnim
self._hopOffFinishedSV.set(False)
self.toonIdsToAnimIntervals[toonId].start()
else:
self._hopOffFinishedSV.set(True)
del self.toonIdsToAnimIntervals[toonId]
return
def handleRewardDone(self):
self._rewardFinishedSV.set(True)
def _testWalkStateReady(self, hoppedOff, rewardFinished):
if hoppedOff and rewardFinished:
DistributedPartyTeamActivity.handleRewardDone(self)
def hopOffFinished(self, toonId):
if hasattr(self, 'toonIdsToAnimIntervals') and toonId in self.toonIdsToAnimIntervals:
del self.toonIdsToAnimIntervals[toonId]
if toonId == base.localAvatar.doId:
if hasattr(self._hopOffFinishedSV, '_value'):
self._hopOffFinishedSV.set(True)
def handleToonShifted(self, toonId):
if toonId == base.localAvatar.doId:
self.localToonPosIndex = self.getIndex(base.localAvatar.doId, self.localToonTeam)
if self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
toon = self.getAvatar(toonId)
targetPos = self.dockPositions[self.localToonTeam][self.localToonPosIndex]
self.toonIdsToAnimIntervals[toonId] = Sequence(Wait(0.6), Func(toon.startPosHprBroadcast, 0.1), Func(toon.b_setAnimState, 'run'), toon.posInterval(0.5, targetPos, other=self.root), Func(toon.stopPosHprBroadcast), Func(toon.b_setAnimState, 'neutral'))
self.toonIdsToAnimIntervals[toonId].start()
return
def handleToonDisabled(self, toonId):
if toonId in self.toonIdsToAnimIntervals:
if self.toonIdsToAnimIntervals[toonId]:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
else:
self.notify.debug('self.toonIdsToAnimIntervals[%d] is none' % toonId)
def setToonsPlaying(self, leftTeamToonIds, rightTeamToonIds):
DistributedPartyTeamActivity.setToonsPlaying(self, leftTeamToonIds, rightTeamToonIds)
self.toonIdsToRightHands.clear()
for toonId in self.getToonIdsAsList():
toon = self.getAvatar(toonId)
if toon:
self.toonIdsToRightHands[toonId] = toon.getRightHands()[0]
def load(self):
DistributedPartyTeamActivity.load(self)
self.loadModels()
self.loadGuiElements()
self.loadSounds()
self.loadIntervals()
self.arrowKeys = ArrowKeys()
def loadModels(self):
self.playArea = loader.loadModel('phase_13/models/parties/partyTugOfWar')
self.playArea.reparentTo(self.root)
self.sign.reparentTo(self.playArea.find('**/TugOfWar_sign_locator'))
self.dockPositions = [[], []]
for i in range(4):
self.dockPositions[0].append(Point3(-PartyGlobals.TugOfWarInitialToonPositionsXOffset - PartyGlobals.TugOfWarToonPositionXSeparation * i, 0.0, PartyGlobals.TugOfWarToonPositionZ))
for i in range(4):
self.dockPositions[1].append(Point3(PartyGlobals.TugOfWarInitialToonPositionsXOffset + PartyGlobals.TugOfWarToonPositionXSeparation * i, 0.0, PartyGlobals.TugOfWarToonPositionZ))
self.hopOffPositions = [[], []]
for i in range(1, 5):
self.hopOffPositions[PartyGlobals.TeamActivityTeams.LeftTeam].append(self.playArea.find('**/leftTeamHopOff%d_locator' % i).getPos())
self.hopOffPositions[PartyGlobals.TeamActivityTeams.RightTeam].append(self.playArea.find('**/rightTeamHopOff%d_locator' % i).getPos())
for i in range(1, 5):
pos = self.playArea.find('**/fallenToon%d_locator' % i).getPos()
self.fallenPositions.append(pos)
self.joinCollision = []
self.joinCollisionNodePaths = []
for i in range(len(PartyGlobals.TeamActivityTeams)):
collShape = CollisionTube(PartyGlobals.TugOfWarJoinCollisionEndPoints[0], PartyGlobals.TugOfWarJoinCollisionEndPoints[1], PartyGlobals.TugOfWarJoinCollisionRadius)
collShape.setTangible(True)
self.joinCollision.append(CollisionNode('TugOfWarJoinCollision%d' % i))
self.joinCollision[i].addSolid(collShape)
tubeNp = self.playArea.attachNewNode(self.joinCollision[i])
tubeNp.node().setCollideMask(ToontownGlobals.WallBitmask)
self.joinCollisionNodePaths.append(tubeNp)
self.joinCollisionNodePaths[i].setPos(PartyGlobals.TugOfWarJoinCollisionPositions[i])
self.__enableCollisions()
ropeModel = loader.loadModel('phase_4/models/minigames/tug_of_war_rope')
self.ropeTexture = ropeModel.findTexture('*')
ropeModel.removeNode()
for i in range(PartyGlobals.TugOfWarMaximumPlayersPerTeam * 2 - 1):
rope = Rope(self.uniqueName('TugRope%d' % i))
if rope.showRope:
rope.ropeNode.setRenderMode(RopeNode.RMBillboard)
rope.ropeNode.setThickness(0.2)
rope.setTexture(self.ropeTexture)
rope.ropeNode.setUvMode(RopeNode.UVDistance)
rope.ropeNode.setUvDirection(1)
rope.setTransparency(1)
rope.setColor(0.89, 0.89, 0.6, 1.0)
rope.reparentTo(self.root)
rope.stash()
self.tugRopes.append(rope)
self.splash = Splash.Splash(self.root)
self.splash.setScale(2.0, 4.0, 1.0)
pos = self.fallenPositions[0]
self.splash.setPos(pos[0], pos[1], PartyGlobals.TugOfWarSplashZOffset)
self.splash.hide()
def loadGuiElements(self):
self.powerMeter = MinigamePowerMeter(PartyGlobals.TugOfWarPowerMeterSize)
self.powerMeter.reparentTo(aspect2d)
self.powerMeter.setPos(0.0, 0.0, 0.6)
self.powerMeter.hide()
self.arrows = [None] * 2
for x in range(len(self.arrows)):
self.arrows[x] = loader.loadModel('phase_3/models/props/arrow')
self.arrows[x].reparentTo(self.powerMeter)
self.arrows[x].setScale(0.2 - 0.4 * x, 0.2, 0.2)
self.arrows[x].setPos(0.12 - 0.24 * x, 0, -.26)
return
def loadSounds(self):
self.splashSound = base.loader.loadSfx('phase_4/audio/sfx/MG_cannon_splash.ogg')
self.whistleSound = base.loader.loadSfx('phase_4/audio/sfx/AA_sound_whistle.ogg')
def loadIntervals(self):
self.updateIdealRateInterval = Sequence()
self.updateIdealRateInterval.append(Wait(PartyGlobals.TugOfWarTargetRateList[0][0]))
for i in range(1, len(PartyGlobals.TugOfWarTargetRateList)):
duration = PartyGlobals.TugOfWarTargetRateList[i][0]
idealRate = PartyGlobals.TugOfWarTargetRateList[i][1]
self.updateIdealRateInterval.append(Func(self.setIdealRate, idealRate))
if i == len(PartyGlobals.TugOfWarTargetRateList) - 1:
self.updateIdealRateInterval.append(Func(setattr, self, 'allOutMode', True))
else:
self.updateIdealRateInterval.append(Wait(duration))
self.updateKeyPressRateInterval = Sequence(Wait(PartyGlobals.TugOfWarKeyPressUpdateRate), Func(self.updateKeyPressRate))
self.reportToServerInterval = Sequence(Wait(PartyGlobals.TugOfWarKeyPressReportRate), Func(self.reportToServer))
self.setupInterval = Parallel()
self.globalSetupInterval = Sequence(Wait(PartyGlobals.TugOfWarReadyDuration + PartyGlobals.TugOfWarGoDuration), Func(self.tightenRopes))
self.localSetupInterval = Sequence(Func(self.setStatus, TTLocalizer.PartyTugOfWarReady), Func(self.showStatus), Wait(PartyGlobals.TugOfWarReadyDuration), Func(base.playSfx, self.whistleSound), Func(self.setStatus, TTLocalizer.PartyTugOfWarGo), Wait(PartyGlobals.TugOfWarGoDuration), Func(self.enableKeys), Func(self.hideStatus), Func(self.updateIdealRateInterval.start), Func(self.updateKeyPressRateInterval.loop), Func(self.reportToServerInterval.loop))
self.splashInterval = Sequence(Func(base.playSfx, self.splashSound), Func(self.splash.play))
def unload(self):
DistributedPartyTeamActivity.unload(self)
self.arrowKeys.destroy()
self.unloadIntervals()
self.unloadModels()
self.unloadGuiElements()
self.unloadSounds()
if hasattr(self, 'toonIds'):
del self.toonIds
del self.buttons
del self.arrowKeys
del self.keyTTL
del self.idealRate
del self.keyRate
del self.allOutMode
del self.rateMatchAward
del self.toonIdsToStartPositions
del self.toonIdsToIsPullingFlags
del self.toonIdsToRightHands
del self.fallenToons
del self.fallenPositions
del self.unusedFallenPositionsIndices
self.toonIdsToAnimIntervals.clear()
del self.toonIdsToAnimIntervals
def unloadModels(self):
self.playArea.removeNode()
del self.playArea
del self.dockPositions
del self.hopOffPositions
self.__disableCollisions()
while len(self.joinCollision) > 0:
collNode = self.joinCollision.pop()
del collNode
while len(self.joinCollisionNodePaths) > 0:
collNodePath = self.joinCollisionNodePaths.pop()
collNodePath.removeNode()
del collNodePath
while len(self.tugRopes) > 0:
rope = self.tugRopes.pop()
if rope is not None:
rope.removeNode()
del rope
del self.tugRopes
self.splash.destroy()
del self.splash
return
def unloadGuiElements(self):
for arrow in self.arrows:
if arrow is not None:
arrow.removeNode()
del arrow
del self.arrows
if self.powerMeter is not None:
self.powerMeter.cleanup()
del self.powerMeter
return
def unloadSounds(self):
del self.splashSound
del self.whistleSound
def unloadIntervals(self):
self.updateIdealRateInterval.pause()
del self.updateIdealRateInterval
self.updateKeyPressRateInterval.pause()
del self.updateKeyPressRateInterval
self.reportToServerInterval.pause()
del self.reportToServerInterval
self.setupInterval.pause()
del self.setupInterval
self.globalSetupInterval.pause()
del self.globalSetupInterval
self.localSetupInterval.pause()
del self.localSetupInterval
self.splashInterval.pause()
del self.splashInterval
def __enableCollisions(self):
for i in range(len(PartyGlobals.TeamActivityTeams)):
self.accept('enterTugOfWarJoinCollision%d' % i, getattr(self, '_join%s' % PartyGlobals.TeamActivityTeams.getString(i)))
def __disableCollisions(self):
for i in range(len(PartyGlobals.TeamActivityTeams)):
self.ignore('enterTugOfWarJoinCollision%d' % i)
def startWaitForEnough(self):
DistributedPartyTeamActivity.startWaitForEnough(self)
self.__enableCollisions()
def finishWaitForEnough(self):
DistributedPartyTeamActivity.finishWaitForEnough(self)
self.__disableCollisions()
def startWaitToStart(self, waitStartTimestamp):
DistributedPartyTeamActivity.startWaitToStart(self, waitStartTimestamp)
self.__enableCollisions()
def finishWaitToStart(self):
DistributedPartyTeamActivity.finishWaitToStart(self)
self.__disableCollisions()
def startRules(self):
DistributedPartyTeamActivity.startRules(self)
self.setUpRopes()
if self.isLocalToonPlaying:
self.showControls()
def finishRules(self):
DistributedPartyTeamActivity.finishRules(self)
if self.activityFSM.getCurrentOrNextState() == 'WaitForEnough':
self.hideRopes()
self.hideControls()
def finishWaitForServer(self):
DistributedPartyTeamActivity.finishWaitForServer(self)
if self.activityFSM.getCurrentOrNextState() == 'WaitForEnough':
self.hideRopes()
self.hideControls()
def startActive(self):
DistributedPartyTeamActivity.startActive(self)
self.toonIdsToStartPositions.clear()
self.toonIdsToIsPullingFlags.clear()
for toonId in self.getToonIdsAsList():
self.toonIdsToIsPullingFlags[toonId] = False
toon = self.getAvatar(toonId)
if toon:
self.toonIdsToStartPositions[toonId] = toon.getPos(self.root)
else:
self.notify.warning("couldn't find toon %d assigning 0,0,0 to startPos" % toonId)
self.toonIdsToStartPositions[toonId] = Point3(0, 0, 0)
self.unusedFallenPositionsIndices = [0,
1,
2,
3]
self.setupInterval = Parallel(self.globalSetupInterval)
if self.isLocalToonPlaying:
self.keyTTL = []
self.idealForce = 0.0
self.keyRate = 0
self.rateMatchAward = 0.0
self.allOutMode = False
self.setIdealRate(PartyGlobals.TugOfWarTargetRateList[0][1])
self.setupInterval.append(self.localSetupInterval)
self.setupInterval.start()
def finishActive(self):
DistributedPartyTeamActivity.finishActive(self)
self.hideControls()
self.disableKeys()
self.setupInterval.pause()
self.reportToServerInterval.pause()
self.updateKeyPressRateInterval.pause()
self.updateIdealRateInterval.pause()
self.hideRopes()
def startConclusion(self, losingTeam):
DistributedPartyTeamActivity.startConclusion(self, losingTeam)
if self.isLocalToonPlaying:
self._rewardFinishedSV.set(False)
if losingTeam == PartyGlobals.TeamActivityNeitherTeam:
self.setStatus(TTLocalizer.PartyTeamActivityGameTie)
else:
self.setStatus(TTLocalizer.PartyTugOfWarGameEnd)
self.showStatus()
if losingTeam == PartyGlobals.TeamActivityNeitherTeam:
for toonId in self.getToonIdsAsList():
if self.getAvatar(toonId):
self.getAvatar(toonId).loop('neutral')
else:
for toonId in self.toonIds[losingTeam]:
if self.getAvatar(toonId):
self.getAvatar(toonId).loop('neutral')
for toonId in self.toonIds[1 - losingTeam]:
if self.getAvatar(toonId):
self.getAvatar(toonId).loop('victory')
for ival in list(self.toonIdsToAnimIntervals.values()):
if ival is not None:
ival.finish()
return
def finishConclusion(self):
DistributedPartyTeamActivity.finishConclusion(self)
self.fallenToons = []
def getTitle(self):
return TTLocalizer.PartyTugOfWarTitle
def getInstructions(self):
return TTLocalizer.TugOfWarInstructions
def showControls(self):
for arrow in self.arrows:
arrow.setColor(PartyGlobals.TugOfWarDisabledArrowColor)
self.powerMeter.setTarget(PartyGlobals.TugOfWarTargetRateList[0][1])
self.powerMeter.setPower(PartyGlobals.TugOfWarTargetRateList[0][1])
self.powerMeter.setBarColor((0.0, 1.0, 0.0, 0.5))
self.powerMeter.clearTooSlowTooFast()
self.powerMeter.show()
def hideControls(self):
self.powerMeter.hide()
def setUpRopes(self):
self.notify.debug('setUpRopes')
ropeIndex = 0
leftToonId = -1
if self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam]:
leftToonId = self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam][0]
rightToonId = -1
if self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam]:
rightToonId = self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam][0]
if leftToonId in self.toonIdsToRightHands and rightToonId in self.toonIdsToRightHands:
self.tugRopes[ropeIndex].setup(3, ((self.toonIdsToRightHands[leftToonId], (0, 0, 0)), (self.root, (0.0, 0.0, 2.5)), (self.toonIdsToRightHands[rightToonId], (0, 0, 0))), [0,
0,
0,
1,
1,
1])
self.tugRopes[ropeIndex].unstash()
ropeIndex += 1
teams = [PartyGlobals.TeamActivityTeams.LeftTeam, PartyGlobals.TeamActivityTeams.RightTeam]
for currTeam in teams:
numToons = len(self.toonIds[currTeam])
if numToons > 1:
for i in range(numToons - 1, 0, -1):
toon1 = self.toonIds[currTeam][i]
toon2 = self.toonIds[currTeam][i - 1]
if toon1 not in self.toonIdsToRightHands:
self.notify.warning('Toon in tug of war activity but not properly setup: %s' % toon1)
elif toon2 not in self.toonIdsToRightHands:
self.notify.warning('Toon in tug of war activity but not properly setup: %s' % toon2)
else:
self.notify.debug('Connecting rope between toon %d and toon %d of team %d.' % (i, i - 1, currTeam))
self.tugRopes[ropeIndex].setup(3, ((self.toonIdsToRightHands[toon1], (0, 0, 0)), (self.toonIdsToRightHands[toon1], (0, 0, 0)), (self.toonIdsToRightHands[toon2], (0, 0, 0))), [0,
0,
0,
1,
1,
1])
self.tugRopes[ropeIndex].unstash()
ropeIndex += 1
def tightenRopes(self):
self.notify.debug('tightenRopes')
self.tugRopes[0].setup(3, ((self.toonIdsToRightHands[self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam][0]], (0, 0, 0)), (self.toonIdsToRightHands[self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam][0]], (0, 0, 0)), (self.toonIdsToRightHands[self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam][0]], (0, 0, 0))), [0,
0,
0,
1,
1,
1])
def hideRopes(self):
self.notify.debug('hideRopes')
for rope in self.tugRopes:
rope.stash()
def handleGameTimerExpired(self):
self.disableKeys()
def setIdealRate(self, idealRate):
self.notify.debug('setIdealRate( %d )' % idealRate)
self.idealRate = idealRate
self.idealForce = self.advantage * (4 + 0.4 * self.idealRate)
def updateKeyPressRate(self):
for i in range(len(self.keyTTL)):
self.keyTTL[i] -= PartyGlobals.TugOfWarKeyPressUpdateRate
for i in range(len(self.keyTTL)):
if self.keyTTL[i] <= 0.0:
a = self.keyTTL[0:i]
del self.keyTTL
self.keyTTL = a
break
self.keyRate = len(self.keyTTL)
if self.keyRate == self.idealRate or self.keyRate == self.idealRate + 1:
self.rateMatchAward += 0.3
else:
self.rateMatchAward = 0.0
def reportToServer(self):
self.currentForce = self.computeForce(self.keyRate)
self.sendUpdate('reportKeyRateForce', [self.keyRate, self.currentForce])
self.setSpeedGauge()
self.setAnimState(base.localAvatar.doId, self.keyRate)
def computeForce(self, keyRate):
F = 0
if self.allOutMode:
F = 0.75 * keyRate
else:
stdDev = 0.25 * self.idealRate
F = self.advantage * (self.rateMatchAward + 4 + 0.4 * self.idealRate) * math.pow(math.e, -math.pow(keyRate - self.idealRate, 2) / (2.0 * math.pow(stdDev, 2)))
return F
def setSpeedGauge(self):
self.powerMeter.setPower(self.keyRate)
self.powerMeter.setTarget(self.idealRate)
if not self.allOutMode:
self.powerMeter.updateTooSlowTooFast()
index = float(self.currentForce) / self.idealForce
bonus = 0.0
if index > 1.0:
bonus = max(1.0, index - 1.0)
index = 1.0
color = (0,
0.75 * index + 0.25 * bonus,
0.75 * (1 - index),
0.5)
self.powerMeter.setBarColor(color)
else:
self.powerMeter.setBarColor((0.0, 1.0, 0.0, 0.5))
def updateToonKeyRate(self, toonId, keyRate):
if toonId != base.localAvatar.doId:
self.setAnimState(toonId, keyRate)
def setAnimState(self, toonId, keyRate):
if self.activityFSM.state != 'Active':
return
toon = self.getAvatar(toonId)
if toonId not in self.toonIdsToIsPullingFlags:
if self.getTeam(toonId) == None:
self.notify.warning("setAnimState called with toonId (%d) that wasn't in self.toonIds" % toonId)
return
else:
self.notify.warning('setAnimState called with toonId (%d) that was in self.toonIds but not in self.toonIdsToIsPullingFlags. Adding it.' % toonId)
self.toonIdsToIsPullingFlags[toonId] = False
if keyRate > 0 and not self.toonIdsToIsPullingFlags[toonId]:
if toon:
toon.loop('tug-o-war')
else:
self.notify.warning('toon %d is None, skipping toon.loop(tugowar)' % toonId)
self.toonIdsToIsPullingFlags[toonId] = True
if keyRate <= 0 and self.toonIdsToIsPullingFlags[toonId]:
if toon:
toon.pose('tug-o-war', 3)
toon.startLookAround()
else:
self.notify.warning('toon %d is None, skipping toon.startLookAround' % toonId)
self.toonIdsToIsPullingFlags[toonId] = False
return
def enableKeys(self):
self.notify.debug('enableKeys')
self.arrowKeys.setPressHandlers([lambda : self.__pressHandler(2),
lambda : self.__pressHandler(3),
lambda : self.__pressHandler(1),
lambda : self.__pressHandler(0)])
self.arrowKeys.setReleaseHandlers([lambda : self.__releaseHandler(2),
lambda : self.__releaseHandler(3),
lambda : self.__releaseHandler(1),
lambda : self.__releaseHandler(0)])
for arrow in self.arrows:
arrow.setColor(PartyGlobals.TugOfWarEnabledArrowColor)
def disableKeys(self):
self.arrowKeys.setPressHandlers(self.arrowKeys.NULL_HANDLERS)
self.arrowKeys.setReleaseHandlers(self.arrowKeys.NULL_HANDLERS)
def __pressHandler(self, index):
if index == self.buttons[0]:
self.arrows[index].setColor(PartyGlobals.TugOfWarHilightedArrowColor)
self.keyTTL.insert(0, PartyGlobals.TugOfWarKeyPressTimeToLive)
self.buttons.reverse()
def __releaseHandler(self, index):
if index in self.buttons:
self.arrows[index].setColor(PartyGlobals.TugOfWarEnabledArrowColor)
def updateToonPositions(self, offset):
if self.activityFSM.state != 'Active':
return
if self.isLocalToonPlaying:
camera.lookAt(self.root, offset, 0.0, PartyGlobals.TugOfWarCameraLookAtHeightOffset)
for toonId in self.getToonIdsAsList():
if hasattr(self, 'fallenToons') and toonId not in self.fallenToons:
toon = self.getAvatar(toonId)
if toon is not None:
origPos = self.toonIdsToStartPositions[toonId]
curPos = toon.getPos(self.root)
newPos = Point3(origPos[0] + offset, curPos[1], curPos[2])
if self.toonIdsToAnimIntervals[toonId] != None:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
self.checkIfFallen(toonId)
if toonId not in self.fallenToons:
self.toonIdsToAnimIntervals[toonId] = Sequence(LerpPosInterval(toon, duration=PartyGlobals.TugOfWarKeyPressReportRate, pos=newPos, other=self.root), Func(self.checkIfFallen, toonId))
self.toonIdsToAnimIntervals[toonId].start()
return
def checkIfFallen(self, toonId):
if hasattr(self, 'fallenToons') and toonId not in self.fallenToons:
toon = self.getAvatar(toonId)
if toon:
curPos = toon.getPos(self.root)
team = self.getTeam(toonId)
if team == PartyGlobals.TeamActivityTeams.LeftTeam and curPos[0] > -2.0 or team == PartyGlobals.TeamActivityTeams.RightTeam and curPos[0] < 2.0:
losingTeam = self.getTeam(toonId)
self.throwTeamInWater(losingTeam)
self.sendUpdate('reportFallIn', [losingTeam])
def throwTeamInWater(self, losingTeam):
self.notify.debug('throwTeamInWater( %s )' % PartyGlobals.TeamActivityTeams.getString(losingTeam))
splashSet = False
for toonId in self.toonIds[losingTeam]:
self.fallenToons.append(toonId)
toon = self.getAvatar(toonId)
fallenPosIndex = self.toonIds[losingTeam].index(toonId)
if fallenPosIndex < 0 or fallenPosIndex >= 4:
fallenPosIndex = 0
newPos = self.fallenPositions[fallenPosIndex]
if toonId in self.toonIdsToAnimIntervals and self.toonIdsToAnimIntervals[toonId] is not None:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
if toon:
parallel = Parallel(ActorInterval(actor=toon, animName='slip-forward', duration=2.0), LerpPosInterval(toon, duration=2.0, pos=newPos, other=self.root))
else:
self.notify.warning('toon %d is none, skipping slip-forward' % toonId)
parallel = Parallel()
if not splashSet:
splashSet = True
parallel.append(self.splashInterval)
if toon:
self.toonIdsToAnimIntervals[toonId] = Sequence(parallel, Func(toon.loop, 'neutral'))
else:
self.notify.warning('toon %d is none, skipping toon.loop(neutral)' % toonId)
self.toonIdsToAnimIntervals[toonId] = parallel
self.toonIdsToAnimIntervals[toonId].start()
return
def setAdvantage(self, advantage):
DistributedPartyTeamActivity.setAdvantage(self, advantage)
if self.isLocalToonPlaying:
self.setIdealRate(PartyGlobals.TugOfWarTargetRateList[0][1])
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.ogg')
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 range(self.numPlayers):
self.toonRNGs.append(RandomNumGen.RandomNumGen(self.randomNumGen))
self.treasures = []
for i in range(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 range(self.numPlayers):
self.sndTable['hitBySuit'][i] = base.loader.loadSfx(
'phase_4/audio/sfx/MG_Tag_C.ogg')
self.sndTable['falling'][i] = base.loader.loadSfx(
'phase_4/audio/sfx/MG_cannon_whizz.ogg')
self.grabSounds = []
for i in range(5):
self.grabSounds.append(
base.loader.loadSfx('phase_4/audio/sfx/MG_maze_pickup.ogg'))
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 list(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 range(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 ' + repr(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-' + repr(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-' + repr(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: ' + repr(suitPeriods))
self.randomNumGen.shuffle(suitPeriods)
for i in range(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 range(len(self.suits)):
updateTics = self.suits[i].getThinkTimestampTics(curTic)
suitUpdates.extend(list(zip(updateTics, [i] * len(updateTics))))
suitUpdates.sort(key=functools.cmp_to_key(lambda a, b: a[0] - b[0]))
if len(suitUpdates) > 0:
curTic = 0
for i in range(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 range(suitIndex):
unwalkables.extend(self.suits[si].occupiedTiles)
for si in range(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 range(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))
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.loadMusic('phase_4/audio/bgm/MG_toontag.ogg')
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.loadSfx('phase_4/audio/sfx/MG_Tag_C.ogg')
self.sndTable['falling'][i] = base.loadSfx('phase_4/audio/sfx/MG_cannon_whizz.ogg')
self.grabSounds = []
for i in xrange(5):
self.grabSounds.append(base.loadSfx('phase_4/audio/sfx/MG_maze_pickup.ogg'))
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.reparentTo(base.a2dTopRight)
scorePanel.setPos(-0.213, 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()
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]
panel.wrtReparentTo(aspect2d)
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()
#For the Alpha Blueprint ARG
if config.GetBool('want-blueprint4-ARG', False):
MinigameGlobals.generateDebugARGPhrase()
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))
class MazeSuit(DirectObject):
COLL_SPHERE_NAME = 'MazeSuitSphere'
COLLISION_EVENT_NAME = 'MazeSuitCollision'
MOVE_IVAL_NAME = 'moveMazeSuit'
DIR_UP = 0
DIR_DOWN = 1
DIR_LEFT = 2
DIR_RIGHT = 3
oppositeDirections = [
DIR_DOWN,
DIR_UP,
DIR_RIGHT,
DIR_LEFT]
directionHs = [
0,
180,
90,
270]
DEFAULT_SPEED = 4.0
SUIT_Z = 0.10000000000000001
def __init__(self, serialNum, maze, randomNumGen, cellWalkPeriod, difficulty, suitDnaName = 'f', startTile = None, ticFreq = MazeGameGlobals.SUIT_TIC_FREQ, walkSameDirectionProb = MazeGameGlobals.WALK_SAME_DIRECTION_PROB, walkTurnAroundProb = MazeGameGlobals.WALK_TURN_AROUND_PROB, uniqueRandomNumGen = True, walkAnimName = None):
self.serialNum = serialNum
self.maze = maze
if uniqueRandomNumGen:
self.rng = RandomNumGen(randomNumGen)
else:
self.rng = randomNumGen
self.difficulty = difficulty
self._walkSameDirectionProb = walkSameDirectionProb
self._walkTurnAroundProb = walkTurnAroundProb
if not walkAnimName:
pass
self._walkAnimName = 'walk'
self.suit = Suit.Suit()
d = SuitDNA.SuitDNA()
d.newSuit(suitDnaName)
self.suit.setDNA(d)
if startTile is None:
defaultStartPos = MazeGameGlobals.SUIT_START_POSITIONS[self.serialNum]
self.startTile = (defaultStartPos[0] * self.maze.width, defaultStartPos[1] * self.maze.height)
else:
self.startTile = startTile
self.ticFreq = ticFreq
self.ticPeriod = int(cellWalkPeriod)
self.cellWalkDuration = float(self.ticPeriod) / float(self.ticFreq)
self.turnDuration = 0.59999999999999998 * self.cellWalkDuration
def destroy(self):
self.suit.delete()
def uniqueName(self, str):
return str + `self.serialNum`
def gameStart(self, gameStartTime):
self.gameStartTime = gameStartTime
self.initCollisions()
self.startWalkAnim()
self.occupiedTiles = [
(self.nextTX, self.nextTY)]
n = 20
self.nextThinkTic = self.serialNum * self.ticFreq / n
self.fromPos = Point3(0, 0, 0)
self.toPos = Point3(0, 0, 0)
self.fromHpr = Point3(0, 0, 0)
self.toHpr = Point3(0, 0, 0)
self.moveIval = WaitInterval(1.0)
def gameEnd(self):
self.moveIval.pause()
del self.moveIval
self.shutdownCollisions()
self.suit.loop('neutral')
def initCollisions(self):
self.collSphere = CollisionSphere(0, 0, 0, 2.0)
self.collSphere.setTangible(0)
self.collNode = CollisionNode(self.uniqueName(self.COLL_SPHERE_NAME))
self.collNode.setIntoCollideMask(ToontownGlobals.WallBitmask)
self.collNode.addSolid(self.collSphere)
self.collNodePath = self.suit.attachNewNode(self.collNode)
self.collNodePath.hide()
self.accept(self.uniqueName('enter' + self.COLL_SPHERE_NAME), self.handleEnterSphere)
def shutdownCollisions(self):
self.ignore(self.uniqueName('enter' + self.COLL_SPHERE_NAME))
del self.collSphere
self.collNodePath.removeNode()
del self.collNodePath
del self.collNode
def handleEnterSphere(self, collEntry):
messenger.send(self.COLLISION_EVENT_NAME, [
self.serialNum])
def _MazeSuit__getWorldPos(self, sTX, sTY):
(wx, wy) = self.maze.tile2world(sTX, sTY)
return Point3(wx, wy, self.SUIT_Z)
def onstage(self):
sTX = int(self.startTile[0])
sTY = int(self.startTile[1])
c = 0
lim = 0
toggle = 0
direction = 0
while not self.maze.isWalkable(sTX, sTY):
if 0 == direction:
sTX -= 1
elif 1 == direction:
sTY -= 1
elif 2 == direction:
sTX += 1
elif 3 == direction:
sTY += 1
c += 1
if c > lim:
c = 0
direction = (direction + 1) % 4
toggle += 1
if not toggle & 1:
lim += 1
self.TX = sTX
self.TY = sTY
self.direction = self.DIR_DOWN
self.lastDirection = self.direction
self.nextTX = self.TX
self.nextTY = self.TY
self.suit.setPos(self._MazeSuit__getWorldPos(self.TX, self.TY))
self.suit.setHpr(self.directionHs[self.direction], 0, 0)
self.suit.reparentTo(render)
self.suit.pose(self._walkAnimName, 0)
self.suit.loop('neutral')
def offstage(self):
self.suit.reparentTo(hidden)
def startWalkAnim(self):
self.suit.loop(self._walkAnimName)
speed = float(self.maze.cellWidth) / self.cellWalkDuration
self.suit.setPlayRate(speed / self.DEFAULT_SPEED, self._walkAnimName)
def _MazeSuit__applyDirection(self, dir, TX, TY):
if self.DIR_UP == dir:
TY += 1
elif self.DIR_DOWN == dir:
TY -= 1
elif self.DIR_LEFT == dir:
TX -= 1
elif self.DIR_RIGHT == dir:
TX += 1
return (TX, TY)
def _MazeSuit__chooseNewWalkDirection(self, unwalkables):
if not self.rng.randrange(self._walkSameDirectionProb):
(newTX, newTY) = self._MazeSuit__applyDirection(self.direction, self.TX, self.TY)
if self.maze.isWalkable(newTX, newTY, unwalkables):
return self.direction
if self.difficulty >= 0.5:
if not self.rng.randrange(self._walkTurnAroundProb):
oppositeDir = self.oppositeDirections[self.direction]
(newTX, newTY) = self._MazeSuit__applyDirection(oppositeDir, self.TX, self.TY)
if self.maze.isWalkable(newTX, newTY, unwalkables):
return oppositeDir
candidateDirs = [
self.DIR_UP,
self.DIR_DOWN,
self.DIR_LEFT,
self.DIR_RIGHT]
candidateDirs.remove(self.oppositeDirections[self.direction])
while len(candidateDirs):
dir = self.rng.choice(candidateDirs)
(newTX, newTY) = self._MazeSuit__applyDirection(dir, self.TX, self.TY)
if self.maze.isWalkable(newTX, newTY, unwalkables):
return dir
candidateDirs.remove(dir)
return self.oppositeDirections[self.direction]
def getThinkTimestampTics(self, curTic):
if curTic < self.nextThinkTic:
return []
else:
r = range(self.nextThinkTic, curTic + 1, self.ticPeriod)
self.lastTicBeforeRender = r[-1]
return r
def prepareToThink(self):
self.occupiedTiles = [
(self.nextTX, self.nextTY)]
def think(self, curTic, curT, unwalkables):
self.TX = self.nextTX
self.TY = self.nextTY
self.lastDirection = self.direction
self.direction = self._MazeSuit__chooseNewWalkDirection(unwalkables)
(self.nextTX, self.nextTY) = self._MazeSuit__applyDirection(self.direction, self.TX, self.TY)
self.occupiedTiles = [
(self.TX, self.TY),
(self.nextTX, self.nextTY)]
if curTic == self.lastTicBeforeRender:
fromCoords = self.maze.tile2world(self.TX, self.TY)
toCoords = self.maze.tile2world(self.nextTX, self.nextTY)
self.fromPos.set(fromCoords[0], fromCoords[1], self.SUIT_Z)
self.toPos.set(toCoords[0], toCoords[1], self.SUIT_Z)
self.moveIval = LerpPosInterval(self.suit, self.cellWalkDuration, self.toPos, startPos = self.fromPos, name = self.uniqueName(self.MOVE_IVAL_NAME))
if self.direction != self.lastDirection:
self.fromH = self.directionHs[self.lastDirection]
toH = self.directionHs[self.direction]
if self.fromH == 270 and toH == 0:
self.fromH = -90
elif self.fromH == 0 and toH == 270:
self.fromH = 360
self.fromHpr.set(self.fromH, 0, 0)
self.toHpr.set(toH, 0, 0)
turnIval = LerpHprInterval(self.suit, self.turnDuration, self.toHpr, startHpr = self.fromHpr, name = self.uniqueName('turnMazeSuit'))
self.moveIval = Parallel(self.moveIval, turnIval, name = self.uniqueName(self.MOVE_IVAL_NAME))
else:
self.suit.setH(self.directionHs[self.direction])
moveStartT = float(self.nextThinkTic) / float(self.ticFreq)
self.moveIval.start(curT - moveStartT + self.gameStartTime)
self.nextThinkTic += self.ticPeriod
def thinkSuits(suitList, startTime, ticFreq = MazeGameGlobals.SUIT_TIC_FREQ):
curT = globalClock.getFrameTime() - startTime
curTic = int(curT * float(ticFreq))
suitUpdates = []
for i in xrange(len(suitList)):
updateTics = suitList[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 = suitList[suitIndex]
if tic > curTic:
curTic = tic
j = i + 1
while j < len(suitUpdates):
if suitUpdates[j][0] > tic:
break
suitList[suitUpdates[j][1]].prepareToThink()
j += 1
unwalkables = []
for si in xrange(suitIndex):
unwalkables.extend(suitList[si].occupiedTiles)
for si in xrange(suitIndex + 1, len(suitList)):
unwalkables.extend(suitList[si].occupiedTiles)
suit.think(curTic, curT, unwalkables)
thinkSuits = staticmethod(thinkSuits)
class MusicBox(DirectObject):
def __init__(self):
# Our standard title and instructions text
self.title = OnscreenText(text="Panda3D: Tutorial - Music Box",
parent=base.a2dBottomCenter,
pos=(0, 0.08), scale=0.08,
fg=(1, 1, 1, 1), shadow=(0, 0, 0, .5))
self.escapeText = OnscreenText(text="ESC: Quit", parent=base.a2dTopLeft,
fg=(1, 1, 1, 1), pos=(0.06, -0.1),
align=TextNode.ALeft, scale=.05)
# Set up the key input
self.accept('escape', sys.exit)
# Fix the camera position
base.disableMouse()
# Loading sounds is done in a similar way to loading other things
# Loading the main music box song
self.musicBoxSound = loader.loadMusic('music/musicbox.ogg')
self.musicBoxSound.setVolume(.5) # Volume is a percentage from 0 to 1
# 0 means loop forever, 1 (default) means
# play once. 2 or higher means play that many times
self.musicBoxSound.setLoopCount(0)
# Set up a simple light.
self.plight = PointLight("light")
self.plight.setColor((0.7, 0.7, 0.5, 1))
light_path = base.render.attachNewNode(self.plight)
light_path.setPos(0, 0, 20)
base.render.setLight(light_path)
alight = AmbientLight("ambient")
alight.setColor((0.3, 0.3, 0.4, 1))
base.render.setLight(base.render.attachNewNode(alight))
# Enable per-pixel lighting
base.render.setShaderAuto()
# Sound objects do not have a pause function, just play and stop. So we will
# Use this variable to keep track of where the sound is at when it was stoped
# to impliment pausing
self.musicTime = 0
# Loading the open/close effect
# loadSFX and loadMusic are identical. They are often used for organization
#(loadMusic is used for background music, loadSfx is used for other effects)
self.lidSfx = loader.loadSfx('music/openclose.ogg')
# The open/close file has both effects in it. Fortunatly we can use intervals
# to easily define parts of a sound file to play
self.lidOpenSfx = SoundInterval(self.lidSfx, duration=2, startTime=0)
self.lidCloseSfx = SoundInterval(self.lidSfx, startTime=5)
# For this tutorial, it seemed appropriate to have on screen controls.
# The following code creates them.
# This is a label for a slider
self.sliderText = OnscreenText("Volume", pos=(-0.1, 0.87), scale=.07,
fg=(1, 1, 1, 1), shadow=(0, 0, 0, 1))
# The slider itself. It calls self.setMusicBoxVolume when changed
self.slider = DirectSlider(pos=(-0.1, 0, .75), scale=0.8, value=.50,
command=self.setMusicBoxVolume)
# A button that calls self.toggleMusicBox when pressed
self.button = DirectButton(pos=(.9, 0, .75), text="Open",
scale=.1, pad=(.2, .2),
rolloverSound=None, clickSound=None,
command=self.toggleMusicBox)
# A variable to represent the state of the simulation. It starts closed
self.boxOpen = False
# Here we load and set up the music box. It was modeled in a complex way, so
# setting it up will be complicated
self.musicBox = loader.loadModel('models/MusicBox')
self.musicBox.setPos(0, 60, -9)
self.musicBox.reparentTo(render)
# Just like the scene graph contains hierarchies of nodes, so can
# models. You can get the NodePath for the node using the find
# function, and then you can animate the model by moving its parts
# To see the hierarchy of a model, use, the ls function
# self.musicBox.ls() prints out the entire hierarchy of the model
# Finding pieces of the model
self.Lid = self.musicBox.find('**/lid')
self.Panda = self.musicBox.find('**/turningthing')
# This model was made with the hinge in the wrong place
# this is here so we have something to turn
self.HingeNode = self.musicBox.find(
'**/box').attachNewNode('nHingeNode')
self.HingeNode.setPos(.8659, 6.5, 5.4)
# WRT - ie with respect to. Reparents the object without changing
# its position, size, or orientation
self.Lid.wrtReparentTo(self.HingeNode)
self.HingeNode.setHpr(0, 90, 0)
# This sets up an interval to play the close sound and actually close the box
# at the same time.
self.lidClose = Parallel(
self.lidCloseSfx,
LerpHprInterval(self.HingeNode, 2.0, (0, 90, 0), blendType='easeInOut'))
# Same thing for opening the box
self.lidOpen = Parallel(
self.lidOpenSfx,
LerpHprInterval(self.HingeNode, 2.0, (0, 0, 0), blendType='easeInOut'))
# The interval for turning the panda
self.PandaTurn = self.Panda.hprInterval(7, (360, 0, 0))
# Do a quick loop and pause to set it as a looping interval so it can be
# started with resume and loop properly
self.PandaTurn.loop()
self.PandaTurn.pause()
def setMusicBoxVolume(self):
# Simply reads the current value from the slider and sets it in the
# sound
newVol = self.slider.guiItem.getValue()
self.musicBoxSound.setVolume(newVol)
def toggleMusicBox(self):
#if self.lidOpen.isPlaying() or self.lidClose.isPlaying():
# # It's currently already opening or closing
# return
if self.boxOpen:
self.lidOpen.pause()
self.lidClose.start() # Start the close box interval
self.PandaTurn.pause() # Pause the figurine turning
# Save the current time of the music
self.musicTime = self.musicBoxSound.getTime()
self.musicBoxSound.stop() # Stop the music
self.button['text'] = "Open" # Prepare to change button label
else:
self.lidClose.pause()
self.lidOpen.start() # Start the open box interval
self.PandaTurn.resume() # Resume the figuring turning
# Reset the time of the music so it starts where it left off
self.musicBoxSound.setTime(self.musicTime)
self.musicBoxSound.play() # Play the music
self.button['text'] = "Close" # Prepare to change button label
self.button.setText() # Actually change the button label
# Set our state to opposite what it was
self.boxOpen = not self.boxOpen
class DistributedPartyDanceActivityBase(DistributedPartyActivity):
notify = directNotify.newCategory('DistributedPartyDanceActivity')
def __init__(self, cr, actId, dancePatternToAnims, model = 'phase_13/models/parties/danceFloor'):
DistributedPartyActivity.__init__(self, cr, actId, ActivityTypes.Continuous)
self.model = model
self.danceFloor = None
self.localToonDancing = False
self.keyCodes = None
self.gui = None
self.currentCameraMode = None
self.orthoWalk = None
self.cameraParallel = None
self.localToonDanceSequence = None
self.localPatternsMatched = []
self.dancePatternToAnims = dancePatternToAnims
self.dancingToonFSMs = {}
return
def generateInit(self):
self.notify.debug('generateInit')
DistributedPartyActivity.generateInit(self)
self.keyCodes = KeyCodes(patterns=self.dancePatternToAnims.keys())
self.gui = KeyCodesGui(self.keyCodes)
self.__initOrthoWalk()
self.activityFSM = DanceActivityFSM(self)
def announceGenerate(self):
DistributedPartyActivity.announceGenerate(self)
self.activityFSM.request('Active')
def load(self):
DistributedPartyActivity.load(self)
self.danceFloor = loader.loadModel(self.model)
self.danceFloor.reparentTo(self.getParentNodePath())
self.danceFloor.setPos(self.x, self.y, 0.0)
self.danceFloor.setH(self.h)
self.danceFloor.wrtReparentTo(render)
self.sign.setPos(22, -22, 0)
floor = self.danceFloor.find('**/danceFloor_mesh')
self.danceFloorSequence = Sequence(Wait(0.3), Func(floor.setH, floor, 36))
discoBall = self.danceFloor.find('**/discoBall_mesh')
self.discoBallSequence = Parallel(discoBall.hprInterval(6.0, Vec3(360, 0, 0)), Sequence(discoBall.posInterval(3, Point3(0, 0, 1), blendType='easeInOut'), discoBall.posInterval(3, Point3(0, 0, 0), blendType='easeInOut')))
def unload(self):
DistributedPartyActivity.unload(self)
self.activityFSM.request('Disabled')
if self.localToonDanceSequence is not None:
self.localToonDanceSequence.finish()
if self.localToonDancing:
self.__localStopDancing()
self.ignoreAll()
if self.discoBallSequence is not None:
self.discoBallSequence.finish()
if self.danceFloorSequence is not None:
self.danceFloorSequence.finish()
del self.danceFloorSequence
del self.discoBallSequence
del self.localToonDanceSequence
if self.danceFloor is not None:
self.danceFloor.removeNode()
self.danceFloor = None
self.__destroyOrthoWalk()
for toonId in self.dancingToonFSMs.keys():
self.dancingToonFSMs[toonId].destroy()
del self.dancingToonFSMs[toonId]
del self.dancingToonFSMs
del self.cameraParallel
del self.currentCameraMode
if self.keyCodes is not None:
self.keyCodes.destroy()
del self.keyCodes
del self.activityFSM
del self.gui
del self.localPatternsMatched
return
def handleToonDisabled(self, toonId):
self.notify.debug('handleToonDisabled avatar ' + str(toonId) + ' disabled')
if self.dancingToonFSMs.has_key(toonId):
self.dancingToonFSMs[toonId].request('cleanup')
self.dancingToonFSMs[toonId].destroy()
del self.dancingToonFSMs[toonId]
def getTitle(self):
self.notify.warning('define title for this dance activity')
return TTLocalizer.PartyDanceActivityTitle
def getInstructions(self):
self.notify.warning('define instructions for this dance activity')
return TTLocalizer.PartyDanceActivityInstructions
def startActive(self):
self.accept('enter' + DANCE_FLOOR_COLLISION, self.__handleEnterDanceFloor)
self.accept('exit' + DANCE_FLOOR_COLLISION, self.__handleExitDanceFloor)
self.danceFloorSequence.loop()
self.discoBallSequence.loop()
def finishActive(self):
pass
def startDisabled(self):
self.ignore('enter' + DANCE_FLOOR_COLLISION)
self.ignore('exit' + DANCE_FLOOR_COLLISION)
self.discoBallSequence.pause()
self.danceFloorSequence.pause()
def finishDisabled(self):
pass
def __initOrthoWalk(self):
self.notify.debug('Initialize Ortho Walk')
orthoDrive = OrthoDrive(9.778)
self.orthoWalk = OrthoWalk(orthoDrive, broadcast=True)
def __destroyOrthoWalk(self):
self.notify.debug('Destroy Ortho Walk')
self.orthoWalk.stop()
self.orthoWalk.destroy()
del self.orthoWalk
def __disableLocalControl(self):
self.orthoWalk.stop()
self.keyCodes.disable()
self.keyCodesGui.disable()
def __enableLocalControl(self):
self.orthWalk.start()
self.keyCodes.enable()
self.keyCodesGui.enable()
self.keyCodesGui.hideAll()
def __handleEnterDanceFloor(self, collEntry):
if not self.isLocalToonInActivity() and not self.localToonDancing:
self.notify.debug('Toon enters dance floor collision area.')
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
place.fsm.request('activity')
self.d_toonJoinRequest()
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
place.fsm.request('activity')
def joinRequestDenied(self, reason):
DistributedPartyActivity.joinRequestDenied(self, reason)
self.showMessage(TTLocalizer.PartyActivityDefaultJoinDeny)
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
place.fsm.request('walk')
def setToonsPlaying(self, toonIds, toonHeadings):
self.notify.debug('setToonsPlaying')
self.notify.debug('\ttoonIds: %s' % toonIds)
self.notify.debug('\ttoonHeadings: %s' % toonHeadings)
exitedToons, joinedToons = self.getToonsPlayingChanges(self.toonIds, toonIds)
self.notify.debug('\texitedToons: %s' % exitedToons)
self.notify.debug('\tjoinedToons: %s' % joinedToons)
self.setToonIds(toonIds)
self._processExitedToons(exitedToons)
for toonId in joinedToons:
if toonId != base.localAvatar.doId or toonId == base.localAvatar.doId and self.isLocalToonRequestStatus(PartyGlobals.ActivityRequestStatus.Joining):
self._enableHandleToonDisabled(toonId)
self.handleToonJoined(toonId, toonHeadings[toonIds.index(toonId)])
if toonId == base.localAvatar.doId:
self._localToonRequestStatus = None
return
def handleToonJoined(self, toonId, h):
self.notify.debug('handleToonJoined( toonId=%d, h=%.2f )' % (toonId, h))
if base.cr.doId2do.has_key(toonId):
toonFSM = PartyDanceActivityToonFSM(toonId, self, h)
toonFSM.request('Init')
self.dancingToonFSMs[toonId] = toonFSM
if toonId == base.localAvatar.doId:
self.__localStartDancing(h)
def __localStartDancing(self, h):
if not self.localToonDancing:
place = base.cr.playGame.getPlace()
if place and hasattr(place, 'fsm'):
self.localToonDancing = True
place.fsm.request('activity')
self.__updateLocalToonState(ToonDancingStates.Run)
self.__setViewMode(DanceViews.Dancing)
self.gui.load()
self.startRules()
self.__localEnableControls()
else:
self.notify.warning('__localStartDancing, failed in playGame.getPlace()')
def handleRulesDone(self):
self.finishRules()
def __localEnableControls(self):
if not self.dancingToonFSMs.has_key(base.localAvatar.doId):
self.notify.debug('no dancing FSM for local avatar, not enabling controls')
return
self.accept(KeyCodes.PATTERN_MATCH_EVENT, self.__doDanceMove)
self.accept(KeyCodes.PATTERN_NO_MATCH_EVENT, self.__noDanceMoveMatch)
self.acceptOnce(KeyCodes.KEY_DOWN_EVENT, self._handleKeyDown)
self.accept(KeyCodes.KEY_UP_EVENT, self._handleKeyUp)
self.keyCodes.enable()
self.orthoWalk.start()
self.gui.enable()
self.gui.hideAll()
def __localDisableControls(self):
self.orthoWalk.stop()
self.keyCodes.disable()
self.gui.disable()
self.ignore(KeyCodes.PATTERN_MATCH_EVENT)
self.ignore(KeyCodes.PATTERN_NO_MATCH_EVENT)
self.ignore(KeyCodes.KEY_DOWN_EVENT)
self.ignore(KeyCodes.KEY_UP_EVENT)
def __handleExitDanceFloor(self, collEntry):
if self.localToonDanceSequence is not None:
self.notify.debug('finishing %s' % self.localToonDanceSequence)
self.localToonDanceSequence.finish()
self.localToonDanceSequence = None
self.finishRules()
self.notify.debug('Toon exits dance floor collision area.')
self.d_toonExitRequest()
return
def exitRequestDenied(self, reason):
DistributedPartyActivity.exitRequestDenied(self, reason)
if reason != PartyGlobals.DenialReasons.SilentFail:
self.showMessage(TTLocalizer.PartyActivityDefaultExitDeny)
def handleToonExited(self, toonId):
self.notify.debug('exitDanceFloor %s' % toonId)
if toonId == base.localAvatar.doId:
self.__localStopDancing()
def __localStopDancing(self):
if self.localToonDancing:
self.__localDisableControls()
self.gui.unload()
self.__setViewMode(DanceViews.Normal)
self.__updateLocalToonState(ToonDancingStates.Cleanup)
if base.cr.playGame.getPlace():
if hasattr(base.cr.playGame.getPlace(), 'fsm'):
base.cr.playGame.getPlace().fsm.request('walk')
self.localToonDancing = False
def __doDanceMove(self, pattern):
self.notify.debug('Dance move! %s' % pattern)
anim = self.dancePatternToAnims.get(pattern)
if anim:
self.__updateLocalToonState(ToonDancingStates.DanceMove, anim)
self.gui.setColor(0, 1, 0)
self.gui.showText(DanceAnimToName.get(anim, anim))
self.finishRules()
if pattern not in self.localPatternsMatched:
camNode = NodePath(self.uniqueName('danceCamNode'))
camNode.reparentTo(base.localAvatar)
camNode.lookAt(camera)
camNode.setHpr(camNode.getH(), 0, 0)
node2 = NodePath('tempCamNode')
node2.reparentTo(camNode)
node2.setPos(Point3(0, 15, 10))
node2.lookAt(camNode)
h = node2.getH() * (camera.getH(camNode) / abs(camera.getH(camNode)))
node2.removeNode
del node2
hpr = camera.getHpr()
pos = camera.getPos()
camParent = camera.getParent()
camera.wrtReparentTo(camNode)
self.localToonDanceSequence = Sequence(Func(self.__localDisableControls), Parallel(camera.posInterval(0.5, Point3(0, 15, 10), blendType='easeIn'), camera.hprInterval(0.5, Point3(h, -20, 0), blendType='easeIn')), camNode.hprInterval(4.0, Point3(camNode.getH() - 360, 0, 0)), Func(camera.wrtReparentTo, camParent), Func(camNode.removeNode), Parallel(camera.posInterval(0.5, pos, blendType='easeOut'), camera.hprInterval(0.5, hpr, blendType='easeOut')), Func(self.__localEnableControls))
else:
self.localToonDanceSequence = Sequence(Func(self.__localDisableControls), Wait(2.0), Func(self.__localEnableControls))
self.localToonDanceSequence.start()
self.localPatternsMatched.append(pattern)
def __noDanceMoveMatch(self):
self.gui.setColor(1, 0, 0)
self.gui.showText('No Match!')
self.__updateLocalToonState(ToonDancingStates.DanceMove)
self.localToonDanceSequence = Sequence(Func(self.__localDisableControls), Wait(1.0), Func(self.__localEnableControls))
self.localToonDanceSequence.start()
def _handleKeyDown(self, key, index):
self.__updateLocalToonState(ToonDancingStates.Run)
def _handleKeyUp(self, key):
if not self.keyCodes.isAnyKeyPressed():
self.__updateLocalToonState(ToonDancingStates.DanceMove)
self.acceptOnce(KeyCodes.KEY_DOWN_EVENT, self._handleKeyDown)
def __updateLocalToonState(self, state, anim = ''):
self._requestToonState(base.localAvatar.doId, state, anim)
self.d_updateDancingToon(state, anim)
def d_updateDancingToon(self, state, anim):
self.sendUpdate('updateDancingToon', [state, anim])
def setDancingToonState(self, toonId, state, anim):
if toonId != base.localAvatar.doId and self.dancingToonFSMs.has_key(toonId):
self._requestToonState(toonId, state, anim)
def _requestToonState(self, toonId, state, anim):
if self.dancingToonFSMs.has_key(toonId):
state = ToonDancingStates.getString(state)
curState = self.dancingToonFSMs[toonId].getCurrentOrNextState()
try:
self.dancingToonFSMs[toonId].request(state, anim)
except FSM.RequestDenied:
self.notify.warning('could not go from state=%s to state %s' % (curState, state))
if state == ToonDancingStates.getString(ToonDancingStates.Cleanup):
self.notify.debug('deleting this fsm %s' % self.dancingToonFSMs[toonId])
del self.dancingToonFSMs[toonId]
if self.localToonDanceSequence:
self.notify.debug('forcing a finish of localToonDanceSequence')
self.localToonDanceSequence.finish()
self.localToonDanceSequence = None
return
def __setViewMode(self, mode):
toon = base.localAvatar
if mode == DanceViews.Normal:
if self.cameraParallel is not None:
self.cameraParallel.pause()
self.cameraParallel = None
camera.reparentTo(toon)
base.localAvatar.startUpdateSmartCamera()
elif mode == DanceViews.Dancing:
base.localAvatar.stopUpdateSmartCamera()
camera.wrtReparentTo(self.danceFloor)
node = NodePath('temp')
node.reparentTo(toon.getParent())
node.setPos(Point3(0, -40, 20))
node2 = NodePath('temp2')
node2.reparentTo(self.danceFloor)
node.reparentTo(node2)
node2.setH(render, toon.getParent().getH())
pos = node.getPos(self.danceFloor)
node2.removeNode()
node.removeNode()
self.cameraParallel = Parallel(camera.posInterval(0.5, pos, blendType='easeIn'), camera.hprInterval(0.5, Point3(0, -27, 0), other=toon.getParent(), blendType='easeIn'))
self.cameraParallel.start()
self.currentCameraMode = mode
return
class PartyCogActivityPlayer:
toon = None
position = None
team = None
score = 0
enabled = False
notify = DirectNotifyGlobal.directNotify.newCategory('PartyCogActivityPlayer')
def __init__(self, activity, toon, position, team):
self.activity = activity
self.position = position
self.toon = toon
self.team = team
self.netTimeSentToStartByHit = 0
self.kaboomTrack = None
self.locator = None
self.teamSpot = self.activity.getIndex(self.toon.doId, self.team)
splatName = 'splat-creampie'
self.splat = globalPropPool.getProp(splatName)
self.splat.setBillboardPointEye()
self.splatType = globalPropPool.getPropType(splatName)
self.pieHitSound = globalBattleSoundCache.getSound('AA_wholepie_only.ogg')
return
def destroy(self):
self.cleanUpIvals()
self.toon = None
self.locator = None
self.position = None
self.pieHitSound = None
self.splat = None
return
def cleanUpIvals(self):
if self.kaboomTrack is not None and self.kaboomTrack.isPlaying():
self.kaboomTrack.finish()
self.kaboomTrack = None
return
def faceForward(self):
self.toon.setH(0)
def setToonStartPosition(self, position):
self.position = position
def updateToonPosition(self):
self.toon.setPos(self.activity.root, self.position)
self.toon.setH(self.locator, 0.0)
def setTeam(self, team):
self.team = team
self.locator = self.activity.view.teamLocators[self.team]
self.teamSpot = self.activity.getIndex(self.toon.doId, self.team)
def entersActivity(self):
self.locator = self.activity.view.teamLocators[self.team]
def exitsActivity(self):
offset = 0
if self.teamSpot:
offset = 4.0 * self.teamSpot
self.toon.wrtReparentTo(render)
self.toon.setPos(self.locator, offset, -35.0, 0.0)
self.toon.setH(self.activity.root, 0.0)
self.locator = None
return
def enable(self):
if self.enabled:
return
self.toon.wrtReparentTo(self.locator)
self.enabled = True
def disable(self):
if not self.enabled:
return
self.toon.wrtReparentTo(render)
self.enabled = False
self.cleanUpIvals()
def hitBody(self):
points = PartyGlobals.CogActivityHitPoints
self.score += points
return points
def hitHead(self):
points = PartyGlobals.CogActivityHitPointsForHead
self.score += points
return points
def resetScore(self):
self.score = 0
def respondToPieHit(self, timestamp, pos):
if self.netTimeSentToStartByHit < timestamp:
self.__showSplat(pos)
if self.netTimeSentToStartByHit < timestamp:
self.netTimeSentToStartByHit = timestamp
else:
self.activity.notify.debug('PartyCogPlayer respondToPieHit self.netTimeSentToStartByHit = %s' % self.netTimeSentToStartByHit)
def __showSplat(self, position):
if self.kaboomTrack is not None and self.kaboomTrack.isPlaying():
self.kaboomTrack.finish()
if not self.pieHitSound:
self.notify.warning('Trying to play hit sound on destroyed player')
return
splatName = 'splat-creampie'
self.splat = globalPropPool.getProp(splatName)
self.splat.setBillboardPointEye()
self.splat.reparentTo(render)
self.splat.setPos(self.toon, position)
self.splat.setY(self.toon, bound(self.splat.getY(), self.toon.getHeight() / 2.0, position.getY()))
self.splat.setAlphaScale(1.0)
targetscale = 0.75
def setSplatAlpha(amount):
self.splat.setAlphaScale(amount)
self.kaboomTrack = Parallel(SoundInterval(self.pieHitSound, node=self.toon, volume=1.0, 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, fromData=1.0, toData=0.0, blendType='easeOut'))), Func(self.splat.cleanup), Func(self.splat.removeNode)))
self.kaboomTrack.start()
return
class MazeSuit(DirectObject):
COLL_SPHERE_NAME = 'MazeSuitSphere'
COLLISION_EVENT_NAME = 'MazeSuitCollision'
MOVE_IVAL_NAME = 'moveMazeSuit'
DIR_UP = 0
DIR_DOWN = 1
DIR_LEFT = 2
DIR_RIGHT = 3
oppositeDirections = [DIR_DOWN, DIR_UP, DIR_RIGHT, DIR_LEFT]
directionHs = [0, 180, 90, 270]
DEFAULT_SPEED = 4.0
SUIT_Z = 0.1
def __init__(
self,
serialNum,
maze,
randomNumGen,
cellWalkPeriod,
difficulty,
suitDnaName='f',
startTile=None,
ticFreq=MazeGameGlobals.SUIT_TIC_FREQ,
walkSameDirectionProb=MazeGameGlobals.WALK_SAME_DIRECTION_PROB,
walkTurnAroundProb=MazeGameGlobals.WALK_TURN_AROUND_PROB,
uniqueRandomNumGen=True,
walkAnimName=None):
self.serialNum = serialNum
self.maze = maze
if uniqueRandomNumGen:
self.rng = RandomNumGen(randomNumGen)
else:
self.rng = randomNumGen
self.difficulty = difficulty
self._walkSameDirectionProb = walkSameDirectionProb
self._walkTurnAroundProb = walkTurnAroundProb
self._walkAnimName = walkAnimName or 'walk'
self.suit = Suit.Suit()
d = SuitDNA.SuitDNA()
d.newSuit(suitDnaName)
self.suit.setDNA(d)
self.suit.nametag3d.stash()
self.suit.nametag.destroy()
if startTile is None:
defaultStartPos = MazeGameGlobals.SUIT_START_POSITIONS[
self.serialNum]
self.startTile = (defaultStartPos[0] * self.maze.width,
defaultStartPos[1] * self.maze.height)
else:
self.startTile = startTile
self.ticFreq = ticFreq
self.ticPeriod = int(cellWalkPeriod)
self.cellWalkDuration = float(self.ticPeriod) / float(self.ticFreq)
self.turnDuration = 0.6 * self.cellWalkDuration
return
def destroy(self):
self.suit.delete()
def uniqueName(self, str):
return str + ` (self.serialNum) `
def gameStart(self, gameStartTime):
self.gameStartTime = gameStartTime
self.initCollisions()
self.startWalkAnim()
self.occupiedTiles = [(self.nextTX, self.nextTY)]
n = 20
self.nextThinkTic = self.serialNum * self.ticFreq / n
self.fromPos = Point3(0, 0, 0)
self.toPos = Point3(0, 0, 0)
self.fromHpr = Point3(0, 0, 0)
self.toHpr = Point3(0, 0, 0)
self.moveIval = WaitInterval(1.0)
def gameEnd(self):
self.moveIval.pause()
del self.moveIval
self.shutdownCollisions()
self.suit.loop('neutral')
def initCollisions(self):
self.collSphere = CollisionSphere(0, 0, 0, 2.0)
self.collSphere.setTangible(0)
self.collNode = CollisionNode(self.uniqueName(self.COLL_SPHERE_NAME))
self.collNode.setIntoCollideMask(ToontownGlobals.WallBitmask)
self.collNode.addSolid(self.collSphere)
self.collNodePath = self.suit.attachNewNode(self.collNode)
self.collNodePath.hide()
self.accept(self.uniqueName('enter' + self.COLL_SPHERE_NAME),
self.handleEnterSphere)
def shutdownCollisions(self):
self.ignore(self.uniqueName('enter' + self.COLL_SPHERE_NAME))
del self.collSphere
self.collNodePath.removeNode()
del self.collNodePath
del self.collNode
def handleEnterSphere(self, collEntry):
messenger.send(self.COLLISION_EVENT_NAME, [self.serialNum])
def __getWorldPos(self, sTX, sTY):
wx, wy = self.maze.tile2world(sTX, sTY)
return Point3(wx, wy, self.SUIT_Z)
def onstage(self):
sTX = int(self.startTile[0])
sTY = int(self.startTile[1])
c = 0
lim = 0
toggle = 0
direction = 0
while not self.maze.isWalkable(sTX, sTY):
if 0 == direction:
sTX -= 1
elif 1 == direction:
sTY -= 1
elif 2 == direction:
sTX += 1
elif 3 == direction:
sTY += 1
c += 1
if c > lim:
c = 0
direction = (direction + 1) % 4
toggle += 1
if not toggle & 1:
lim += 1
self.TX = sTX
self.TY = sTY
self.direction = self.DIR_DOWN
self.lastDirection = self.direction
self.nextTX = self.TX
self.nextTY = self.TY
self.suit.setPos(self.__getWorldPos(self.TX, self.TY))
self.suit.setHpr(self.directionHs[self.direction], 0, 0)
self.suit.reparentTo(render)
self.suit.pose(self._walkAnimName, 0)
self.suit.loop('neutral')
def offstage(self):
self.suit.reparentTo(hidden)
def startWalkAnim(self):
self.suit.loop(self._walkAnimName)
speed = float(self.maze.cellWidth) / self.cellWalkDuration
self.suit.setPlayRate(speed / self.DEFAULT_SPEED, self._walkAnimName)
def __applyDirection(self, dir, TX, TY):
if self.DIR_UP == dir:
TY += 1
elif self.DIR_DOWN == dir:
TY -= 1
elif self.DIR_LEFT == dir:
TX -= 1
elif self.DIR_RIGHT == dir:
TX += 1
return (TX, TY)
def __chooseNewWalkDirection(self, unwalkables):
if not self.rng.randrange(self._walkSameDirectionProb):
newTX, newTY = self.__applyDirection(self.direction, self.TX,
self.TY)
if self.maze.isWalkable(newTX, newTY, unwalkables):
return self.direction
if self.difficulty >= 0.5:
if not self.rng.randrange(self._walkTurnAroundProb):
oppositeDir = self.oppositeDirections[self.direction]
newTX, newTY = self.__applyDirection(oppositeDir, self.TX,
self.TY)
if self.maze.isWalkable(newTX, newTY, unwalkables):
return oppositeDir
candidateDirs = [
self.DIR_UP, self.DIR_DOWN, self.DIR_LEFT, self.DIR_RIGHT
]
candidateDirs.remove(self.oppositeDirections[self.direction])
while len(candidateDirs):
dir = self.rng.choice(candidateDirs)
newTX, newTY = self.__applyDirection(dir, self.TX, self.TY)
if self.maze.isWalkable(newTX, newTY, unwalkables):
return dir
candidateDirs.remove(dir)
return self.oppositeDirections[self.direction]
def getThinkTimestampTics(self, curTic):
if curTic < self.nextThinkTic:
return []
else:
r = range(self.nextThinkTic, curTic + 1, self.ticPeriod)
self.lastTicBeforeRender = r[-1]
return r
def prepareToThink(self):
self.occupiedTiles = [(self.nextTX, self.nextTY)]
def think(self, curTic, curT, unwalkables):
self.TX = self.nextTX
self.TY = self.nextTY
self.lastDirection = self.direction
self.direction = self.__chooseNewWalkDirection(unwalkables)
self.nextTX, self.nextTY = self.__applyDirection(
self.direction, self.TX, self.TY)
self.occupiedTiles = [(self.TX, self.TY), (self.nextTX, self.nextTY)]
if curTic == self.lastTicBeforeRender:
fromCoords = self.maze.tile2world(self.TX, self.TY)
toCoords = self.maze.tile2world(self.nextTX, self.nextTY)
self.fromPos.set(fromCoords[0], fromCoords[1], self.SUIT_Z)
self.toPos.set(toCoords[0], toCoords[1], self.SUIT_Z)
self.moveIval = LerpPosInterval(self.suit,
self.cellWalkDuration,
self.toPos,
startPos=self.fromPos,
name=self.uniqueName(
self.MOVE_IVAL_NAME))
if self.direction != self.lastDirection:
self.fromH = self.directionHs[self.lastDirection]
toH = self.directionHs[self.direction]
if self.fromH == 270 and toH == 0:
self.fromH = -90
elif self.fromH == 0 and toH == 270:
self.fromH = 360
self.fromHpr.set(self.fromH, 0, 0)
self.toHpr.set(toH, 0, 0)
turnIval = LerpHprInterval(
self.suit,
self.turnDuration,
self.toHpr,
startHpr=self.fromHpr,
name=self.uniqueName('turnMazeSuit'))
self.moveIval = Parallel(self.moveIval,
turnIval,
name=self.uniqueName(
self.MOVE_IVAL_NAME))
else:
self.suit.setH(self.directionHs[self.direction])
moveStartT = float(self.nextThinkTic) / float(self.ticFreq)
self.moveIval.start(curT - (moveStartT + self.gameStartTime))
self.nextThinkTic += self.ticPeriod
@staticmethod
def thinkSuits(suitList, startTime, ticFreq=MazeGameGlobals.SUIT_TIC_FREQ):
curT = globalClock.getFrameTime() - startTime
curTic = int(curT * float(ticFreq))
suitUpdates = []
for i in xrange(len(suitList)):
updateTics = suitList[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 = suitList[suitIndex]
if tic > curTic:
curTic = tic
j = i + 1
while j < len(suitUpdates):
if suitUpdates[j][0] > tic:
break
suitList[suitUpdates[j][1]].prepareToThink()
j += 1
unwalkables = []
for si in xrange(suitIndex):
unwalkables.extend(suitList[si].occupiedTiles)
for si in xrange(suitIndex + 1, len(suitList)):
unwalkables.extend(suitList[si].occupiedTiles)
suit.think(curTic, curT, unwalkables)
class DistributedPartyTugOfWarActivity(DistributedPartyTeamActivity):
notify = directNotify.newCategory('DistributedPartyTugOfWarActivity')
def __init__(self, cr):
DistributedPartyTeamActivity.__init__(self, cr, PartyGlobals.ActivityIds.PartyTugOfWar, startDelay=PartyGlobals.TugOfWarStartDelay)
self.buttons = [0, 1]
self.arrowKeys = None
self.keyTTL = []
self.idealRate = 0.0
self.keyRate = 0
self.allOutMode = False
self.rateMatchAward = 0.0
self.toonIdsToStartPositions = {}
self.toonIdsToIsPullingFlags = {}
self.toonIdsToRightHands = {}
self.fallenToons = []
self.fallenPositions = []
self.unusedFallenPositionsIndices = [0,
1,
2,
3]
self.toonIdsToAnimIntervals = {}
self.tugRopes = []
return
def generate(self):
DistributedPartyTeamActivity.generate(self)
self._hopOffFinishedSV = StateVar(True)
self._rewardFinishedSV = StateVar(True)
self._isWalkStateReadyFC = FunctionCall(self._testWalkStateReady, self._hopOffFinishedSV, self._rewardFinishedSV)
def delete(self):
self._isWalkStateReadyFC.destroy()
self._hopOffFinishedSV.destroy()
self._rewardFinishedSV.destroy()
DistributedPartyTeamActivity.delete(self)
def handleToonJoined(self, toonId):
DistributedPartyTeamActivity.handleToonJoined(self, toonId)
self.toonIdsToAnimIntervals[toonId] = None
if toonId == base.localAvatar.doId:
base.cr.playGame.getPlace().fsm.request('activity')
camera.wrtReparentTo(self.root)
self.cameraMoveIval = LerpPosHprInterval(camera, 1.5, PartyGlobals.TugOfWarCameraPos, PartyGlobals.TugOfWarCameraInitialHpr, other=self.root)
self.cameraMoveIval.start()
self.localToonPosIndex = self.getIndex(base.localAvatar.doId, self.localToonTeam)
self.notify.debug('posIndex: %d' % self.localToonPosIndex)
toon = self.getAvatar(toonId)
targetPos = self.dockPositions[self.localToonTeam][self.localToonPosIndex]
if toon.getZ(self.root) < PartyGlobals.TugOfWarToonPositionZ:
toon.setZ(self.root, PartyGlobals.TugOfWarToonPositionZ)
targetH = fitDestAngle2Src(toon.getH(self.root), PartyGlobals.TugOfWarHeadings[self.localToonTeam])
travelVector = targetPos - toon.getPos(self.root)
duration = travelVector.length() / 5.0
if self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
self.toonIdsToAnimIntervals[toonId] = Sequence(Func(toon.startPosHprBroadcast, 0.1), Func(toon.b_setAnimState, 'run'), LerpPosHprInterval(toon, duration, targetPos, VBase3(targetH, 0.0, 0.0), other=self.root), Func(toon.stopPosHprBroadcast), Func(toon.b_setAnimState, 'neutral'))
self.toonIdsToAnimIntervals[toonId].start()
return
def handleToonExited(self, toonId):
DistributedPartyTeamActivity.handleToonExited(self, toonId)
if toonId == base.localAvatar.doId:
self.cameraMoveIval.pause()
if toonId not in self.fallenToons:
if toonId in self.toonIdsToAnimIntervals and self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
toon = self.getAvatar(toonId)
targetH = fitDestAngle2Src(toon.getH(self.root), 180.0)
targetPos = self.hopOffPositions[self.getTeam(toonId)][self.getIndex(toonId, self.getTeam(toonId))]
hopOffAnim = Sequence(Func(toon.startPosHprBroadcast, 0.1), toon.hprInterval(0.2, VBase3(targetH, 0.0, 0.0), other=self.root), Func(toon.b_setAnimState, 'jump', 1.0), Wait(0.4), PartyUtils.arcPosInterval(0.75, toon, targetPos, 5.0, self.root), Func(toon.stopPosHprBroadcast), Func(toon.sendCurrentPosition), Func(self.hopOffFinished, toonId))
self.toonIdsToAnimIntervals[toonId] = hopOffAnim
self._hopOffFinishedSV.set(False)
self.toonIdsToAnimIntervals[toonId].start()
else:
self._hopOffFinishedSV.set(True)
del self.toonIdsToAnimIntervals[toonId]
return
def handleRewardDone(self):
self._rewardFinishedSV.set(True)
def _testWalkStateReady(self, hoppedOff, rewardFinished):
if hoppedOff and rewardFinished:
DistributedPartyTeamActivity.handleRewardDone(self)
def hopOffFinished(self, toonId):
if hasattr(self, 'toonIdsToAnimIntervals') and toonId in self.toonIdsToAnimIntervals:
del self.toonIdsToAnimIntervals[toonId]
if toonId == base.localAvatar.doId:
if hasattr(self._hopOffFinishedSV, '_value'):
self._hopOffFinishedSV.set(True)
def handleToonShifted(self, toonId):
if toonId == base.localAvatar.doId:
self.localToonPosIndex = self.getIndex(base.localAvatar.doId, self.localToonTeam)
if self.toonIdsToAnimIntervals[toonId] is not None:
self.toonIdsToAnimIntervals[toonId].finish()
toon = self.getAvatar(toonId)
targetPos = self.dockPositions[self.localToonTeam][self.localToonPosIndex]
self.toonIdsToAnimIntervals[toonId] = Sequence(Wait(0.6), Func(toon.startPosHprBroadcast, 0.1), Func(toon.b_setAnimState, 'run'), toon.posInterval(0.5, targetPos, other=self.root), Func(toon.stopPosHprBroadcast), Func(toon.b_setAnimState, 'neutral'))
self.toonIdsToAnimIntervals[toonId].start()
return
def handleToonDisabled(self, toonId):
if self.toonIdsToAnimIntervals.has_key(toonId):
if self.toonIdsToAnimIntervals[toonId]:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
else:
self.notify.debug('self.toonIdsToAnimIntervals[%d] is none' % toonId)
def setToonsPlaying(self, leftTeamToonIds, rightTeamToonIds):
DistributedPartyTeamActivity.setToonsPlaying(self, leftTeamToonIds, rightTeamToonIds)
self.toonIdsToRightHands.clear()
for toonId in self.getToonIdsAsList():
toon = self.getAvatar(toonId)
if toon:
self.toonIdsToRightHands[toonId] = toon.getRightHands()[0]
def load(self):
DistributedPartyTeamActivity.load(self)
self.loadModels()
self.loadGuiElements()
self.loadSounds()
self.loadIntervals()
self.arrowKeys = ArrowKeys()
def loadModels(self):
self.playArea = loader.loadModel('phase_13/models/parties/partyTugOfWar')
self.playArea.reparentTo(self.root)
self.sign.reparentTo(self.playArea.find('**/TugOfWar_sign_locator'))
self.dockPositions = [[], []]
for i in xrange(4):
self.dockPositions[0].append(Point3(-PartyGlobals.TugOfWarInitialToonPositionsXOffset - PartyGlobals.TugOfWarToonPositionXSeparation * i, 0.0, PartyGlobals.TugOfWarToonPositionZ))
for i in xrange(4):
self.dockPositions[1].append(Point3(PartyGlobals.TugOfWarInitialToonPositionsXOffset + PartyGlobals.TugOfWarToonPositionXSeparation * i, 0.0, PartyGlobals.TugOfWarToonPositionZ))
self.hopOffPositions = [[], []]
for i in xrange(1, 5):
self.hopOffPositions[PartyGlobals.TeamActivityTeams.LeftTeam].append(self.playArea.find('**/leftTeamHopOff%d_locator' % i).getPos())
self.hopOffPositions[PartyGlobals.TeamActivityTeams.RightTeam].append(self.playArea.find('**/rightTeamHopOff%d_locator' % i).getPos())
for i in xrange(1, 5):
pos = self.playArea.find('**/fallenToon%d_locator' % i).getPos()
self.fallenPositions.append(pos)
self.joinCollision = []
self.joinCollisionNodePaths = []
for i in xrange(len(PartyGlobals.TeamActivityTeams)):
collShape = CollisionTube(PartyGlobals.TugOfWarJoinCollisionEndPoints[0], PartyGlobals.TugOfWarJoinCollisionEndPoints[1], PartyGlobals.TugOfWarJoinCollisionRadius)
collShape.setTangible(True)
self.joinCollision.append(CollisionNode('TugOfWarJoinCollision%d' % i))
self.joinCollision[i].addSolid(collShape)
tubeNp = self.playArea.attachNewNode(self.joinCollision[i])
tubeNp.node().setCollideMask(ToontownGlobals.WallBitmask)
self.joinCollisionNodePaths.append(tubeNp)
self.joinCollisionNodePaths[i].setPos(PartyGlobals.TugOfWarJoinCollisionPositions[i])
self.__enableCollisions()
ropeModel = loader.loadModel('phase_4/models/minigames/tug_of_war_rope')
self.ropeTexture = ropeModel.findTexture('*')
ropeModel.removeNode()
for i in xrange(PartyGlobals.TugOfWarMaximumPlayersPerTeam * 2 - 1):
rope = Rope(self.uniqueName('TugRope%d' % i))
if rope.showRope:
rope.ropeNode.setRenderMode(RopeNode.RMBillboard)
rope.ropeNode.setThickness(0.2)
rope.setTexture(self.ropeTexture)
rope.ropeNode.setUvMode(RopeNode.UVDistance)
rope.ropeNode.setUvDirection(1)
rope.setTransparency(1)
rope.setColor(0.89, 0.89, 0.6, 1.0)
rope.reparentTo(self.root)
rope.stash()
self.tugRopes.append(rope)
self.splash = Splash.Splash(self.root)
self.splash.setScale(2.0, 4.0, 1.0)
pos = self.fallenPositions[0]
self.splash.setPos(pos[0], pos[1], PartyGlobals.TugOfWarSplashZOffset)
self.splash.hide()
def loadGuiElements(self):
self.powerMeter = MinigamePowerMeter(PartyGlobals.TugOfWarPowerMeterSize)
self.powerMeter.reparentTo(aspect2d)
self.powerMeter.setPos(0.0, 0.0, 0.6)
self.powerMeter.hide()
self.arrows = [None] * 2
for x in xrange(len(self.arrows)):
self.arrows[x] = loader.loadModel('phase_3/models/props/arrow')
self.arrows[x].reparentTo(self.powerMeter)
self.arrows[x].setScale(0.2 - 0.4 * x, 0.2, 0.2)
self.arrows[x].setPos(0.12 - 0.24 * x, 0, -.26)
return
def loadSounds(self):
self.splashSound = base.loadSfx('phase_4/audio/sfx/MG_cannon_splash.ogg')
self.whistleSound = base.loadSfx('phase_4/audio/sfx/AA_sound_whistle.ogg')
def loadIntervals(self):
self.updateIdealRateInterval = Sequence()
self.updateIdealRateInterval.append(Wait(PartyGlobals.TugOfWarTargetRateList[0][0]))
for i in xrange(1, len(PartyGlobals.TugOfWarTargetRateList)):
duration = PartyGlobals.TugOfWarTargetRateList[i][0]
idealRate = PartyGlobals.TugOfWarTargetRateList[i][1]
self.updateIdealRateInterval.append(Func(self.setIdealRate, idealRate))
if i == len(PartyGlobals.TugOfWarTargetRateList) - 1:
self.updateIdealRateInterval.append(Func(setattr, self, 'allOutMode', True))
else:
self.updateIdealRateInterval.append(Wait(duration))
self.updateKeyPressRateInterval = Sequence(Wait(PartyGlobals.TugOfWarKeyPressUpdateRate), Func(self.updateKeyPressRate))
self.reportToServerInterval = Sequence(Wait(PartyGlobals.TugOfWarKeyPressReportRate), Func(self.reportToServer))
self.setupInterval = Parallel()
self.globalSetupInterval = Sequence(Wait(PartyGlobals.TugOfWarReadyDuration + PartyGlobals.TugOfWarGoDuration), Func(self.tightenRopes))
self.localSetupInterval = Sequence(Func(self.setStatus, TTLocalizer.PartyTugOfWarReady), Func(self.showStatus), Wait(PartyGlobals.TugOfWarReadyDuration), Func(base.playSfx, self.whistleSound), Func(self.setStatus, TTLocalizer.PartyTugOfWarGo), Wait(PartyGlobals.TugOfWarGoDuration), Func(self.enableKeys), Func(self.hideStatus), Func(self.updateIdealRateInterval.start), Func(self.updateKeyPressRateInterval.loop), Func(self.reportToServerInterval.loop))
self.splashInterval = Sequence(Func(base.playSfx, self.splashSound), Func(self.splash.play))
def unload(self):
DistributedPartyTeamActivity.unload(self)
self.arrowKeys.destroy()
self.unloadIntervals()
self.unloadModels()
self.unloadGuiElements()
self.unloadSounds()
if hasattr(self, 'toonIds'):
del self.toonIds
del self.buttons
del self.arrowKeys
del self.keyTTL
del self.idealRate
del self.keyRate
del self.allOutMode
del self.rateMatchAward
del self.toonIdsToStartPositions
del self.toonIdsToIsPullingFlags
del self.toonIdsToRightHands
del self.fallenToons
del self.fallenPositions
del self.unusedFallenPositionsIndices
self.toonIdsToAnimIntervals.clear()
del self.toonIdsToAnimIntervals
def unloadModels(self):
self.playArea.removeNode()
del self.playArea
del self.dockPositions
del self.hopOffPositions
self.__disableCollisions()
while len(self.joinCollision) > 0:
collNode = self.joinCollision.pop()
del collNode
while len(self.joinCollisionNodePaths) > 0:
collNodePath = self.joinCollisionNodePaths.pop()
collNodePath.removeNode()
del collNodePath
while len(self.tugRopes) > 0:
rope = self.tugRopes.pop()
if rope is not None:
rope.removeNode()
del rope
del self.tugRopes
self.splash.destroy()
del self.splash
return
def unloadGuiElements(self):
for arrow in self.arrows:
if arrow is not None:
arrow.removeNode()
del arrow
del self.arrows
if self.powerMeter is not None:
self.powerMeter.cleanup()
del self.powerMeter
return
def unloadSounds(self):
del self.splashSound
del self.whistleSound
def unloadIntervals(self):
self.updateIdealRateInterval.pause()
del self.updateIdealRateInterval
self.updateKeyPressRateInterval.pause()
del self.updateKeyPressRateInterval
self.reportToServerInterval.pause()
del self.reportToServerInterval
self.setupInterval.pause()
del self.setupInterval
self.globalSetupInterval.pause()
del self.globalSetupInterval
self.localSetupInterval.pause()
del self.localSetupInterval
self.splashInterval.pause()
del self.splashInterval
def __enableCollisions(self):
for i in xrange(len(PartyGlobals.TeamActivityTeams)):
self.accept('enterTugOfWarJoinCollision%d' % i, getattr(self, '_join%s' % PartyGlobals.TeamActivityTeams.getString(i)))
def __disableCollisions(self):
for i in xrange(len(PartyGlobals.TeamActivityTeams)):
self.ignore('enterTugOfWarJoinCollision%d' % i)
def startWaitForEnough(self):
DistributedPartyTeamActivity.startWaitForEnough(self)
self.__enableCollisions()
def finishWaitForEnough(self):
DistributedPartyTeamActivity.finishWaitForEnough(self)
self.__disableCollisions()
def startWaitToStart(self, waitStartTimestamp):
DistributedPartyTeamActivity.startWaitToStart(self, waitStartTimestamp)
self.__enableCollisions()
def finishWaitToStart(self):
DistributedPartyTeamActivity.finishWaitToStart(self)
self.__disableCollisions()
def startRules(self):
DistributedPartyTeamActivity.startRules(self)
self.setUpRopes()
if self.isLocalToonPlaying:
self.showControls()
def finishRules(self):
DistributedPartyTeamActivity.finishRules(self)
if self.activityFSM.getCurrentOrNextState() == 'WaitForEnough':
self.hideRopes()
self.hideControls()
def finishWaitForServer(self):
DistributedPartyTeamActivity.finishWaitForServer(self)
if self.activityFSM.getCurrentOrNextState() == 'WaitForEnough':
self.hideRopes()
self.hideControls()
def startActive(self):
DistributedPartyTeamActivity.startActive(self)
self.toonIdsToStartPositions.clear()
self.toonIdsToIsPullingFlags.clear()
for toonId in self.getToonIdsAsList():
self.toonIdsToIsPullingFlags[toonId] = False
toon = self.getAvatar(toonId)
if toon:
self.toonIdsToStartPositions[toonId] = toon.getPos(self.root)
else:
self.notify.warning("couldn't find toon %d assigning 0,0,0 to startPos" % toonId)
self.toonIdsToStartPositions[toonId] = Point3(0, 0, 0)
self.unusedFallenPositionsIndices = [0,
1,
2,
3]
self.setupInterval = Parallel(self.globalSetupInterval)
if self.isLocalToonPlaying:
self.keyTTL = []
self.idealForce = 0.0
self.keyRate = 0
self.rateMatchAward = 0.0
self.allOutMode = False
self.setIdealRate(PartyGlobals.TugOfWarTargetRateList[0][1])
self.setupInterval.append(self.localSetupInterval)
self.setupInterval.start()
def finishActive(self):
DistributedPartyTeamActivity.finishActive(self)
self.hideControls()
self.disableKeys()
self.setupInterval.pause()
self.reportToServerInterval.pause()
self.updateKeyPressRateInterval.pause()
self.updateIdealRateInterval.pause()
self.hideRopes()
def startConclusion(self, losingTeam):
DistributedPartyTeamActivity.startConclusion(self, losingTeam)
if self.isLocalToonPlaying:
self._rewardFinishedSV.set(False)
if losingTeam == PartyGlobals.TeamActivityNeitherTeam:
self.setStatus(TTLocalizer.PartyTeamActivityGameTie)
else:
self.setStatus(TTLocalizer.PartyTugOfWarGameEnd)
self.showStatus()
if losingTeam == PartyGlobals.TeamActivityNeitherTeam:
for toonId in self.getToonIdsAsList():
if self.getAvatar(toonId):
self.getAvatar(toonId).loop('neutral')
else:
for toonId in self.toonIds[losingTeam]:
if self.getAvatar(toonId):
self.getAvatar(toonId).loop('neutral')
for toonId in self.toonIds[1 - losingTeam]:
if self.getAvatar(toonId):
self.getAvatar(toonId).loop('victory')
for ival in self.toonIdsToAnimIntervals.values():
if ival is not None:
ival.finish()
return
def finishConclusion(self):
DistributedPartyTeamActivity.finishConclusion(self)
self.fallenToons = []
def getTitle(self):
return TTLocalizer.PartyTugOfWarTitle
def getInstructions(self):
return TTLocalizer.TugOfWarInstructions
def showControls(self):
for arrow in self.arrows:
arrow.setColor(PartyGlobals.TugOfWarDisabledArrowColor)
self.powerMeter.setTarget(PartyGlobals.TugOfWarTargetRateList[0][1])
self.powerMeter.setPower(PartyGlobals.TugOfWarTargetRateList[0][1])
self.powerMeter.setBarColor((0.0, 1.0, 0.0, 0.5))
self.powerMeter.clearTooSlowTooFast()
self.powerMeter.show()
def hideControls(self):
self.powerMeter.hide()
def setUpRopes(self):
self.notify.debug('setUpRopes')
ropeIndex = 0
leftToonId = -1
if self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam]:
leftToonId = self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam][0]
rightToonId = -1
if self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam]:
rightToonId = self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam][0]
if leftToonId in self.toonIdsToRightHands and rightToonId in self.toonIdsToRightHands:
self.tugRopes[ropeIndex].setup(3, ((self.toonIdsToRightHands[leftToonId], (0, 0, 0)), (self.root, (0.0, 0.0, 2.5)), (self.toonIdsToRightHands[rightToonId], (0, 0, 0))), [0,
0,
0,
1,
1,
1])
self.tugRopes[ropeIndex].unstash()
ropeIndex += 1
teams = [PartyGlobals.TeamActivityTeams.LeftTeam, PartyGlobals.TeamActivityTeams.RightTeam]
for currTeam in teams:
numToons = len(self.toonIds[currTeam])
if numToons > 1:
for i in xrange(numToons - 1, 0, -1):
toon1 = self.toonIds[currTeam][i]
toon2 = self.toonIds[currTeam][i - 1]
if not self.toonIdsToRightHands.has_key(toon1):
self.notify.warning('Toon in tug of war activity but not properly setup: %s' % toon1)
elif not self.toonIdsToRightHands.has_key(toon2):
self.notify.warning('Toon in tug of war activity but not properly setup: %s' % toon2)
else:
self.notify.debug('Connecting rope between toon %d and toon %d of team %d.' % (i, i - 1, currTeam))
self.tugRopes[ropeIndex].setup(3, ((self.toonIdsToRightHands[toon1], (0, 0, 0)), (self.toonIdsToRightHands[toon1], (0, 0, 0)), (self.toonIdsToRightHands[toon2], (0, 0, 0))), [0,
0,
0,
1,
1,
1])
self.tugRopes[ropeIndex].unstash()
ropeIndex += 1
def tightenRopes(self):
self.notify.debug('tightenRopes')
self.tugRopes[0].setup(3, ((self.toonIdsToRightHands[self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam][0]], (0, 0, 0)), (self.toonIdsToRightHands[self.toonIds[PartyGlobals.TeamActivityTeams.LeftTeam][0]], (0, 0, 0)), (self.toonIdsToRightHands[self.toonIds[PartyGlobals.TeamActivityTeams.RightTeam][0]], (0, 0, 0))), [0,
0,
0,
1,
1,
1])
def hideRopes(self):
self.notify.debug('hideRopes')
for rope in self.tugRopes:
rope.stash()
def handleGameTimerExpired(self):
self.disableKeys()
def setIdealRate(self, idealRate):
self.notify.debug('setIdealRate( %d )' % idealRate)
self.idealRate = idealRate
self.idealForce = self.advantage * (4 + 0.4 * self.idealRate)
def updateKeyPressRate(self):
for i in xrange(len(self.keyTTL)):
self.keyTTL[i] -= PartyGlobals.TugOfWarKeyPressUpdateRate
for i in xrange(len(self.keyTTL)):
if self.keyTTL[i] <= 0.0:
a = self.keyTTL[0:i]
del self.keyTTL
self.keyTTL = a
break
self.keyRate = len(self.keyTTL)
if self.keyRate == self.idealRate or self.keyRate == self.idealRate + 1:
self.rateMatchAward += 0.3
else:
self.rateMatchAward = 0.0
def reportToServer(self):
self.currentForce = self.computeForce(self.keyRate)
self.sendUpdate('reportKeyRateForce', [self.keyRate, self.currentForce])
self.setSpeedGauge()
self.setAnimState(base.localAvatar.doId, self.keyRate)
def computeForce(self, keyRate):
F = 0
if self.allOutMode:
F = 0.75 * keyRate
else:
stdDev = 0.25 * self.idealRate
F = self.advantage * (self.rateMatchAward + 4 + 0.4 * self.idealRate) * math.pow(math.e, -math.pow(keyRate - self.idealRate, 2) / (2.0 * math.pow(stdDev, 2)))
return F
def setSpeedGauge(self):
self.powerMeter.setPower(self.keyRate)
self.powerMeter.setTarget(self.idealRate)
if not self.allOutMode:
self.powerMeter.updateTooSlowTooFast()
index = float(self.currentForce) / self.idealForce
bonus = 0.0
if index > 1.0:
bonus = max(1.0, index - 1.0)
index = 1.0
color = (0,
0.75 * index + 0.25 * bonus,
0.75 * (1 - index),
0.5)
self.powerMeter.setBarColor(color)
else:
self.powerMeter.setBarColor((0.0, 1.0, 0.0, 0.5))
def updateToonKeyRate(self, toonId, keyRate):
if toonId != base.localAvatar.doId:
self.setAnimState(toonId, keyRate)
def setAnimState(self, toonId, keyRate):
if self.activityFSM.state != 'Active':
return
toon = self.getAvatar(toonId)
if not self.toonIdsToIsPullingFlags.has_key(toonId):
if self.getTeam(toonId) == None:
self.notify.warning("setAnimState called with toonId (%d) that wasn't in self.toonIds" % toonId)
return
else:
self.notify.warning('setAnimState called with toonId (%d) that was in self.toonIds but not in self.toonIdsToIsPullingFlags. Adding it.' % toonId)
self.toonIdsToIsPullingFlags[toonId] = False
if keyRate > 0 and not self.toonIdsToIsPullingFlags[toonId]:
if toon:
toon.loop('tug-o-war')
else:
self.notify.warning('toon %d is None, skipping toon.loop(tugowar)' % toonId)
self.toonIdsToIsPullingFlags[toonId] = True
if keyRate <= 0 and self.toonIdsToIsPullingFlags[toonId]:
if toon:
toon.pose('tug-o-war', 3)
toon.startLookAround()
else:
self.notify.warning('toon %d is None, skipping toon.startLookAround' % toonId)
self.toonIdsToIsPullingFlags[toonId] = False
return
def enableKeys(self):
self.notify.debug('enableKeys')
self.arrowKeys.setPressHandlers([lambda : self.__pressHandler(2),
lambda : self.__pressHandler(3),
lambda : self.__pressHandler(1),
lambda : self.__pressHandler(0)])
self.arrowKeys.setReleaseHandlers([lambda : self.__releaseHandler(2),
lambda : self.__releaseHandler(3),
lambda : self.__releaseHandler(1),
lambda : self.__releaseHandler(0)])
for arrow in self.arrows:
arrow.setColor(PartyGlobals.TugOfWarEnabledArrowColor)
def disableKeys(self):
self.arrowKeys.setPressHandlers(self.arrowKeys.NULL_HANDLERS)
self.arrowKeys.setReleaseHandlers(self.arrowKeys.NULL_HANDLERS)
def __pressHandler(self, index):
if index == self.buttons[0]:
self.arrows[index].setColor(PartyGlobals.TugOfWarHilightedArrowColor)
self.keyTTL.insert(0, PartyGlobals.TugOfWarKeyPressTimeToLive)
self.buttons.reverse()
def __releaseHandler(self, index):
if index in self.buttons:
self.arrows[index].setColor(PartyGlobals.TugOfWarEnabledArrowColor)
def updateToonPositions(self, offset):
if self.activityFSM.state != 'Active':
return
if self.isLocalToonPlaying:
camera.lookAt(self.root, offset, 0.0, PartyGlobals.TugOfWarCameraLookAtHeightOffset)
for toonId in self.getToonIdsAsList():
if hasattr(self, 'fallenToons') and toonId not in self.fallenToons:
toon = self.getAvatar(toonId)
if toon is not None:
origPos = self.toonIdsToStartPositions[toonId]
curPos = toon.getPos(self.root)
newPos = Point3(origPos[0] + offset, curPos[1], curPos[2])
if self.toonIdsToAnimIntervals[toonId] != None:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
self.checkIfFallen(toonId)
if toonId not in self.fallenToons:
self.toonIdsToAnimIntervals[toonId] = Sequence(LerpPosInterval(toon, duration=PartyGlobals.TugOfWarKeyPressReportRate, pos=newPos, other=self.root), Func(self.checkIfFallen, toonId))
self.toonIdsToAnimIntervals[toonId].start()
return
def checkIfFallen(self, toonId):
if hasattr(self, 'fallenToons') and toonId not in self.fallenToons:
toon = self.getAvatar(toonId)
if toon:
curPos = toon.getPos(self.root)
team = self.getTeam(toonId)
if team == PartyGlobals.TeamActivityTeams.LeftTeam and curPos[0] > -2.0 or team == PartyGlobals.TeamActivityTeams.RightTeam and curPos[0] < 2.0:
losingTeam = self.getTeam(toonId)
self.throwTeamInWater(losingTeam)
self.sendUpdate('reportFallIn', [losingTeam])
def throwTeamInWater(self, losingTeam):
self.notify.debug('throwTeamInWater( %s )' % PartyGlobals.TeamActivityTeams.getString(losingTeam))
splashSet = False
for toonId in self.toonIds[losingTeam]:
self.fallenToons.append(toonId)
toon = self.getAvatar(toonId)
fallenPosIndex = self.toonIds[losingTeam].index(toonId)
if fallenPosIndex < 0 or fallenPosIndex >= 4:
fallenPosIndex = 0
newPos = self.fallenPositions[fallenPosIndex]
if self.toonIdsToAnimIntervals.has_key(toonId) and self.toonIdsToAnimIntervals[toonId] is not None:
if self.toonIdsToAnimIntervals[toonId].isPlaying():
self.toonIdsToAnimIntervals[toonId].finish()
if toon:
parallel = Parallel(ActorInterval(actor=toon, animName='slip-forward', duration=2.0), LerpPosInterval(toon, duration=2.0, pos=newPos, other=self.root))
else:
self.notify.warning('toon %d is none, skipping slip-forward' % toonId)
parallel = Parallel()
if not splashSet:
splashSet = True
parallel.append(self.splashInterval)
if toon:
self.toonIdsToAnimIntervals[toonId] = Sequence(parallel, Func(toon.loop, 'neutral'))
else:
self.notify.warning('toon %d is none, skipping toon.loop(neutral)' % toonId)
self.toonIdsToAnimIntervals[toonId] = parallel
self.toonIdsToAnimIntervals[toonId].start()
return
def setAdvantage(self, advantage):
DistributedPartyTeamActivity.setAdvantage(self, advantage)
if self.isLocalToonPlaying:
self.setIdealRate(PartyGlobals.TugOfWarTargetRateList[0][1])
class DistributedPartyDanceActivityBase(DistributedPartyActivity):
notify = directNotify.newCategory("DistributedPartyDanceActivity")
def __init__(self, cr, actId, dancePatternToAnims):
DistributedPartyActivity.__init__(self, cr, actId,
ActivityTypes.Continuous)
self.danceFloor = None
self.localToonDancing = False
self.keyCodes = None
self.gui = None
self.currentCameraMode = None
self.orthoWalk = None
self.cameraParallel = None
self.localToonDanceSequence = None
self.localPatternsMatched = []
self.dancePatternToAnims = dancePatternToAnims
# Map of toonIds to PartyDanceActivityToonFSMs
self.dancingToonFSMs = {}
def generateInit(self):
self.notify.debug("generateInit")
DistributedPartyActivity.generateInit(self)
self.keyCodes = KeyCodes(
patterns=list(self.dancePatternToAnims.keys()))
self.gui = KeyCodesGui(self.keyCodes)
self.__initOrthoWalk()
self.activityFSM = DanceActivityFSM(self)
def announceGenerate(self):
DistributedPartyActivity.announceGenerate(self)
self.activityFSM.request("Active")
def load(self):
"""
Loads the dance floor and place it in the right spot.
"""
DistributedPartyActivity.load(self)
self.danceFloor = loader.loadModel(
"phase_13/models/parties/danceFloor")
self.danceFloor.reparentTo(self.getParentNodePath())
self.danceFloor.setPos(self.x, self.y, 0.0)
self.danceFloor.setH(self.h)
# Reparent to render so that when the fireworks are on, it "glows" in the dark
self.danceFloor.wrtReparentTo(render)
self.sign.setPos(22, -22, 0)
# Initialize programatic animation sequences
floor = self.danceFloor.find("**/danceFloor_mesh")
self.danceFloorSequence = Sequence(Wait(0.3),
Func(floor.setH, floor, 36))
# Spin the ball around while bobbing up and down
# (since it's being held by balloons!)
# spinning the disco ball moved to the child classes,
# to deal with 10 and 20 on the ball
discoBall = self.danceFloor.find("**/discoBall_mesh")
self.discoBallSequence = Parallel(
discoBall.hprInterval(6.0, Vec3(360, 0, 0)),
Sequence(
discoBall.posInterval(3,
Point3(0, 0, 1),
blendType="easeInOut"),
discoBall.posInterval(3,
Point3(0, 0, 0),
blendType="easeInOut")),
)
def unload(self):
"""
Unloads the dance floor.
"""
DistributedPartyActivity.unload(self)
self.activityFSM.request("Disabled")
if self.localToonDanceSequence is not None:
self.localToonDanceSequence.finish()
if self.localToonDancing:
self.__localStopDancing()
self.ignoreAll()
if self.discoBallSequence is not None:
self.discoBallSequence.finish()
if self.danceFloorSequence is not None:
self.danceFloorSequence.finish()
del self.danceFloorSequence
del self.discoBallSequence
del self.localToonDanceSequence
if self.danceFloor is not None:
self.danceFloor.removeNode()
self.danceFloor = None
self.__destroyOrthoWalk()
for toonId in list(self.dancingToonFSMs.keys()):
self.dancingToonFSMs[toonId].destroy()
del self.dancingToonFSMs[toonId]
del self.dancingToonFSMs
del self.cameraParallel
del self.currentCameraMode
if self.keyCodes is not None:
self.keyCodes.destroy()
del self.keyCodes
del self.activityFSM
del self.gui
del self.localPatternsMatched
def handleToonDisabled(self, toonId):
"""This will be called if an avatar exits unexpectedly"""
self.notify.debug("handleToonDisabled avatar " + str(toonId) +
" disabled")
# clean up any references to the disabled avatar before he disappears
if toonId in self.dancingToonFSMs:
self.dancingToonFSMs[toonId].request("cleanup")
self.dancingToonFSMs[toonId].destroy()
del self.dancingToonFSMs[toonId]
def getTitle(self):
self.notify.warning("define title for this dance activity")
return TTLocalizer.PartyDanceActivityTitle
def getInstructions(self):
self.notify.warning("define instructions for this dance activity")
return TTLocalizer.PartyDanceActivityInstructions
#===============================================================================
# FSM States
#===============================================================================
def startActive(self):
self.accept('enter' + DANCE_FLOOR_COLLISION,
self.__handleEnterDanceFloor)
self.accept('exit' + DANCE_FLOOR_COLLISION,
self.__handleExitDanceFloor)
self.danceFloorSequence.loop()
self.discoBallSequence.loop()
def finishActive(self):
pass
def startDisabled(self):
self.ignore('enter' + DANCE_FLOOR_COLLISION)
self.ignore('exit' + DANCE_FLOOR_COLLISION)
self.discoBallSequence.pause()
self.danceFloorSequence.pause()
def finishDisabled(self):
pass
#===============================================================================
# Ortho movement
#===============================================================================
# Orthowalk init/shutdown
def __initOrthoWalk(self):
"""
Initializes ortho walk movement for the local toon.
Orthowalk is movement where up is +y and right is +x in relation to the toon's parent
"""
self.notify.debug("Initialize Ortho Walk")
orthoDrive = OrthoDrive(
9.778
) # run speed = run frames (15) / fps (24fps) * avg. run speed (14.667 ft./s)
self.orthoWalk = OrthoWalk(orthoDrive, broadcast=True)
def __destroyOrthoWalk(self):
self.notify.debug("Destroy Ortho Walk")
self.orthoWalk.stop()
self.orthoWalk.destroy()
del self.orthoWalk
def __disableLocalControl(self):
self.orthoWalk.stop()
self.keyCodes.disable()
self.keyCodesGui.disable()
def __enableLocalControl(self):
self.orthWalk.start()
self.keyCodes.enable()
self.keyCodesGui.enable()
self.keyCodesGui.hideAll()
#===============================================================================
# Enter / Exit Dance Floor
#===============================================================================
def __handleEnterDanceFloor(self, collEntry):
"""
Triggered when the local toon enters the dance floor collision.
"""
if not self.isLocalToonInActivity() and not self.localToonDancing:
self.notify.debug("Toon enters dance floor collision area.")
place = base.cr.playGame.getPlace()
if place and hasattr(place, "fsm"):
place.fsm.request("activity")
self.d_toonJoinRequest()
place = base.cr.playGame.getPlace()
if place and hasattr(place, "fsm"):
place.fsm.request("activity")
def joinRequestDenied(self, reason):
DistributedPartyActivity.joinRequestDenied(self, reason)
self.showMessage(TTLocalizer.PartyActivityDefaultJoinDeny)
place = base.cr.playGame.getPlace()
if place and hasattr(place, "fsm"):
place.fsm.request("walk")
# Distributed (broadcast ram)
def setToonsPlaying(self, toonIds, toonHeadings):
"""
Overrides DistributedPartyActivity's setToonsPlaying because it needs
heading information for each toon.
"""
self.notify.debug("setToonsPlaying")
self.notify.debug("\ttoonIds: %s" % toonIds)
self.notify.debug("\ttoonHeadings: %s" % toonHeadings)
(exitedToons,
joinedToons) = self.getToonsPlayingChanges(self.toonIds, toonIds)
self.notify.debug("\texitedToons: %s" % exitedToons)
self.notify.debug("\tjoinedToons: %s" % joinedToons)
self.setToonIds(toonIds)
self._processExitedToons(exitedToons)
# Handle the joining toons
for toonId in joinedToons:
# Only trigger handleToonJoined if it isn't the local Toon
# or if the local Toon is joining this activity.
if (toonId != base.localAvatar.doId
or (toonId == base.localAvatar.doId
and self.isLocalToonRequestStatus(
PartyGlobals.ActivityRequestStatus.Joining))):
self._enableHandleToonDisabled(toonId)
self.handleToonJoined(toonId,
toonHeadings[toonIds.index(toonId)])
if toonId == base.localAvatar.doId:
self._localToonRequestStatus = None
def handleToonJoined(self, toonId, h):
"""
Called when toon is allowed to enter dance floor.
"""
self.notify.debug("handleToonJoined( toonId=%d, h=%.2f )" %
(toonId, h))
if toonId in base.cr.doId2do:
toonFSM = PartyDanceActivityToonFSM(toonId, self, h)
toonFSM.request("Init")
self.dancingToonFSMs[toonId] = toonFSM
if toonId == base.localAvatar.doId:
self.__localStartDancing(h)
def __localStartDancing(self, h):
"""
Local toon is entering dance floor. Listen for extra events and enable
ortho movement.
"""
if not self.localToonDancing:
place = base.cr.playGame.getPlace()
if place and hasattr(place, "fsm"):
self.localToonDancing = True
place.fsm.request("activity")
self.__updateLocalToonState(ToonDancingStates.Run)
self.__setViewMode(DanceViews.Dancing)
self.gui.load()
self.startRules()
self.__localEnableControls()
else:
self.notify.warning(
"__localStartDancing, failed in playGame.getPlace()")
def handleRulesDone(self):
self.finishRules()
def __localEnableControls(self):
if base.localAvatar.doId not in self.dancingToonFSMs:
self.notify.debug(
"no dancing FSM for local avatar, not enabling controls")
return
self.accept(KeyCodes.PATTERN_MATCH_EVENT, self.__doDanceMove)
self.accept(KeyCodes.PATTERN_NO_MATCH_EVENT, self.__noDanceMoveMatch)
self.acceptOnce(KeyCodes.KEY_DOWN_EVENT, self._handleKeyDown)
self.accept(KeyCodes.KEY_UP_EVENT, self._handleKeyUp)
self.keyCodes.enable()
self.orthoWalk.start()
self.gui.enable()
self.gui.hideAll()
def __localDisableControls(self):
self.orthoWalk.stop()
self.keyCodes.disable()
self.gui.disable()
self.ignore(KeyCodes.PATTERN_MATCH_EVENT)
self.ignore(KeyCodes.PATTERN_NO_MATCH_EVENT)
self.ignore(KeyCodes.KEY_DOWN_EVENT)
self.ignore(KeyCodes.KEY_UP_EVENT)
def __handleExitDanceFloor(self, collEntry):
"""
Triggered when the local toon exits the dance floor collision.
"""
if self.localToonDanceSequence is not None:
self.notify.debug("finishing %s" % self.localToonDanceSequence)
self.localToonDanceSequence.finish()
self.localToonDanceSequence = None
self.finishRules()
self.notify.debug("Toon exits dance floor collision area.")
self.d_toonExitRequest()
def exitRequestDenied(self, reason):
DistributedPartyActivity.exitRequestDenied(self, reason)
if reason != PartyGlobals.DenialReasons.SilentFail:
self.showMessage(TTLocalizer.PartyActivityDefaultExitDeny)
def handleToonExited(self, toonId):
"""
Stops the local toon from dancing.
Called when when the client gets an exit response from the server.
"""
self.notify.debug("exitDanceFloor %s" % toonId)
if toonId == base.localAvatar.doId:
self.__localStopDancing()
def __localStopDancing(self):
"""
Cleans up local dancing toon and broadcasts final state to all clients
"""
if self.localToonDancing:
self.__localDisableControls()
self.gui.unload()
self.__setViewMode(DanceViews.Normal)
self.__updateLocalToonState(ToonDancingStates.Cleanup)
if base.cr.playGame.getPlace():
if hasattr(base.cr.playGame.getPlace(), 'fsm'):
base.cr.playGame.getPlace().fsm.request("walk")
self.localToonDancing = False
#===============================================================================
# Dance!
#===============================================================================
def __doDanceMove(self, pattern):
"""
Handler called when there is a pattern match
"""
self.notify.debug("Dance move! %s" % pattern)
anim = self.dancePatternToAnims.get(pattern)
if anim:
self.__updateLocalToonState(ToonDancingStates.DanceMove, anim)
self.gui.setColor(0, 1, 0)
self.gui.showText(DanceAnimToName.get(anim, anim))
# Local toon just matched this pattern for the first time
# play fancier animation.
self.finishRules()
if pattern not in self.localPatternsMatched:
camNode = NodePath(self.uniqueName("danceCamNode"))
camNode.reparentTo(base.localAvatar)
camNode.lookAt(camera)
camNode.setHpr(camNode.getH(), 0, 0)
node2 = NodePath("tempCamNode")
node2.reparentTo(camNode)
node2.setPos(Point3(0, 15, 10))
node2.lookAt(camNode)
h = node2.getH() * (camera.getH(camNode) /
abs(camera.getH(camNode)))
node2.removeNode
del node2
hpr = camera.getHpr()
pos = camera.getPos()
camParent = camera.getParent()
camera.wrtReparentTo(camNode)
self.localToonDanceSequence = Sequence(
Func(self.__localDisableControls),
Parallel(
camera.posInterval(0.5,
Point3(0, 15, 10),
blendType="easeIn"),
camera.hprInterval(0.5,
Point3(h, -20, 0),
blendType="easeIn"),
),
camNode.hprInterval(4.0, Point3(camNode.getH() - 360, 0,
0)),
Func(camera.wrtReparentTo, camParent),
Func(camNode.removeNode),
Parallel(camera.posInterval(0.5, pos, blendType="easeOut"),
camera.hprInterval(0.5, hpr,
blendType="easeOut")),
Func(self.__localEnableControls))
else:
self.localToonDanceSequence = Sequence(
Func(self.__localDisableControls),
Wait(2.0),
Func(self.__localEnableControls),
)
self.localToonDanceSequence.start()
self.localPatternsMatched.append(pattern)
def __noDanceMoveMatch(self):
"""
Called when a match fails.
"""
self.gui.setColor(1, 0, 0)
self.gui.showText("No Match!")
self.__updateLocalToonState(ToonDancingStates.DanceMove)
self.localToonDanceSequence = Sequence(
Func(self.__localDisableControls),
Wait(1.0),
Func(self.__localEnableControls),
)
self.localToonDanceSequence.start()
def _handleKeyDown(self, key, index):
"""
Called when a key in KeyCodes is pressed down.
"""
self.__updateLocalToonState(ToonDancingStates.Run)
def _handleKeyUp(self, key):
"""
Called when a key in KeyCodes is pressed up.
"""
if not self.keyCodes.isAnyKeyPressed():
self.__updateLocalToonState(ToonDancingStates.DanceMove)
self.acceptOnce(KeyCodes.KEY_DOWN_EVENT, self._handleKeyDown)
#===============================================================================
# Dancing Toon State
#===============================================================================
def __updateLocalToonState(self, state, anim=""):
"""
Sets the dancing toon's local and remote fsm. This is done immediately
in the local side, while the state is sent to the AI for the other clients.
"""
self._requestToonState(base.localAvatar.doId, state, anim)
self.d_updateDancingToon(state, anim)
# Distributed (clsend airecv)
def d_updateDancingToon(self, state, anim):
self.sendUpdate("updateDancingToon", [state, anim])
# Distributed (broadcast ram)
def setDancingToonState(self, toonId, state, anim):
"""
From AI, it sets a dancing toon's FSM
"""
if toonId != base.localAvatar.doId and toonId in self.dancingToonFSMs:
self._requestToonState(toonId, state, anim)
def _requestToonState(self, toonId, state, anim):
if toonId in self.dancingToonFSMs:
state = ToonDancingStates.getString(state)
curState = self.dancingToonFSMs[toonId].getCurrentOrNextState()
assert (self.notify.debug(
"requestToonState toonId=%s, state=%s, anim=%s" %
(toonId, state, anim)))
try:
self.dancingToonFSMs[toonId].request(state, anim)
except FSM.RequestDenied:
self.notify.warning("could not go from state=%s to state %s" %
(curState, state))
if state == ToonDancingStates.getString(ToonDancingStates.Cleanup):
self.notify.debug("deleting this fsm %s" %
(self.dancingToonFSMs[toonId]))
del self.dancingToonFSMs[toonId]
# the local Toon dance sequence has camera reparents, which is bad if
# we're not in the dance floor anymore.
if self.localToonDanceSequence:
self.notify.debug(
"forcing a finish of localToonDanceSequence")
self.localToonDanceSequence.finish()
self.localToonDanceSequence = None
#===============================================================================
# Camera
#===============================================================================
def __setViewMode(self, mode):
"""
Changes the camera mode and controls according to the camera.
Called typically when toon enters/exits the dance floor.
"""
assert (self.notify.debug("Set camera mode to %d" % mode))
toon = base.localAvatar
if mode == DanceViews.Normal:
"""
if self.currentCameraMode == DanceViews.Isometric:
base.cam.node().setLens(self.clens)
"""
if self.cameraParallel is not None:
self.cameraParallel.pause()
self.cameraParallel = None
camera.reparentTo(toon)
base.localAvatar.startUpdateSmartCamera()
elif mode == DanceViews.Dancing:
base.localAvatar.stopUpdateSmartCamera()
camera.wrtReparentTo(self.danceFloor)
# Get the destination of the camera
# based on the orientation of the toon parent dance node.
node = NodePath("temp")
node.reparentTo(toon.getParent())
node.setPos(Point3(0, -40, 20))
node2 = NodePath("temp2")
node2.reparentTo(self.danceFloor)
node.reparentTo(node2)
node2.setH(render, toon.getParent().getH())
pos = node.getPos(self.danceFloor)
node2.removeNode()
node.removeNode()
self.cameraParallel = Parallel(
camera.posInterval(0.5, pos, blendType="easeIn"),
camera.hprInterval(0.5,
Point3(0, -27, 0),
other=toon.getParent(),
blendType="easeIn"))
self.cameraParallel.start()
"""
if mode == DanceViews.Isometric:
if not hasattr(self, 'olens'):
self.olens = OrthographicLens()
self.olens.setFilmSize(20, 15) # or whatever is appropriate for your scene
self.clens = base.cam.node().getLens()
base.cam.node().setLens(self.olens)
def handleF1Pressed(self):
if base.cam.node().getLens() == self.clens:
base.cam.node().setLens(self.olens)
else:
base.cam.node().setLens(self.clens)
self.accept('f1', handleF1Pressed)
"""
self.currentCameraMode = mode
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')
return
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)
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)
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.ogg')
self.upSound = globalBattleSoundCache.getSound('AV_jump_to_side.ogg')
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
return
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':
downAnimControl = self.actor.getAnimControl('down')
self.actor.pose('down', downAnimControl.getNumFrames() - 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)
return None
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)
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.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):
if self.netTimeSentToStartByHit < timestamp:
self.__showSplat(position, direction, hot)
if self.netTimeSentToStartByHit < timestamp:
self.netTimeSentToStartByHit = timestamp
else:
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()
return
def __showSplat(self, position, direction, hot=False):
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(PartyGlobals.CogActivitySplatColors[0])
if self.currentFacing > 0.0:
facing = 'HitFront'
else:
facing = 'HitBack'
else:
self.splat.setColorScale(PartyGlobals.CogActivitySplatColors[1])
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,
fromData=1.0,
toData=0.0,
blendType='easeOut'))),
Func(self.splat.cleanup), Func(self.splat.removeNode)))
self.kaboomTrack.start()
return
def showHitScore(self, number, scale=1):
if number <= 0:
return
if self.hpText:
self.hideHitScore()
self.HpTextGenerator.setFont(ToontownGlobals.getSignFont())
if number < 0:
self.HpTextGenerator.setText(str(number))
else:
self.HpTextGenerator.setText('+' + str(number))
self.HpTextGenerator.clearShadow()
self.HpTextGenerator.setAlign(TextNode.ACenter)
r = 1
g = 1
b = 0
a = 1
self.HpTextGenerator.setTextColor(r, g, b, a)
self.hpTextNode = self.HpTextGenerator.generate()
self.hpText = render.attachNewNode(self.hpTextNode)
self.hpText.setScale(scale)
self.hpText.setBillboardPointEye()
self.hpText.setBin('fixed', 100)
self.hpText.setPos(self.root, 0, 0, self.height / 2)
seq = Task.sequence(
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),
self.hpText.lerpColor(Vec4(r, g, b, a), Vec4(r, g, b, 0), 0.1),
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
return
def getHeadLocation(self):
self.actor.getJoints(jointName='head')[0].getNetTransform(
self.temp_transform)
self.head_locator.setMat(self.temp_transform)
return self.head_locator.getZ(self.root)
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')
return
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)
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)
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.ogg')
self.upSound = globalBattleSoundCache.getSound('AV_jump_to_side.ogg')
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
return
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':
downAnimControl = self.actor.getAnimControl('down')
self.actor.pose('down', downAnimControl.getNumFrames() - 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)
return None
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)
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.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):
if self.netTimeSentToStartByHit < timestamp:
self.__showSplat(position, direction, hot)
if self.netTimeSentToStartByHit < timestamp:
self.netTimeSentToStartByHit = timestamp
else:
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()
return
def __showSplat(self, position, direction, hot = False):
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(PartyGlobals.CogActivitySplatColors[0])
if self.currentFacing > 0.0:
facing = 'HitFront'
else:
facing = 'HitBack'
else:
self.splat.setColorScale(PartyGlobals.CogActivitySplatColors[1])
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, fromData=1.0, toData=0.0, blendType='easeOut'))), Func(self.splat.cleanup), Func(self.splat.removeNode)))
self.kaboomTrack.start()
return
def showHitScore(self, number, scale = 1):
if number <= 0:
return
if self.hpText:
self.hideHitScore()
self.HpTextGenerator.setFont(ToontownGlobals.getSignFont())
if number < 0:
self.HpTextGenerator.setText(str(number))
else:
self.HpTextGenerator.setText('+' + str(number))
self.HpTextGenerator.clearShadow()
self.HpTextGenerator.setAlign(TextNode.ACenter)
r = 1
g = 1
b = 0
a = 1
self.HpTextGenerator.setTextColor(r, g, b, a)
self.hpTextNode = self.HpTextGenerator.generate()
self.hpText = render.attachNewNode(self.hpTextNode)
self.hpText.setScale(scale)
self.hpText.setBillboardPointEye()
self.hpText.setBin('fixed', 100)
self.hpText.setPos(self.root, 0, 0, self.height / 2)
seq = Sequence(self.hpText.posInterval(0.25, Point3(self.root.getX(render), self.root.getY(render), self.root.getZ(render) + self.height + 1.0), blendType='easeOut'), Wait(0.25), self.hpText.colorInterval(0.1, Vec4(r, g, b, 0)), Func(self.__hideHitScore))
seq.start()
def hideHitScore(self):
if self.hpText:
taskMgr.remove('PartyCogHpText' + str(self.id))
self.hpText.removeNode()
self.hpText = None
return
def getHeadLocation(self):
self.actor.getJoints(jointName='head')[0].getNetTransform(self.temp_transform)
self.head_locator.setMat(self.temp_transform)
return self.head_locator.getZ(self.root)
class PartyCogActivityPlayer:
toon = None
position = None
team = None
score = 0
enabled = False
notify = DirectNotifyGlobal.directNotify.newCategory(
'PartyCogActivityPlayer')
def __init__(self, activity, toon, position, team):
self.activity = activity
self.position = position
self.toon = toon
self.team = team
self.netTimeSentToStartByHit = 0
self.kaboomTrack = None
self.locator = None
self.teamSpot = self.activity.getIndex(self.toon.doId, self.team)
splatName = 'splat-creampie'
self.splat = globalPropPool.getProp(splatName)
self.splat.setBillboardPointEye()
self.splatType = globalPropPool.getPropType(splatName)
self.pieHitSound = globalBattleSoundCache.getSound(
'AA_wholepie_only.mp3')
return
def destroy(self):
self.cleanUpIvals()
self.toon = None
self.locator = None
self.position = None
self.pieHitSound = None
self.splat = None
return
def cleanUpIvals(self):
if self.kaboomTrack is not None and self.kaboomTrack.isPlaying():
self.kaboomTrack.finish()
self.kaboomTrack = None
return
def faceForward(self):
self.toon.setH(0)
def setToonStartPosition(self, position):
self.position = position
def updateToonPosition(self):
self.toon.setPos(self.activity.root, self.position)
self.toon.setH(self.locator, 0.0)
def setTeam(self, team):
self.team = team
self.locator = self.activity.view.teamLocators[self.team]
self.teamSpot = self.activity.getIndex(self.toon.doId, self.team)
def entersActivity(self):
self.locator = self.activity.view.teamLocators[self.team]
def exitsActivity(self):
offset = 0
if self.teamSpot:
offset = 4.0 * self.teamSpot
self.toon.wrtReparentTo(render)
self.toon.setPos(self.locator, offset, -35.0, 0.0)
self.toon.setH(self.activity.root, 0.0)
self.locator = None
return
def enable(self):
if self.enabled:
return
self.toon.wrtReparentTo(self.locator)
self.enabled = True
def disable(self):
if not self.enabled:
return
self.toon.wrtReparentTo(render)
self.enabled = False
self.cleanUpIvals()
def hitBody(self):
points = PartyGlobals.CogActivityHitPoints
self.score += points
return points
def hitHead(self):
points = PartyGlobals.CogActivityHitPointsForHead
self.score += points
return points
def resetScore(self):
self.score = 0
def respondToPieHit(self, timestamp, pos):
if self.netTimeSentToStartByHit < timestamp:
self.__showSplat(pos)
if self.netTimeSentToStartByHit < timestamp:
self.netTimeSentToStartByHit = timestamp
else:
self.activity.notify.debug(
'PartyCogPlayer respondToPieHit self.netTimeSentToStartByHit = %s'
% self.netTimeSentToStartByHit)
def __showSplat(self, position):
if self.kaboomTrack is not None and self.kaboomTrack.isPlaying():
self.kaboomTrack.finish()
if not self.pieHitSound:
self.notify.warning('Trying to play hit sound on destroyed player')
return
splatName = 'splat-creampie'
self.splat = globalPropPool.getProp(splatName)
self.splat.setBillboardPointEye()
self.splat.reparentTo(render)
self.splat.setPos(self.toon, position)
self.splat.setY(
self.toon,
bound(self.splat.getY(),
self.toon.getHeight() / 2.0, position.getY()))
self.splat.setAlphaScale(1.0)
targetscale = 0.75
def setSplatAlpha(amount):
self.splat.setAlphaScale(amount)
self.kaboomTrack = Parallel(
SoundInterval(self.pieHitSound,
node=self.toon,
volume=1.0,
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,
fromData=1.0,
toData=0.0,
blendType='easeOut'))),
Func(self.splat.cleanup), Func(self.splat.removeNode)))
self.kaboomTrack.start()
return
class Parcial(ShowBase):
def __init__(self):
ShowBase.__init__(self)
self.disableMouse()
# Instrucciones en pantalla
self.Salir = addInstructions(.06, "[ESC]: Para Salir")
self.Camara = addInstructions(.12, "[A]: Para Mover Cabeza")
self.CabezaL = addInstructions(.18, "[S]: Para Mover Brazo Derecho")
self.CabezaL = addInstructions(.24, "[D]: Para Mover Brazo Izquierdo")
self.CaderaL = addInstructions(.30, "[F]: Para Mover Cadera")
self.CaderaL = addInstructions(.36, "[G]: Para Mover Tronco")
self.CaderaL = addInstructions(.42, "[H]: Para Girar")
self.CaderaL = addInstructions(.48, "[Z]: Cabeza Cadera")
self.CaderaL = addInstructions(.54, "[X]: Brazos")
self.CaderaL = addInstructions(.60, "[C]: Giro Tronco")
self.CaderaL = addInstructions(.66, "[V]: Todos a la vez")
# Carga de un Actor
self.Ralph = Actor("models/ralph", {
"run": "models/ralph-run",
"walk": "models/ralph-walk"
})
self.Ralph.setScale(.5, .5, .5)
self.Ralph.setPos(
0, 10,
-1) #(x -IZQ +DER ,y PROFUNDIDAD ,z +ARRIBA -ABAJO )
self.Ralph.reparentTo(self.render)
# Giro de ralph
self.GiroTotal = self.Ralph.hprInterval(1.5, Point3(0, 359, 0))
# Declaración de partes del cuerpo
self.Cabeza = self.Ralph.controlJoint(None, 'modelRoot', 'Neck')
self.BrazoDerecho = self.Ralph.controlJoint(None, 'modelRoot',
'RightShoulder')
self.BrazoIzquierdo = self.Ralph.controlJoint(None, 'modelRoot',
'LeftShoulder')
self.CaderaDerecha = self.Ralph.controlJoint(None, 'modelRoot',
'RightHip')
self.CaderaIzquierda = self.Ralph.controlJoint(None, 'modelRoot',
'LeftHip')
self.Tronco = self.Ralph.controlJoint(None, 'modelRoot', 'Chest')
# Movimiento de Cabeza
self.CabezaAbajo = self.Cabeza.hprInterval(0.5, Point3(0, 0, 0))
self.CabezaArriba = self.Cabeza.hprInterval(0.5, Point3(20, 0, 0))
# Movimientos de brazo derecho
self.BrazoDerechoAbajo = self.BrazoDerecho.hprInterval(
1.0, Point3(72.2059, 106.186, -45))
self.BrazoDerechoArriba = self.BrazoDerecho.hprInterval(
1.0, Point3(72.2059, 76.186, 6.02231))
# Movimientos de brazo izquierdo
self.BrazoIzquierdoAbajo = self.BrazoIzquierdo.hprInterval(
1.0, Point3(160.1401, -22.1706, 6.55722))
self.BrazoIzquierdoArriba = self.BrazoIzquierdo.hprInterval(
1.0, Point3(80.1401, -52.1706, 6.55722))
# Movimientos de cadera derecha
self.CaderaDerechaDerecha = self.CaderaDerecha.hprInterval(
0.5, Point3(4.9762, 0, 120))
self.CaderaDerechaNormal = self.CaderaDerecha.hprInterval(
0.5, Point3(4.9762, 0, 90))
# Movimientos de cadera derecha
self.CaderaIzquierdaIzquierda = self.CaderaIzquierda.hprInterval(
0.5, Point3(5.02118, -0.862563, 62.9857))
self.CaderaIzquierdaNormal = self.CaderaIzquierda.hprInterval(
0.5, Point3(5.02118, -0.862563, 92.9857))
# Movimientos del tronco
#self.Tronco.setHpr(0, 50, 0)
self.TroncoIzquierda = self.Tronco.hprInterval(0.5, Point3(0, 50, 0))
self.TroncoDerecha = self.Tronco.hprInterval(0.5, Point3(0, -50, 0))
self.TroncoNormal = self.Tronco.hprInterval(0.5, Point3(0, 0, 0))
# Secuencias de movimientos
self.MoverCabeza = Sequence(self.CabezaArriba, self.CabezaAbajo)
self.MoverBrazoDerecho = Sequence(self.BrazoDerechoAbajo,
self.BrazoDerechoArriba)
self.MoverBrazoIzquierdo = Sequence(self.BrazoIzquierdoAbajo,
self.BrazoIzquierdoArriba)
self.MoverCaderaDerechaIzquierda = Sequence(
self.CaderaDerechaDerecha, self.CaderaDerechaNormal,
self.CaderaIzquierdaIzquierda, self.CaderaIzquierdaNormal)
self.MoverTronco = Sequence(self.TroncoDerecha, self.TroncoNormal,
self.TroncoIzquierda)
self.Giro = Sequence(self.GiroTotal)
# Paralelos
self.CaderaCabeza = Parallel(self.MoverCabeza,
self.MoverCaderaDerechaIzquierda)
self.Brazos = Parallel(self.MoverBrazoDerecho,
self.MoverBrazoIzquierdo)
self.GiroTronco = Parallel(self.Giro, self.MoverTronco)
self.Todos = Parallel(self.MoverCabeza,
self.MoverCaderaDerechaIzquierda,
self.MoverBrazoDerecho, self.MoverBrazoIzquierdo,
self.Giro, self.MoverTronco)
self.accept("escape", sys.exit)
self.accept("a", self.eCabeza)
self.accept("s", self.eBrazoDerecho)
self.accept("d", self.eBrazoIzquierdo)
self.accept("f", self.eCadera)
self.accept("g", self.eTronco)
self.accept("h", self.eGiro)
self.accept("z", self.eCadCab)
self.accept("x", self.eBrazos)
self.accept("c", self.eGiroT)
self.accept("v", self.eTodos)
def eCabeza(self):
self.MoverCabeza.start()
def eBrazoDerecho(self):
self.MoverBrazoDerecho.start()
def eBrazoIzquierdo(self):
self.MoverBrazoIzquierdo.start()
def eCadera(self):
self.MoverCaderaDerechaIzquierda.start()
def eTronco(self):
self.MoverTronco.start()
def eGiro(self):
self.Giro.start()
def eCadCab(self):
self.CaderaCabeza.start()
def eBrazos(self):
self.Brazos.start()
def eGiroT(self):
self.GiroTronco.start()
def eTodos(self):
self.Todos.loop()
