from direct.showbase.PythonUtil import contains, lerp, clampScalar from direct.distributed import DistributedObjectAI from direct.directnotify import DirectNotifyGlobal from toontown.pets import PetTraits, PetTricks from toontown.pets import PetMood from toontown.toonbase import ToontownGlobals import random import time import string import copy BATTLE_TRICK_HP_MULTIPLIER = 10.0 class DistributedPetProxyAI(DistributedObjectAI.DistributedObjectAI): notify = DirectNotifyGlobal.directNotify.newCategory('DistributedPetProxyAI') def __init__(self, air): DistributedObjectAI.DistributedObjectAI.__init__(self, air) self.ownerId = 0 self.petName = 'unnamed' self.traitSeed = 0 self.safeZone = ToontownGlobals.ToontownCentral self.traitList = [0] * PetTraits.PetTraits.NumTraits self.head = -1 self.ears = -1 self.nose = -1 self.tail = -1 self.bodyTexture = 0 self.color = 0 self.colorScale = 0 self.eyeColor = 0 self.gender = 0 self.trickAptitudes = [] self.lastSeenTimestamp = self.getCurEpochTimestamp() self.requiredMoodComponents = {} self.__funcsToDelete = [] self.__generateDistTraitFuncs() self.__generateDistMoodFuncs() def getSetterName(self, valueName, prefix = 'set'): return '%s%s%s' % (prefix, string.upper(valueName[0]), valueName[1:]) def setDNA(self, dna): head, ears, nose, tail, body, color, colorScale, eyes, gender = dna self.b_setHead(head) self.b_setEars(ears) self.b_setNose(nose) self.b_setTail(tail) self.b_setBodyTexture(body) self.b_setColor(color) self.b_setColorScale(colorScale) self.b_setEyeColor(eyes) self.b_setGender(gender) def getOwnerId(self): return self.ownerId def b_setOwnerId(self, ownerId): self.d_setOwnerId(ownerId) self.setOwnerId(ownerId) def d_setOwnerId(self, ownerId): self.sendUpdate('setOwnerId', [ownerId]) def setOwnerId(self, ownerId): self.ownerId = ownerId def getPetName(self): return self.petName def b_setPetName(self, petName): self.d_setPetName(petName) self.setPetName(petName) def d_setPetName(self, petName): self.sendUpdate('setPetName', [petName]) def setPetName(self, petName): self.petName = petName def getTraitSeed(self): return self.traitSeed def b_setTraitSeed(self, traitSeed): self.d_setTraitSeed(traitSeed) self.setTraitSeed(traitSeed) def d_setTraitSeed(self, traitSeed): self.sendUpdate('setTraitSeed', [traitSeed]) def setTraitSeed(self, traitSeed): self.traitSeed = traitSeed def getSafeZone(self): return self.safeZone def b_setSafeZone(self, safeZone): self.d_setSafeZone(safeZone) self.setSafeZone(safeZone) def d_setSafeZone(self, safeZone): self.sendUpdate('setSafeZone', [safeZone]) def setSafeZone(self, safeZone): self.safeZone = safeZone def setTraits(self, traitList): self.traitList = traitList def __generateDistTraitFuncs(self): for i in xrange(PetTraits.PetTraits.NumTraits): traitName = PetTraits.getTraitNames()[i] getterName = self.getSetterName(traitName, 'get') b_setterName = self.getSetterName(traitName, 'b_set') d_setterName = self.getSetterName(traitName, 'd_set') setterName = self.getSetterName(traitName) def traitGetter(i = i): return self.traitList[i] def b_traitSetter(value, setterName = setterName, d_setterName = d_setterName): self.__dict__[d_setterName](value) self.__dict__[setterName](value) def d_traitSetter(value, setterName = setterName): self.sendUpdate(setterName, [value]) def traitSetter(value, i = i): self.traitList[i] = value self.__dict__[getterName] = traitGetter self.__dict__[b_setterName] = b_traitSetter self.__dict__[d_setterName] = d_traitSetter self.__dict__[setterName] = traitSetter self.__funcsToDelete.append(getterName) self.__funcsToDelete.append(b_setterName) self.__funcsToDelete.append(d_setterName) self.__funcsToDelete.append(setterName) def getHead(self): return self.head def b_setHead(self, head): self.d_setHead(head) self.setHead(head) def d_setHead(self, head): self.sendUpdate('setHead', [head]) def setHead(self, head): self.head = head def getEars(self): return self.ears def b_setEars(self, ears): self.d_setEars(ears) self.setEars(ears) def d_setEars(self, ears): self.sendUpdate('setEars', [ears]) def setEars(self, ears): self.ears = ears def getNose(self): return self.nose def b_setNose(self, nose): self.d_setNose(nose) self.setNose(nose) def d_setNose(self, nose): self.sendUpdate('setNose', [nose]) def setNose(self, nose): self.nose = nose def getTail(self): return self.tail def b_setTail(self, tail): self.d_setTail(tail) self.setTail(tail) def d_setTail(self, tail): self.sendUpdate('setTail', [tail]) def setTail(self, tail): self.tail = tail def getBodyTexture(self): return self.bodyTexture def b_setBodyTexture(self, bodyTexture): self.d_setBodyTexture(bodyTexture) self.setBodyTexture(bodyTexture) def d_setBodyTexture(self, bodyTexture): self.sendUpdate('setBodyTexture', [bodyTexture]) def setBodyTexture(self, bodyTexture): self.bodyTexture = bodyTexture def getColor(self): return self.color def b_setColor(self, color): self.d_setColor(color) self.setColor(color) def d_setColor(self, color): self.sendUpdate('setColor', [color]) def setColor(self, color): self.color = color def getColorScale(self): return self.colorScale def b_setColorScale(self, colorScale): self.d_setColorScale(colorScale) self.setColorScale(colorScale) def d_setColorScale(self, colorScale): self.sendUpdate('setColorScale', [colorScale]) def setColorScale(self, colorScale): self.colorScale = colorScale def getEyeColor(self): return self.eyeColor def b_setEyeColor(self, eyeColor): self.d_setEyeColor(eyeColor) self.setEyeColor(eyeColor) def d_setEyeColor(self, eyeColor): self.sendUpdate('setEyeColor', [eyeColor]) def setEyeColor(self, eyeColor): self.eyeColor = eyeColor def getGender(self): return self.gender def b_setGender(self, gender): self.d_setGender(gender) self.setGender(gender) def d_setGender(self, gender): self.sendUpdate('setGender', [gender]) def setGender(self, gender): self.gender = gender def getLastSeenTimestamp(self): return self.lastSeenTimestamp def b_setLastSeenTimestamp(self, timestamp): self.d_setLastSeenTimestamp(timestamp) self.setLastSeenTimestamp(timestamp) def d_setLastSeenTimestamp(self, timestamp): self.sendUpdate('setLastSeenTimestamp', [timestamp]) def setLastSeenTimestamp(self, timestamp): self.lastSeenTimestamp = timestamp def getCurEpochTimestamp(self): return int(time.time()) def getTimeSinceLastSeen(self): t = time.time() - self.lastSeenTimestamp return max(0.0, t) def __handleMoodSet(self, component, value): if self.isGenerated(): self.mood.setComponent(component, value) else: self.requiredMoodComponents[component] = value def __handleMoodGet(self, component): if self.isGenerated(): return self.mood.getComponent(component) else: return 0.0 def __generateDistMoodFuncs(self): for compName in PetMood.PetMood.Components: getterName = self.getSetterName(compName, 'get') setterName = self.getSetterName(compName) def moodGetter(compName = compName): return self.__handleMoodGet(compName) def b_moodSetter(value, setterName = setterName): self.__dict__[setterName](value) def d_moodSetter(value, setterName = setterName): self.sendUpdate(setterName, [value]) def moodSetter(value, compName = compName): self.__handleMoodSet(compName, value) self.__dict__[getterName] = moodGetter self.__dict__['b_%s' % setterName] = b_moodSetter self.__dict__['d_%s' % setterName] = d_moodSetter self.__dict__[setterName] = moodSetter self.__funcsToDelete.append(getterName) self.__funcsToDelete.append('b_%s' % setterName) self.__funcsToDelete.append('d_%s' % setterName) self.__funcsToDelete.append(setterName) def getTrickAptitudes(self): return self.trickAptitudes def b_setTrickAptitudes(self, aptitudes): self.setTrickAptitudes(aptitudes, local=1) self.d_setTrickAptitudes(aptitudes) def d_setTrickAptitudes(self, aptitudes): if __dev__: for aptitude in aptitudes: pass while len(aptitudes) < len(PetTricks.Tricks) - 1: aptitudes.append(0.0) self.sendUpdate('setTrickAptitudes', [aptitudes]) def setTrickAptitudes(self, aptitudes, local = 0): if not local: DistributedPetProxyAI.notify.debug('setTrickAptitudes: %s' % aptitudes) while len(self.trickAptitudes) < len(PetTricks.Tricks) - 1: self.trickAptitudes.append(0.0) self.trickAptitudes = aptitudes def getTrickAptitude(self, trickId): if trickId > len(self.trickAptitudes) - 1: return 0.0 return self.trickAptitudes[trickId] def setTrickAptitude(self, trickId, aptitude, send = 1): aptitude = clampScalar(aptitude, 0.0, 1.0) aptitudes = self.trickAptitudes while len(aptitudes) - 1 < trickId: aptitudes.append(0.0) if aptitudes[trickId] != aptitude: aptitudes[trickId] = aptitude if send: self.b_setTrickAptitudes(aptitudes) else: self.setTrickAptitudes(aptitudes, local=1) def generate(self): DistributedObjectAI.DistributedObjectAI.generate(self) self.traits = PetTraits.PetTraits(self.traitSeed, self.safeZone) print self.traits.traits for i in xrange(len(self.traitList)): value = self.traitList[i] if value == 0.0: traitName = PetTraits.getTraitNames()[i] traitValue = self.traits.getTraitValue(traitName) DistributedPetProxyAI.notify.info("%s: initializing new trait '%s' to %s, seed=%s" % (self.doId, traitName, traitValue, self.traitSeed)) setterName = self.getSetterName(traitName, 'b_set') self.__dict__[setterName](traitValue) self.mood = PetMood.PetMood(self) for mood, value in self.requiredMoodComponents.items(): self.mood.setComponent(mood, value, announce=0) self.requiredMoodComponents = {} self.accept(self.mood.getMoodChangeEvent(), self.handleMoodChange) self.mood.start() def broadcastDominantMood(self): self.d_setDominantMood(self.mood.getDominantMood()) def delete(self): self.ignore(self.mood.getMoodChangeEvent()) self.mood.destroy() del self.mood del self.traits for funcName in self.__funcsToDelete: del self.__dict__[funcName] DistributedObjectAI.DistributedObjectAI.delete(self) def setMoodComponent(self, component, value): setter = self.getSetterName(component, 'b_set') self.__dict__[setter](value) def addToMood(self, component, delta): value = self.mood.getComponent(component) value += delta self.setMoodComponent(component, clampScalar(value, 0.0, 1.0)) def lerpMood(self, component, factor): curVal = self.mood.getComponent(component) if factor < 0: self.setMoodComponent(component, lerp(curVal, 0.0, -factor)) else: self.setMoodComponent(component, lerp(curVal, 1.0, factor)) def addToMoods(self, mood2delta): for mood, delta in mood2delta.items(): self.addToMood(mood, delta) def lerpMoods(self, mood2factor): for mood, factor in mood2factor.items(): self.lerpMood(mood, factor) def isContented(self): return self.mood.getDominantMood() in PetMood.PetMood.ContentedMoods def _willDoTrick(self, trickId): if self.isContented(): minApt = PetTricks.MinActualTrickAptitude maxApt = PetTricks.MaxActualTrickAptitude else: minApt = PetTricks.NonHappyMinActualTrickAptitude maxApt = PetTricks.NonHappyMaxActualTrickAptitude randVal = random.random() cutoff = lerp(minApt, maxApt, self.getTrickAptitude(trickId)) if self.mood.isComponentActive('fatigue'): cutoff *= 0.5 cutoff *= PetTricks.TrickAccuracies[trickId] DistributedPetProxyAI.notify.debug('_willDoTrick: %s / %s' % (randVal, cutoff)) return randVal < cutoff def _handleDidTrick(self, trickId): DistributedPetProxyAI.notify.debug('_handleDidTrick: %s' % trickId) if trickId == PetTricks.Tricks.BALK: return aptitude = self.getTrickAptitude(trickId) self.setTrickAptitude(trickId, aptitude + PetTricks.AptitudeIncrementDidTrick) self.addToMood('fatigue', lerp(PetTricks.MaxTrickFatigue, PetTricks.MinTrickFatigue, aptitude)) self.d_setDominantMood(self.mood.getDominantMood()) def attemptBattleTrick(self, trickId): self.lerpMoods({'boredom': -.1, 'excitement': 0.05, 'loneliness': -.05}) if self._willDoTrick(trickId): self._handleDidTrick(trickId) self.b_setLastSeenTimestamp(self.getCurEpochTimestamp()) return 0 else: self.b_setLastSeenTimestamp(self.getCurEpochTimestamp()) return 1 def handleMoodChange(self, components = [], distribute = 1): if len(components) == 0: components = PetMood.PetMood.Components if distribute: if len(components) == len(PetMood.PetMood.Components): values = [] for comp in PetMood.PetMood.Components: values.append(self.mood.getComponent(comp)) self.sendUpdate('setMood', values) else: for comp in components: setter = self.getSetterName(comp, 'd_set') self.__dict__[setter](self.mood.getComponent(comp)) def d_setDominantMood(self, dominantMood): self.sendUpdate('setDominantMood', [dominantMood])