from pandac.PandaModules import * from direct.directnotify import DirectNotifyGlobal from direct.interval.IntervalGlobal import * from direct.fsm.ClassicFSM import * from direct.fsm.State import * from direct.distributed.ClockDelta import globalClockDelta from otp.avatar import Avatar from direct.actor import Actor from direct.task import Task from toontown.pets import PetDNA from .PetDNA import HeadParts, EarParts, NoseParts, TailParts, BodyTypes, BodyTextures, AllPetColors, getColors, ColorScales, PetEyeColors, EarTextures, TailTextures, getFootTexture, getEarTexture, GiraffeTail, LeopardTail, PetGenders from toontown.toonbase import TTLocalizer from toontown.toonbase import ToontownGlobals from direct.showbase import PythonUtil import random Component2IconDict = {'boredom': 'Bored', 'restlessness': None, 'playfulness': 'Play', 'loneliness': 'Lonely', 'sadness': 'Sad', 'fatigue': 'Sleepy', 'hunger': 'Hungry', 'confusion': 'Confused', 'excitement': 'Surprised', 'anger': 'Angry', 'surprise': 'Surprised', 'affection': 'Love'} class Pet(Avatar.Avatar): notify = DirectNotifyGlobal.directNotify.newCategory('Pet') SerialNum = 0 Interactions = PythonUtil.Enum('SCRATCH, BEG, EAT, NEUTRAL') InteractAnims = {Interactions.SCRATCH: ('toPet', 'pet', 'fromPet'), Interactions.BEG: ('toBeg', 'beg', 'fromBeg'), Interactions.EAT: ('eat', 'swallow', 'neutral'), Interactions.NEUTRAL: 'neutral'} def __init__(self, forGui = 0): Avatar.Avatar.__init__(self) self.serialNum = Pet.SerialNum Pet.SerialNum += 1 self.lockedDown = 0 self.setPickable(1) self.setPlayerType(NametagGroup.CCNonPlayer) self.animFSM = ClassicFSM('petAnimFSM', [State('off', self.enterOff, self.exitOff), State('neutral', self.enterNeutral, self.exitNeutral), State('neutralHappy', self.enterNeutralHappy, self.exitNeutralHappy), State('neutralSad', self.enterNeutralSad, self.exitNeutralSad), State('run', self.enterRun, self.exitRun), State('swim', self.enterSwim, self.exitSwim), State('teleportIn', self.enterTeleportIn, self.exitTeleportOut), State('teleportOut', self.enterTeleportOut, self.exitTeleportOut), State('walk', self.enterWalk, self.exitWalk), State('walkHappy', self.enterWalkHappy, self.exitWalkHappy), State('walkSad', self.enterWalkSad, self.exitWalkSad)], 'off', 'off') self.animFSM.enterInitialState() self.forGui = forGui self.moodModel = None self.__blinkName = 'petblink-' + str(self.this) self.track = None self.soundBackflip = None self.soundRollover = None self.soundPlaydead = None self.soundTeleportIn = None self.soundTeleportOut = None self.teleportHole = None return def isPet(self): return True def stopAnimations(self): if self.track: self.track.pause() self.stopBlink() self.animFSM.request('off') def delete(self): self.stopAnimations() self.track = None self.soundBackflip = None self.soundRollover = None self.soundPlaydead = None self.soundTeleportIn = None self.soundTeleportOut = None if self.teleportHole: self.teleportHole.cleanup() self.teleportHole = None self.eyesOpenTexture = None self.eyesClosedTexture = None self.animFSM = None self.eyes = None self.rightPupil = None self.rightHighlight = None self.rightBrow = None self.leftPupil = None self.leftHighlight = None self.leftBrow = None self.color = None Avatar.Avatar.delete(self) return def getDNA(self): return self.style def setDNA(self, dna): if self.style: pass else: self.style = dna self.generatePet() self.generateMoods() self.initializeDropShadow() self.initializeNametag3d() self.dropShadow.setScale(0.75) def generatePet(self): self.loadModel('phase_4/models/char/TT_pets-mod') self.loadAnims({'toBeg': 'phase_5/models/char/TT_pets-intoBeg', 'beg': 'phase_5/models/char/TT_pets-beg', 'fromBeg': 'phase_5/models/char/TT_pets-begOut', 'backflip': 'phase_5/models/char/TT_pets-backflip', 'dance': 'phase_5/models/char/TT_pets-heal', 'toDig': 'phase_5/models/char/TT_pets-intoDig', 'dig': 'phase_5/models/char/TT_pets-dig', 'fromDig': 'phase_5/models/char/TT_pets-digToNeutral', 'disappear': 'phase_5/models/char/TT_pets-disappear', 'eat': 'phase_5.5/models/char/TT_pets-eat', 'jump': 'phase_5/models/char/TT_pets-jump', 'neutral': 'phase_4/models/char/TT_pets-neutral', 'neutralHappy': 'phase_4/models/char/TT_pets-neutralHappy', 'neutralSad': 'phase_4/models/char/TT_pets-neutral_sad', 'toPet': 'phase_5.5/models/char/TT_pets-petin', 'pet': 'phase_5.5/models/char/TT_pets-petloop', 'fromPet': 'phase_5.5/models/char/TT_pets-petend', 'playDead': 'phase_5/models/char/TT_pets-playdead', 'fromPlayDead': 'phase_5/models/char/TT_pets-deadend', 'reappear': 'phase_5/models/char/TT_pets-reappear', 'run': 'phase_5.5/models/char/TT_pets-run', 'rollover': 'phase_5/models/char/TT_pets-rollover', 'walkSad': 'phase_5.5/models/char/TT_pets-sadwalk', 'speak': 'phase_5/models/char/TT_pets-speak', 'swallow': 'phase_5.5/models/char/TT_pets-swallow', 'swim': 'phase_5.5/models/char/TT_pets-swim', 'toBall': 'phase_5.5/models/char/TT_pets-toBall', 'walk': 'phase_5.5/models/char/TT_pets-walk', 'walkHappy': 'phase_5.5/models/char/TT_pets-walkHappy'}) self.setHeight(2) color = None colorIndex = self.style[5] color = AllPetColors[colorIndex] self.color = color bodyType = self.style[4] body = self.find('**/body') tex = loader.loadTexture(BodyTextures[BodyTypes[bodyType]]) tex.setMinfilter(Texture.FTLinear) tex.setMagfilter(Texture.FTLinear) body.setTexture(tex, 1) body.setColor(color) leftFoot = self.find('**/leftFoot') rightFoot = self.find('**/rightFoot') texName = getFootTexture(bodyType) tex = loader.loadTexture(texName) tex.setMinfilter(Texture.FTLinear) tex.setMagfilter(Texture.FTLinear) leftFoot.setTexture(tex, 1) rightFoot.setTexture(tex, 1) leftFoot.setColor(color) rightFoot.setColor(color) for part in HeadParts + EarParts + NoseParts + TailParts: self.find('**/' + part).stash() colorScale = ColorScales[self.style[6]] partColor = self.amplifyColor(color, colorScale) headIndex = self.style[0] if headIndex != -1: head = self.find('**/@@' + HeadParts[headIndex]) head.setColor(partColor) head.unstash() earsIndex = self.style[1] if earsIndex != -1: ears = self.find('**/@@' + EarParts[earsIndex]) ears.setColor(partColor) texName = getEarTexture(bodyType, EarParts[earsIndex]) if texName: tex = loader.loadTexture(texName) tex.setMinfilter(Texture.FTLinear) tex.setMagfilter(Texture.FTLinear) ears.setTexture(tex, 1) ears.unstash() noseIndex = self.style[2] if noseIndex != -1: nose = self.find('**/@@' + NoseParts[noseIndex]) nose.setColor(partColor) nose.unstash() tailIndex = self.style[3] if tailIndex != -1: tail = self.find('**/@@' + TailParts[tailIndex]) tail.setColor(partColor) texName = TailTextures[TailParts[tailIndex]] if texName: if BodyTypes[bodyType] == 'giraffe': texName = GiraffeTail elif BodyTypes[bodyType] == 'leopard': texName = LeopardTail tex = loader.loadTexture(texName) tex.setMinfilter(Texture.FTLinear) tex.setMagfilter(Texture.FTLinear) tail.setTexture(tex, 1) tail.unstash() if not self.forGui: self.drawInFront('eyeWhites', 'body', 1) self.drawInFront('rightPupil', 'eyeWhites', 2) self.drawInFront('leftPupil', 'eyeWhites', 2) self.drawInFront('rightHighlight', 'rightPupil', 3) self.drawInFront('leftHighlight', 'leftPupil', 3) else: self.drawInFront('eyeWhites', 'body', -2) self.drawInFront('rightPupil', 'eyeWhites', -2) self.drawInFront('leftPupil', 'eyeWhites', -2) self.find('**/rightPupil').adjustAllPriorities(1) self.find('**/leftPupil').adjustAllPriorities(1) eyes = self.style[7] eyeColor = PetEyeColors[eyes] self.eyes = self.find('**/eyeWhites') self.rightPupil = self.find('**/rightPupil') self.leftPupil = self.find('**/leftPupil') self.rightHighlight = self.find('**/rightHighlight') self.leftHighlight = self.find('**/leftHighlight') self.rightBrow = self.find('**/rightBrow') self.leftBrow = self.find('**/leftBrow') self.eyes.setColor(1, 1, 1, 1) self.rightPupil.setColor(eyeColor, 2) self.leftPupil.setColor(eyeColor, 2) self.rightHighlight.setColor(1, 1, 1, 1) self.leftHighlight.setColor(1, 1, 1, 1) self.rightBrow.setColor(0, 0, 0, 1) self.leftBrow.setColor(0, 0, 0, 1) self.eyes.setTwoSided(1, 1) self.rightPupil.setTwoSided(1, 1) self.leftPupil.setTwoSided(1, 1) self.rightHighlight.setTwoSided(1, 1) self.leftHighlight.setTwoSided(1, 1) self.rightBrow.setTwoSided(1, 1) self.leftBrow.setTwoSided(1, 1) if self.forGui: self.rightHighlight.hide() self.leftHighlight.hide() if self.style[8]: self.eyesOpenTexture = loader.loadTexture('phase_4/maps/BeanEyeBoys2.jpg', 'phase_4/maps/BeanEyeBoys2_a.rgb') self.eyesClosedTexture = loader.loadTexture('phase_4/maps/BeanEyeBoysBlink.jpg', 'phase_4/maps/BeanEyeBoysBlink_a.rgb') else: self.eyesOpenTexture = loader.loadTexture('phase_4/maps/BeanEyeGirlsNew.jpg', 'phase_4/maps/BeanEyeGirlsNew_a.rgb') self.eyesClosedTexture = loader.loadTexture('phase_4/maps/BeanEyeGirlsBlinkNew.jpg', 'phase_4/maps/BeanEyeGirlsBlinkNew_a.rgb') self.eyesOpenTexture.setMinfilter(Texture.FTLinear) self.eyesOpenTexture.setMagfilter(Texture.FTLinear) self.eyesClosedTexture.setMinfilter(Texture.FTLinear) self.eyesClosedTexture.setMagfilter(Texture.FTLinear) self.eyesOpen() return None def initializeBodyCollisions(self, collIdStr): Avatar.Avatar.initializeBodyCollisions(self, collIdStr) if not self.ghostMode: self.collNode.setCollideMask(self.collNode.getIntoCollideMask() | ToontownGlobals.PieBitmask) def amplifyColor(self, color, scale): color = color * scale for i in (0, 1, 2): if color[i] > 1.0: color.setCell(i, 1.0) return color def generateMoods(self): moodIcons = loader.loadModel('phase_4/models/char/petEmotes') self.moodIcons = self.attachNewNode('moodIcons') self.moodIcons.setScale(2.0) self.moodIcons.setZ(3.65) moods = moodIcons.findAllMatches('**/+GeomNode') for moodNum in range(0, moods.getNumPaths()): mood = moods.getPath(moodNum) mood.reparentTo(self.moodIcons) mood.setBillboardPointEye() mood.hide() def clearMood(self): if self.moodModel: self.moodModel.hide() self.moodModel = None return def showMood(self, mood): if hasattr(base.cr, 'newsManager') and base.cr.newsManager: holidayIds = base.cr.newsManager.getHolidayIdList() if (ToontownGlobals.APRIL_FOOLS_COSTUMES in holidayIds or ToontownGlobals.SILLYMETER_EXT_HOLIDAY in holidayIds) and not mood == 'confusion': self.speakMood(mood) return else: self.clearChat() else: self.clearChat() mood = Component2IconDict[mood] if mood is None: moodModel = None else: moodModel = self.moodIcons.find('**/*' + mood + '*') if moodModel.isEmpty(): self.notify.warning('No such mood!: %s' % mood) return if self.moodModel == moodModel: return if self.moodModel: self.moodModel.hide() self.moodModel = moodModel if self.moodModel: self.moodModel.show() return def speakMood(self, mood): if self.moodModel: self.moodModel.hide() if base.config.GetBool('want-speech-bubble', 1): self.nametag.setChat(random.choice(TTLocalizer.SpokenMoods[mood]), CFSpeech) else: self.nametag.setChat(random.choice(TTLocalizer.SpokenMoods[mood]), CFThought) def getGenderString(self): if self.style: if self.style[8]: return TTLocalizer.GenderShopBoyButtonText else: return TTLocalizer.GenderShopGirlButtonText def getShadowJoint(self): if hasattr(self, 'shadowJoint'): return self.shadowJoint shadowJoint = self.find('**/attachShadow') if shadowJoint.isEmpty(): self.shadowJoint = self else: self.shadowJoint = shadowJoint return self.shadowJoint def getNametagJoints(self): joints = [] bundle = self.getPartBundle('modelRoot') joint = bundle.findChild('attachNametag') if joint: joints.append(joint) return joints def fitAndCenterHead(self, maxDim, forGui = 0): p1 = Point3() p2 = Point3() self.calcTightBounds(p1, p2) if forGui: h = 180 t = p1[0] p1.setX(-p2[0]) p2.setX(-t) self.getGeomNode().setDepthWrite(1) self.getGeomNode().setDepthTest(1) else: h = 0 d = p2 - p1 biggest = max(d[0], d[2]) s = (maxDim + 0.0) / biggest mid = (p1 + d / 2.0) * s self.setPosHprScale(-mid[0], -mid[1] + 1, -mid[2], h, 0, 0, s, s, s) def makeRandomPet(self): dna = PetDNA.getRandomPetDNA() self.setDNA(dna) def enterOff(self): self.stop() def exitOff(self): pass def enterBall(self): self.setPlayRate(1, 'toBall') self.play('toBall') def exitBall(self): self.setPlayRate(-1, 'toBall') self.play('toBall') def enterBackflip(self): self.play('backflip') def exitBackflip(self): self.stop('backflip') def enterBeg(self): delay = self.getDuration('toBeg') self.track = Sequence(Func(self.play, 'toBeg'), Wait(delay), Func(self.loop, 'beg')) self.track.start() def exitBeg(self): self.track.pause() self.play('fromBeg') def enterEat(self): self.loop('eat') def exitEat(self): self.stop('swallow') def enterDance(self): self.loop('dance') def exitDance(self): self.stop('dance') def enterNeutral(self): anim = 'neutral' self.pose(anim, random.choice(list(range(0, self.getNumFrames(anim))))) self.loop(anim, restart=0) def exitNeutral(self): self.stop('neutral') def enterNeutralHappy(self): anim = 'neutralHappy' self.pose(anim, random.choice(list(range(0, self.getNumFrames(anim))))) self.loop(anim, restart=0) def exitNeutralHappy(self): self.stop('neutralHappy') def enterNeutralSad(self): anim = 'neutralSad' self.pose(anim, random.choice(list(range(0, self.getNumFrames(anim))))) self.loop(anim, restart=0) def exitNeutralSad(self): self.stop('neutralSad') def enterRun(self): self.loop('run') def exitRun(self): self.stop('run') def enterSwim(self): self.loop('swim') def exitSwim(self): self.stop('swim') def getTeleportInTrack(self): if not self.teleportHole: self.teleportHole = Actor.Actor('phase_3.5/models/props/portal-mod', {'hole': 'phase_3.5/models/props/portal-chan'}) track = Sequence(Wait(1.0), Parallel(self.getTeleportInSoundInterval(), Sequence(Func(self.showHole), ActorInterval(self.teleportHole, 'hole', startFrame=81, endFrame=71), ActorInterval(self, 'reappear'), ActorInterval(self.teleportHole, 'hole', startFrame=71, endFrame=81), Func(self.cleanupHole), Func(self.loop, 'neutral')), Sequence(Func(self.dropShadow.hide), Wait(1.0), Func(self.dropShadow.show)))) return track def enterTeleportIn(self, timestamp): self.track = self.getTeleportInTrack() self.track.start(globalClockDelta.localElapsedTime(timestamp)) def exitTeleportIn(self): self.track.pause() def getTeleportOutTrack(self): if not self.teleportHole: self.teleportHole = Actor.Actor('phase_3.5/models/props/portal-mod', {'hole': 'phase_3.5/models/props/portal-chan'}) track = Sequence(Wait(1.0), Parallel(self.getTeleportOutSoundInterval(), Sequence(ActorInterval(self, 'toDig'), Parallel(ActorInterval(self, 'dig'), Func(self.showHole), ActorInterval(self.teleportHole, 'hole', startFrame=81, endFrame=71)), ActorInterval(self, 'disappear'), ActorInterval(self.teleportHole, 'hole', startFrame=71, endFrame=81), Func(self.cleanupHole)), Sequence(Wait(1.0), Func(self.dropShadow.hide)))) return track def enterTeleportOut(self, timestamp): self.track = self.getTeleportOutTrack() self.track.start(globalClockDelta.localElapsedTime(timestamp)) def exitTeleportOut(self): self.track.pause() def showHole(self): if self.teleportHole: self.teleportHole.setBin('shadow', 0) self.teleportHole.setDepthTest(0) self.teleportHole.setDepthWrite(0) self.teleportHole.reparentTo(self) self.teleportHole.setScale(0.75) self.teleportHole.setPos(0, -1, 0) def cleanupHole(self): if self.teleportHole: self.teleportHole.reparentTo(hidden) self.teleportHole.clearBin() self.teleportHole.clearDepthTest() self.teleportHole.clearDepthWrite() def getTeleportInSoundInterval(self): if not self.soundTeleportIn: self.soundTeleportIn = loader.loadSfx('phase_5/audio/sfx/teleport_reappear.ogg') return SoundInterval(self.soundTeleportIn) def getTeleportOutSoundInterval(self): if not self.soundTeleportOut: self.soundTeleportOut = loader.loadSfx('phase_5/audio/sfx/teleport_disappear.ogg') return SoundInterval(self.soundTeleportOut) def enterWalk(self): self.loop('walk') def exitWalk(self): self.stop('walk') def enterWalkHappy(self): self.loop('walkHappy') def exitWalkHappy(self): self.stop('walkHappy') def enterWalkSad(self): self.loop('walkSad') def exitWalkSad(self): self.stop('walkSad') def trackAnimToSpeed(self, forwardVel, rotVel, inWater = 0): action = 'neutral' if self.isInWater(): action = 'swim' elif forwardVel > 0.1 or abs(rotVel) > 0.1: action = 'walk' self.setAnimWithMood(action) def setAnimWithMood(self, action): how = '' if self.isExcited(): how = 'Happy' elif self.isSad(): how = 'Sad' if action == 'swim': anim = action else: anim = '%s%s' % (action, how) if anim != self.animFSM.getCurrentState().getName(): self.animFSM.request(anim) def isInWater(self): return 0 def isExcited(self): return 0 def isSad(self): return 0 def startTrackAnimToSpeed(self): self.lastPos = self.getPos(render) self.lastH = self.getH(render) taskMgr.add(self._trackAnimTask, self.getTrackAnimTaskName()) def stopTrackAnimToSpeed(self): taskMgr.remove(self.getTrackAnimTaskName()) del self.lastPos del self.lastH def getTrackAnimTaskName(self): return 'trackPetAnim-%s' % self.serialNum def _trackAnimTask(self, task): curPos = self.getPos(render) curH = self.getH(render) self.trackAnimToSpeed(curPos - self.lastPos, curH - self.lastH) self.lastPos = curPos self.lastH = curH return Task.cont def __blinkOpen(self, task): self.eyesOpen() r = random.random() if r < 0.1: t = 0.2 else: t = r * 4.0 + 1 taskMgr.doMethodLater(t, self.__blinkClosed, self.__blinkName) return Task.done def __blinkClosed(self, task): self.eyesClose() taskMgr.doMethodLater(0.125, self.__blinkOpen, self.__blinkName) return Task.done def startBlink(self): taskMgr.remove(self.__blinkName) self.eyesOpen() t = random.random() * 4.0 + 1 taskMgr.doMethodLater(t, self.__blinkClosed, self.__blinkName) def stopBlink(self): taskMgr.remove(self.__blinkName) self.eyesOpen() def eyesOpen(self): self.eyes.setColor(1, 1, 1, 1) self.eyes.setTexture(self.eyesOpenTexture, 1) self.rightPupil.show() self.leftPupil.show() if not self.forGui: self.rightHighlight.show() self.leftHighlight.show() def eyesClose(self): self.eyes.setColor(self.color) self.eyes.setTexture(self.eyesClosedTexture, 1) self.rightPupil.hide() self.leftPupil.hide() if not self.forGui: self.rightHighlight.hide() self.leftHighlight.hide() def lockPet(self): if not self.lockedDown: self.prevAnimState = self.animFSM.getCurrentState().getName() self.animFSM.request('neutral') self.lockedDown += 1 def isLockedDown(self): return self.lockedDown != 0 def unlockPet(self): self.lockedDown -= 1 if not self.lockedDown: self.animFSM.request(self.prevAnimState) self.prevAnimState = None return def getInteractIval(self, interactId): anims = self.InteractAnims[interactId] if type(anims) == str: animIval = ActorInterval(self, anims) else: animIval = Sequence() for anim in anims: animIval.append(ActorInterval(self, anim)) return animIval def gridPets(): pets = [] offsetX = 0 offsetY = 0 startPos = base.localAvatar.getPos() for body in range(0, len(BodyTypes)): colors = getColors(body) for color in colors: p = Pet() p.setDNA([random.choice(list(range(-1, len(HeadParts)))), random.choice(list(range(-1, len(EarParts)))), random.choice(list(range(-1, len(NoseParts)))), random.choice(list(range(-1, len(TailParts)))), body, color, random.choice(list(range(-1, len(ColorScales)))), random.choice(list(range(0, len(PetEyeColors)))), random.choice(list(range(0, len(PetGenders))))]) p.setPos(startPos[0] + offsetX, startPos[1] + offsetY, startPos[2]) p.animFSM.request('neutral') p.reparentTo(render) pets.append(p) offsetX += 3 offsetY += 3 offsetX = 0 return pets