from toontown.toonbase.ToonBaseGlobal import * from pandac.PandaModules import * from libtoontown import * from direct.interval.IntervalGlobal import * from direct.distributed.ClockDelta import * from toontown.toonbase import ToontownGlobals import pickle from . import ToonInterior from direct.directnotify import DirectNotifyGlobal from direct.fsm import ClassicFSM, State from direct.distributed import DistributedObject from direct.fsm import State import random from . import ToonInteriorColors from toontown.hood import ZoneUtil from toontown.toon import ToonDNA from toontown.toon import ToonHead SIGN_LEFT = -4 SIGN_RIGHT = 4 SIGN_BOTTOM = -3.5 SIGN_TOP = 1.5 FrameScale = 1.4 class DistributedToonInterior(DistributedObject.DistributedObject): def __init__(self, cr): DistributedObject.DistributedObject.__init__(self, cr) self.fsm = ClassicFSM.ClassicFSM('DistributedToonInterior', [State.State('toon', self.enterToon, self.exitToon, ['beingTakenOver']), State.State('beingTakenOver', self.enterBeingTakenOver, self.exitBeingTakenOver, []), State.State('off', self.enterOff, self.exitOff, [])], 'toon', 'off') self.fsm.enterInitialState() def generate(self): DistributedObject.DistributedObject.generate(self) def announceGenerate(self): DistributedObject.DistributedObject.announceGenerate(self) self.setup() def disable(self): self.interior.removeNode() del self.interior DistributedObject.DistributedObject.disable(self) def delete(self): del self.fsm DistributedObject.DistributedObject.delete(self) def randomDNAItem(self, category, findFunc): codeCount = self.dnaStore.getNumCatalogCodes(category) index = self.randomGenerator.randint(0, codeCount - 1) code = self.dnaStore.getCatalogCode(category, index) return findFunc(code) def replaceRandomInModel(self, model): baseTag = 'random_' npc = model.findAllMatches('**/' + baseTag + '???_*') for i in range(npc.getNumPaths()): np = npc.getPath(i) name = np.getName() b = len(baseTag) category = name[b + 4:] key1 = name[b] key2 = name[b + 1] if key1 == 'm': model = self.randomDNAItem(category, self.dnaStore.findNode) newNP = model.copyTo(np) c = render.findAllMatches('**/collision') c.stash() if key2 == 'r': self.replaceRandomInModel(newNP) elif key1 == 't': texture = self.randomDNAItem(category, self.dnaStore.findTexture) np.setTexture(texture, 100) newNP = np if key2 == 'c': if category == 'TI_wallpaper' or category == 'TI_wallpaper_border': self.randomGenerator.seed(self.zoneId) newNP.setColorScale(self.randomGenerator.choice(self.colors[category])) else: newNP.setColorScale(self.randomGenerator.choice(self.colors[category])) def setup(self): self.dnaStore = base.cr.playGame.dnaStore self.randomGenerator = random.Random() self.randomGenerator.seed(self.zoneId) interior = self.randomDNAItem('TI_room', self.dnaStore.findNode) self.interior = interior.copyTo(render) hoodId = ZoneUtil.getCanonicalHoodId(self.zoneId) self.colors = ToonInteriorColors.colors[hoodId] self.replaceRandomInModel(self.interior) doorModelName = 'door_double_round_ul' if doorModelName[-1:] == 'r': doorModelName = doorModelName[:-1] + 'l' else: doorModelName = doorModelName[:-1] + 'r' door = self.dnaStore.findNode(doorModelName) door_origin = render.find('**/door_origin;+s') doorNP = door.copyTo(door_origin) door_origin.setScale(0.8, 0.8, 0.8) door_origin.setPos(door_origin, 0, -0.025, 0) color = self.randomGenerator.choice(self.colors['TI_door']) DNADoor.setupDoor(doorNP, self.interior, door_origin, self.dnaStore, str(self.block), color) doorFrame = doorNP.find('door_*_flat') doorFrame.wrtReparentTo(self.interior) doorFrame.setColor(color) sign = hidden.find('**/tb%s:*_landmark_*_DNARoot/**/sign;+s' % (self.block,)) if not sign.isEmpty(): signOrigin = self.interior.find('**/sign_origin;+s') newSignNP = sign.copyTo(signOrigin) newSignNP.setDepthWrite(1, 1) mat = self.dnaStore.getSignTransformFromBlockNumber(int(self.block)) inv = Mat4(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0) inv.invertFrom(mat) newSignNP.setMat(inv) newSignNP.flattenLight() ll = Point3() ur = Point3() newSignNP.calcTightBounds(ll, ur) width = ur[0] - ll[0] height = ur[2] - ll[2] if width != 0 and height != 0: xScale = (SIGN_RIGHT - SIGN_LEFT) / width zScale = (SIGN_TOP - SIGN_BOTTOM) / height scale = min(xScale, zScale) xCenter = (ur[0] + ll[0]) / 2.0 zCenter = (ur[2] + ll[2]) / 2.0 newSignNP.setPosHprScale((SIGN_RIGHT + SIGN_LEFT) / 2.0 - xCenter * scale, -0.1, (SIGN_TOP + SIGN_BOTTOM) / 2.0 - zCenter * scale, 0.0, 0.0, 0.0, scale, scale, scale) trophyOrigin = self.interior.find('**/trophy_origin') trophy = self.buildTrophy() if trophy: trophy.reparentTo(trophyOrigin) del self.colors del self.dnaStore del self.randomGenerator self.interior.flattenMedium() def setZoneIdAndBlock(self, zoneId, block): self.zoneId = zoneId self.block = block def setToonData(self, toonData): savedBy = pickle.loads(toonData) self.savedBy = savedBy def buildTrophy(self): if self.savedBy == None: return numToons = len(self.savedBy) pos = 1.25 - 1.25 * numToons trophy = hidden.attachNewNode('trophy') for avId, name, dnaTuple, isGM in self.savedBy: frame = self.buildFrame(name, dnaTuple) frame.reparentTo(trophy) frame.setPos(pos, 0, 0) pos += 2.5 return trophy def buildFrame(self, name, dnaTuple): frame = loader.loadModel('phase_3.5/models/modules/trophy_frame') dna = ToonDNA.ToonDNA() dna.newToonFromProperties(*dnaTuple) head = ToonHead.ToonHead() head.setupHead(dna) head.setPosHprScale(0, -0.05, -0.05, 180, 0, 0, 0.55, 0.02, 0.55) if dna.head[0] == 'r': head.setZ(-0.15) elif dna.head[0] == 'h': head.setZ(0.05) elif dna.head[0] == 'm': head.setScale(0.45, 0.02, 0.45) head.reparentTo(frame) nameText = TextNode('trophy') nameText.setFont(ToontownGlobals.getToonFont()) nameText.setAlign(TextNode.ACenter) nameText.setTextColor(0, 0, 0, 1) nameText.setWordwrap(5.36 * FrameScale) nameText.setText(name) namePath = frame.attachNewNode(nameText.generate()) namePath.setPos(0, -0.03, -.6) namePath.setScale(0.186 / FrameScale) frame.setScale(FrameScale, 1.0, FrameScale) return frame def setState(self, state, timestamp): self.fsm.request(state, [globalClockDelta.localElapsedTime(timestamp)]) def enterOff(self): pass def exitOff(self): pass def enterToon(self): pass def exitToon(self): pass def enterBeingTakenOver(self, ts): messenger.send('clearOutToonInterior') def exitBeingTakenOver(self): pass