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oldschool-toontown/toontown/minigame/DistributedPhotoGame.py

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general: push the 2013 TTO code
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from direct.directnotify import DirectNotifyGlobal
from pandac.PandaModules import *
minigame: fix more minigame crashes
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from libtoontown import *
general: push the 2013 TTO code
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from toontown.toonbase.ToonBaseGlobal import *
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from .DistributedMinigame import *
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from direct.distributed.ClockDelta import *
from direct.interval.IntervalGlobal import *
from direct.fsm import ClassicFSM, State
from direct.fsm import State
from toontown.toonbase import ToontownGlobals
from toontown.toonbase import ToontownTimer
from direct.task.Task import Task
import math
from toontown.toon import ToonHead
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from . import PhotoGameGlobals
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from direct.gui.DirectGui import *
from pandac.PandaModules import *
from toontown.toonbase import TTLocalizer
from toontown.golf import BuildGeometry
from toontown.toon import Toon
from toontown.toon import ToonDNA
from direct.interval.IntervalGlobal import *
import random
from direct.showbase import PythonUtil
import math
import time
from toontown.makeatoon import NameGenerator
from otp.otpbase import OTPGlobals
from toontown.battle import BattleParticles
from toontown.minigame import PhotoGameBase
WORLD_SCALE = 2.0
FAR_PLANE_DIST = 600 * WORLD_SCALE
STAGE_Z_OFFSET = 7.0
GOODROWS = 13
BADROWS = 4
RAYSPREADX = 0.08
RAYSPREADY = 0.06
ZOOMRATIO = 0.4
ZOOMTIME = 0.5
WANTDOTS = 1
NUMSTARS = PhotoGameGlobals.NUMSTARS
STARSIZE = 0.06
VIEWSIZEX = (GOODROWS - BADROWS) * RAYSPREADX
VIEWSIZEY = (GOODROWS - BADROWS) * RAYSPREADY
def toRadians(angle):
return angle * 2.0 * math.pi / 360.0
def toDegrees(angle):
return angle * 360.0 / (2.0 * math.pi)
class DistributedPhotoGame(DistributedMinigame, PhotoGameBase.PhotoGameBase):
notify = DirectNotifyGlobal.directNotify.newCategory('DistributedPhotoGame')
font = ToontownGlobals.getToonFont()
LOCAL_PHOTO_MOVE_TASK = 'localPhotoMoveTask'
FIRE_KEY = 'control'
UP_KEY = 'arrow_up'
DOWN_KEY = 'arrow_down'
LEFT_KEY = 'arrow_left'
RIGHT_KEY = 'arrow_right'
INTRO_TASK_NAME = 'PhotoGameIntro'
INTRO_TASK_NAME_CAMERA_LERP = 'PhotoGameIntroCamera'
def __init__(self, cr):
DistributedMinigame.__init__(self, cr)
PhotoGameBase.PhotoGameBase.__init__(self)
self.gameFSM = ClassicFSM.ClassicFSM('DistributedPhotoGame', [State.State('off', self.enterOff, self.exitOff, ['aim']),
State.State('aim', self.enterAim, self.exitAim, ['showResults', 'cleanup', 'zoom']),
State.State('zoom', self.enterZoom, self.exitZoom, ['showResults', 'cleanup', 'aim']),
State.State('showResults', self.enterShowResults, self.exitShowResults, ['cleanup']),
State.State('cleanup', self.enterCleanup, self.exitCleanup, [])], 'off', 'cleanup')
self.addChildGameFSM(self.gameFSM)
self.tripod = None
self.leftPressed = 0
self.rightPressed = 0
self.upPressed = 0
self.downPressed = 0
self.photoMoving = 0
self.introSequence = None
self.subjects = []
self.scenery = []
self.subjectNode = render.attachNewNode('subjects')
self.subjectTracks = {}
self.nameCounter = 0
self.zoomedView = 0
self.zoomFlip = 1
self.cameraTrack = None
self.assignments = []
self.currentAssignment = 0
self.assignmentPanels = []
self.toonList = []
self.assignmentDataDict = {}
self.starDict = {}
self.starParentDict = {}
self.textureBuffers = []
self.filmCount = 20
self.edgeUp = 0
self.edgeRight = 0
self.edgeDown = 0
self.edgeLeft = 0
self.scorePanel = None
return
def getTitle(self):
return TTLocalizer.PhotoGameTitle
def getInstructions(self):
return TTLocalizer.PhotoGameInstructions
def getMaxDuration(self):
return PhotoGameGlobals.GAME_TIME
def load(self):
self.notify.debug('load')
DistributedMinigame.load(self)
PhotoGameBase.PhotoGameBase.load(self)
self.filmCount = self.data['FILMCOUNT']
self.safeZoneStorageDNAFile = self.data['DNA_TRIO'][0]
self.storageDNAFile = self.data['DNA_TRIO'][1]
self.dnaFile = self.data['DNA_TRIO'][2]
self.dnaStore = DNAStorage()
loader.loadDNAFile(self.dnaStore, 'phase_4/dna/storage.dna')
loader.loadDNAFile(self.dnaStore, self.storageDNAFile)
loader.loadDNAFile(self.dnaStore, self.safeZoneStorageDNAFile)
node = loader.loadDNAFile(self.dnaStore, self.dnaFile)
self.scene = hidden.attachNewNode(node)
self.construct()
purchaseModels = loader.loadModel('phase_4/models/gui/purchase_gui')
self.filmImage = loader.loadModel('phase_4/models/minigames/photogame_filmroll')
self.filmImage.reparentTo(hidden)
self.tripodModel = loader.loadModel('phase_4/models/minigames/toon_cannon')
self.filmPanel = DirectLabel(parent=hidden, relief=None, pos=(1.16, 0.0, 0.45), scale=0.65, text=str(self.filmCount), text_scale=0.2, text_fg=(0.95, 0.95, 0, 1), text_pos=(0.08, -0.15), text_font=ToontownGlobals.getSignFont(), image=self.filmImage, image_scale=Point3(1.0, 0.0, 0.85))
self.filmPanelTitle = DirectLabel(parent=self.filmPanel, relief=None, pos=(0.08, 0, 0.04), scale=0.08, text=TTLocalizer.PhotoGameFilm, text_fg=(0.95, 0.95, 0, 1), text_shadow=(0, 0, 0, 1))
general: base.loadMusic -> base.loader.loadMusic base.loadMusic is deprecated
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self.music = base.loader.loadMusic('phase_4/audio/bgm/MG_cannon_game.mid')
general: base.loadSfx -> base.loader.loadSfx
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self.sndPhotoMove = base.loader.loadSfx('phase_4/audio/sfx/MG_cannon_adjust.mp3')
self.sndPhotoFire = base.loader.loadSfx('phase_4/audio/sfx/MG_cannon_fire_alt.mp3')
self.sndWin = base.loader.loadSfx('phase_4/audio/sfx/MG_win.mp3')
self.sndFilmTick = base.loader.loadSfx('phase_4/audio/sfx/Photo_instamatic.mp3')
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self.timer = ToontownTimer.ToontownTimer()
self.timer.posInTopRightCorner()
self.timer.hide()
self.viewfinderNode = base.aspect2d.attachNewNode('camera node')
self.viewfinderNode.setTransparency(TransparencyAttrib.MAlpha)
self.viewfinderNode.setDepthWrite(1)
self.viewfinderNode.setDepthTest(1)
self.viewfinderNode.setY(-1.0)
self.screenSizeMult = 0.5
self.screenSizeX = (base.a2dRight - base.a2dLeft) * self.screenSizeMult
self.screenSizeZ = (base.a2dTop - base.a2dBottom) * self.screenSizeMult
viewfinderImage = loader.loadModel('phase_4/models/minigames/photo_game_viewfinder')
viewfinderImage.reparentTo(self.viewfinderNode)
viewfinderImage.setScale(0.55, 1.0, 0.55)
self.blackoutNode = base.aspect2d.attachNewNode('blackout node')
self.blackoutNode.setP(90)
BuildGeometry.addSquareGeom(self.blackoutNode, self.screenSizeX * 2.2, self.screenSizeZ * 2.2, Vec4(1.0, 1.0, 1.0, 1.0))
self.blackoutNode.setTransparency(TransparencyAttrib.MAlpha)
self.blackoutNode.setColorScale(0.0, 0.0, 0.0, 0.5)
self.blackoutNode.setDepthWrite(1)
self.blackoutNode.setDepthTest(1)
self.blackoutNode.hide()
self.subjectToon = Toon.Toon()
self.addSound('zoom', 'Photo_zoom.mp3', 'phase_4/audio/sfx/')
self.addSound('snap', 'Photo_shutter.mp3', 'phase_4/audio/sfx/')
return
def __setupCapture(self):
self.captureCam = NodePath(Camera('CaptureCamera'))
self.captureCam.reparentTo(self.pointer)
self.captureLens = PerspectiveLens()
self.captureOutFOV = VIEWSIZEX / self.screenSizeX * self.outFov * 0.5
self.captureZoomFOV = VIEWSIZEX / self.screenSizeX * self.zoomFov * 0.5
self.captureLens.setFov(self.captureOutFOV)
self.captureLens.setAspectRatio(1.33)
self.captureCam.node().setLens(self.captureLens)
def __removeCapture(self):
del self.captureCam
del self.captureLens
def unload(self):
self.notify.debug('unload')
DistributedMinigame.unload(self)
if self.cameraTrack:
self.cameraTrack.finish()
self.cameraTrack = None
self.__removeCapture()
for textureBuffer in self.textureBuffers:
base.graphicsEngine.removeWindow(textureBuffer)
del self.textureBuffers
self.viewfinderNode.removeNode()
self.blackoutNode.removeNode()
for key in self.assignmentDataDict:
assignmentData = self.assignmentDataDict[key]
assignmentData[7].delete()
del self.assignmentDataDict
self.assignments = []
for subject in self.subjects:
subject.delete()
self.subjects = []
self.subjectToon.delete()
self.destruct()
for scenery in self.scenery:
scenery.removeNode()
self.scenery = None
self.subjectNode.removeNode()
self.subjectNode = None
self.sky.removeNode()
del self.sky
self.photoRoot = None
self.scene.removeNode()
del self.scene
self.pointer.removeNode()
self.tripodModel.removeNode()
del self.tripodModel
for panel in self.assignmentPanels:
panel.destroy()
self.assignmentPanels = []
if self.scorePanel:
self.scorePanel.destroy()
self.starDict = {}
self.starParentDict = {}
self.filmPanel.destroy()
del self.filmPanel
self.filmImage.removeNode()
del self.filmImage
del self.music
del self.sndPhotoMove
del self.sndPhotoFire
del self.sndWin
del self.sndFilmTick
self.tripod.removeNode()
del self.tripod
del self.swivel
self.timer.destroy()
del self.timer
self.removeChildGameFSM(self.gameFSM)
del self.gameFSM
self.ignoreAll()
return
def onstage(self):
self.notify.debug('Onstage')
DistributedMinigame.onstage(self)
self.__createTripod()
self.tripod.reparentTo(render)
self.tripod.hide()
self.__loadToonInTripod(self.localAvId)
camera.reparentTo(render)
self.__oldCamFar = base.camLens.getFar()
base.camLens.setFar(FAR_PLANE_DIST)
self.__setupSubjects()
self.__startIntro()
base.transitions.irisIn()
base.playMusic(self.music, looping=1, volume=0.8)
orgFov = base.camLens.getFov()
self.outFov = orgFov.getX()
self.zoomFov = orgFov.getX() * ZOOMRATIO
self.currentFov = self.outFov
self.__setupCapture()
def offstage(self):
self.notify.debug('offstage')
self.sky.reparentTo(hidden)
self.scene.reparentTo(hidden)
for avId in self.avIdList:
av = self.getAvatar(avId)
if av:
av.dropShadow.show()
av.resetLOD()
self.__stopIntro()
base.camLens.setFar(self.__oldCamFar)
self.timer.reparentTo(hidden)
self.filmPanel.reparentTo(hidden)
DistributedMinigame.offstage(self)
for key in self.subjectTracks:
track = self.subjectTracks[key][0]
track.pause()
del track
self.subjectTracks = {}
base.localAvatar.laffMeter.start()
del self.soundTable
def __setupCollisions(self):
self.queue = CollisionHandlerQueue()
self.traverser = CollisionTraverser('traverser name')
self.rayArray = []
minigame: fix more minigame crashes
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vRange = (GOODROWS - BADROWS) // 2
for row in range(-(GOODROWS // 2), GOODROWS // 2 + 1):
for column in range(-(GOODROWS // 2), GOODROWS // 2 + 1):
goodRange = list(range(-((GOODROWS - BADROWS) // 2), (GOODROWS - BADROWS) // 2 + 1))
general: push the 2013 TTO code
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rayQuality = 'g'
if row not in goodRange or column not in goodRange:
rayQuality = 'l'
if row > vRange:
rayQuality = 'r'
if column > vRange:
rayQuality = 't'
if column < -vRange:
rayQuality = 'b'
columnString = '+%s' % column
if column < 0:
columnString = '%s' % column
rowString = '+%s' % row
if row < 0:
rowString = '%s' % row
pickerNode = CollisionNode('%s %s %s' % (rowString, columnString, rayQuality))
pickerNP = camera.attachNewNode(pickerNode)
pickerNode.setFromCollideMask(GeomNode.getDefaultCollideMask())
pickerRay = CollisionRay()
pickerNode.addSolid(pickerRay)
self.rayArray.append((row,
column,
pickerNode,
pickerNP,
pickerRay))
self.traverser.addCollider(pickerNP, self.queue)
if WANTDOTS:
self.markerDict = {}
for rayEntry in self.rayArray:
markerNode = self.viewfinderNode.attachNewNode('marker Node')
BuildGeometry.addSquareGeom(markerNode, 0.01, 0.01, Vec4(1.0, 1.0, 1.0, 1.0))
markerNode.setX(RAYSPREADX * rayEntry[0])
markerNode.setY(RAYSPREADY * rayEntry[1])
markerNode.setDepthWrite(1)
markerNode.setZ(2.0)
self.markerDict[rayEntry[0], rayEntry[1]] = markerNode
self.lensNode = LensNode('photo taker')
self.lensNode.setLens(base.camLens)
def __moveViewfinder(self, task):
if base.mouseWatcherNode.hasMouse():
mpos = base.mouseWatcherNode.getMouse()
self.viewfinderNode.setX(mpos.getX() * self.screenSizeX)
self.viewfinderNode.setZ(mpos.getY() * self.screenSizeZ)
horzAngle = self.viewfinderNode.getX() / self.screenSizeX * 0.5 * base.camLens.getFov()[0]
vertAngle = self.viewfinderNode.getZ() / self.screenSizeZ * 0.5 * base.camLens.getFov()[1]
horzPointFlat = self.viewfinderNode.getX() / self.screenSizeX
vertPointFlat = self.viewfinderNode.getZ() / self.screenSizeZ
horzLength = base.camLens.getFov()[0] * 0.5
vertLength = base.camLens.getFov()[1] * 0.5
horzRadianLength = toRadians(horzLength)
vertRadianLength = toRadians(vertLength)
hMRadian = math.atan(horzPointFlat * math.tan(horzRadianLength))
vMRadian = math.atan(vertPointFlat * math.tan(vertRadianLength))
hMDegree = toDegrees(hMRadian)
vMDegree = toDegrees(vMRadian)
self.pointer.setH(-hMDegree)
self.pointer.setP(vMDegree)
newRight = 0
newLeft = 0
newUp = 0
newDown = 0
if self.viewfinderNode.getX() > self.screenSizeX * 0.95:
newRight = 1
if self.viewfinderNode.getX() < self.screenSizeX * -0.95:
newLeft = 1
if self.viewfinderNode.getZ() > self.screenSizeZ * 0.95:
newUp = 1
if self.viewfinderNode.getZ() < self.screenSizeZ * -0.95:
newDown = 1
if not self.edgeRight and newRight:
self.edgeRight = 1
self.__rightPressed()
elif self.edgeRight and not newRight:
self.edgeRight = 0
self.__rightReleased()
if not self.edgeLeft and newLeft:
self.edgeLeft = 1
self.__leftPressed()
elif self.edgeLeft and not newLeft:
self.edgeLeft = 0
self.__leftReleased()
if not self.edgeUp and newUp:
self.edgeUp = 1
self.__upPressed()
elif self.edgeUp and not newUp:
self.edgeUp = 0
self.__upReleased()
if not self.edgeDown and newDown:
self.edgeDown = 1
self.__downPressed()
elif self.edgeDown and not newDown:
self.edgeDown = 0
self.__downReleased()
return task.cont
def __testCollisions(self):
self.notify.debug('\nSnapping Photo')
self.playSound('snap')
if self.filmCount <= 0:
self.notify.debug('No Film')
return
for rayEntry in self.rayArray:
posX = (self.viewfinderNode.getX() + RAYSPREADX * rayEntry[0]) / self.screenSizeX
posY = (self.viewfinderNode.getZ() + RAYSPREADY * rayEntry[1]) / self.screenSizeZ
rayEntry[4].setFromLens(self.lensNode, posX, posY)
self.traverser.traverse(self.subjectNode)
distDict = {}
hitDict = {}
centerDict = {}
for i in range(self.queue.getNumEntries()):
entry = self.queue.getEntry(i)
object = None
objectIndex = None
subjectIndexString = entry.getIntoNodePath().getNetTag('subjectIndex')
sceneryIndexString = entry.getIntoNodePath().getNetTag('sceneryIndex')
if subjectIndexString:
objectIndex = int(subjectIndexString)
object = self.subjects[objectIndex]
elif sceneryIndexString:
objectIndex = int(sceneryIndexString)
object = self.scenery[objectIndex]
marker = 'g'
if 'b' in entry.getFromNodePath().getName():
marker = 'b'
if 't' in entry.getFromNodePath().getName():
marker = 't'
if 'r' in entry.getFromNodePath().getName():
marker = 'r'
if 'l' in entry.getFromNodePath().getName():
marker = 'l'
if object:
newEntry = (entry.getFromNode(), object)
distance = Vec3(entry.getSurfacePoint(self.tripod)).lengthSquared()
name = entry.getFromNode().getName()
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if name not in distDict:
general: push the 2013 TTO code
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distDict[name] = distance
hitDict[name] = (entry.getFromNode(), object, marker)
elif distance < distDict[name]:
distDict[name] = distance
hitDict[name] = (entry.getFromNode(), object, marker)
for key in hitDict:
hit = hitDict[key]
superParent = hit[1]
marker = hit[2]
onCenter = 0
overB = 0
overT = 0
overR = 0
overL = 0
quality = -1
if marker == 'b':
overB = 1
elif marker == 't':
overT = 1
elif marker == 'r':
overR = 1
elif marker == 'l':
overL = 1
else:
quality = 1
onCenter = 1
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if superParent not in centerDict:
general: push the 2013 TTO code
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centerDict[superParent] = (onCenter,
overB,
overT,
overR,
overL)
else:
centerDict[superParent] = (onCenter + centerDict[superParent][0],
overB + centerDict[superParent][1],
overT + centerDict[superParent][2],
overR + centerDict[superParent][3],
overL + centerDict[superParent][4])
if WANTDOTS:
for key in self.markerDict:
node = self.markerDict[key]
node.setColorScale(Vec4(1, 1, 1, 1))
for key in hitDict:
entry = hitDict[key]
name = entry[0].getName()
xS = int(name[0:2])
yS = int(name[3:5])
node = self.markerDict[xS, yS]
node.setColorScale(Vec4(1.0, 0.0, 0.0, 1.0))
centerDictKeys = []
for key in centerDict:
centerDictKeys.append(key)
for subject in centerDictKeys:
score = self.judgePhoto(subject, centerDict)
self.notify.debug('Photo is %s / 5 stars' % score)
self.notify.debug('assignment compare %s %s' % (self.determinePhotoContent(subject), self.assignments[self.currentAssignment]))
content = self.determinePhotoContent(subject)
if content:
photoAnalysisZero = (content[0], content[1])
if score and photoAnalysisZero in self.assignments:
index = self.assignments.index(photoAnalysisZero)
assignment = self.assignments[index]
self.notify.debug('assignment complete')
if score >= self.assignmentDataDict[assignment][0]:
subjectIndex = self.subjects.index(subject)
texturePanel = self.assignmentDataDict[assignment][5]
texture = self.assignmentDataDict[assignment][6]
buffer = self.assignmentDataDict[assignment][4]
panelToon = self.assignmentDataDict[assignment][7]
panelToon.hide()
buffer.setActive(1)
texturePanel.show()
texturePanel.setColorScale(1, 1, 1, 1)
taskMgr.doMethodLater(0.2, buffer.setActive, 'capture Image', [0])
if score > self.assignmentDataDict[assignment][0]:
self.assignmentDataDict[assignment][0] = score
self.updateAssignmentPanels()
self.sendUpdate('newClientPhotoScore', [subjectIndex, content[1], score])
else:
self.notify.debug('assignment not complete')
horzAngle = self.viewfinderNode.getX() / self.screenSizeX * 0.5 * base.camLens.getFov()[0]
vertAngle = self.viewfinderNode.getZ() / self.screenSizeZ * 0.5 * base.camLens.getFov()[1]
horzPointFlat = self.viewfinderNode.getX() / self.screenSizeX
vertPointFlat = self.viewfinderNode.getZ() / self.screenSizeZ
horzLength = base.camLens.getFov()[0] * 0.5
vertLength = base.camLens.getFov()[1] * 0.5
horzRadianLength = toRadians(horzLength)
vertRadianLength = toRadians(vertLength)
hMRadian = math.atan(horzPointFlat * math.tan(horzRadianLength))
vMRadian = math.atan(vertPointFlat * math.tan(vertRadianLength))
hMDegree = toDegrees(hMRadian)
vMDegree = toDegrees(vMRadian)
self.__decreaseFilmCount()
if self.filmCount == 0:
self.sendUpdate('filmOut', [])
self.notify.debug('Screen angles H:%s V:%s' % (self.swivel.getH(), self.swivel.getP()))
self.notify.debug('Viewfinder to screen angles H:%s V:%s' % (horzAngle, vertAngle))
self.notify.debug('Viewfinder to screen angles with math H:%s V:%s' % (hMDegree, vMDegree))
return
def newAIPhotoScore(self, playerId, assignmentIndex, score):
if len(self.assignments) > assignmentIndex:
assignment = self.assignments[assignmentIndex]
assignmentData = self.assignmentDataDict[assignment]
if score > assignmentData[2]:
assignmentData[2] = score
assignmentData[3] = playerId
self.updateAssignmentPanels()
def determinePhotoContent(self, subject):
if self.getSubjectTrackState(subject):
return [subject, self.getSubjectTrackState(subject)[2]]
else:
return None
return None
def judgePhoto(self, subject, centerDict):
self.notify.debug('judgePhoto')
self.notify.debug(subject.getName())
self.notify.debug(str(centerDict[subject]))
a1 = camera.getH(render) % 360
a2 = subject.getH(render) % 360
angle = abs((a1 + 180 - a2) % 360 - 180)
self.notify.debug('angle camera:%s subject:%s between:%s' % (camera.getH(render), subject.getH(render), angle))
self.notify.debug(str(angle))
centering = centerDict[subject]
if type(subject) == type(self.subjectToon):
facing = angle / 180.0
interest = self.getSubjectTrackState(subject)[3]
quality = centering[0] - (centering[1] + centering[2] + centering[3] + centering[4])
tooClose = centering[1] and centering[2] or centering[3] and centering[4]
portrait = centering[1] and not (centering[2] or centering[3] or centering[4])
self.notify.debug('angle %s facing %s' % (angle, facing))
self.notify.debug('Interest %s' % interest)
self.notify.debug('Quality %s' % quality)
self.notify.debug('tooClose %s' % tooClose)
if quality <= 0:
return None
else:
score = 0
if angle >= 135:
score += 2
elif angle >= 90:
score += 1
elif angle <= 60:
score -= 1
score += interest
if quality >= 5 and (not tooClose or portrait):
score += 1
if quality >= 10:
score += 1
if quality >= 15:
score += 1
score -= 2
if score > NUMSTARS:
score = float(NUMSTARS)
if score <= 0:
return 1
else:
return score
return None
def __toggleView(self):
self.notify.debug('Toggle View')
hCam = self.swivel.getH()
vCam = self.swivel.getP()
horzPointFlat = self.viewfinderNode.getX() / self.screenSizeX
vertPointFlat = self.viewfinderNode.getZ() / self.screenSizeZ
horzLength = base.camLens.getFov()[0] * 0.5
vertLength = base.camLens.getFov()[1] * 0.5
horzRadianLength = toRadians(horzLength)
vertRadianLength = toRadians(vertLength)
hMRadian = math.atan(horzPointFlat * math.tan(horzRadianLength))
vMRadian = math.atan(vertPointFlat * math.tan(vertRadianLength))
hMDegree = toDegrees(hMRadian)
vMDegree = toDegrees(vMRadian)
if self.zoomedView:
self.zoomedView = 0
else:
self.zoomedView = 1
if self.zoomedView:
self.notify.debug('Zoom In')
hMove = hMDegree * (1.0 - ZOOMRATIO)
vMove = vMDegree * (1.0 - ZOOMRATIO)
self.currentFov = self.zoomFov
base.camLens.setFov(self.zoomFov)
self.blackoutNode.show()
self.swivel.setHpr(self.swivel, hMove * -self.zoomFlip, vMove * self.zoomFlip, 0)
else:
self.notify.debug('Zoom Out')
hMove = hMDegree * ((1.0 - ZOOMRATIO) / ZOOMRATIO)
vMove = vMDegree * ((1.0 - ZOOMRATIO) / ZOOMRATIO)
self.currentFov = self.outFov
base.camLens.setFov(self.outFov)
self.blackoutNode.hide()
self.swivel.setHpr(self.swivel, hMove * self.zoomFlip, vMove * -self.zoomFlip, 0)
def __doZoom(self):
self.notify.debug('Toggle View')
self.playSound('zoom')
hCam = self.swivel.getH()
vCam = self.swivel.getP()
horzPointFlat = self.viewfinderNode.getX() / self.screenSizeX
vertPointFlat = self.viewfinderNode.getZ() / self.screenSizeZ
horzLength = base.camLens.getFov()[0] * 0.5
vertLength = base.camLens.getFov()[1] * 0.5
horzRadianLength = toRadians(horzLength)
vertRadianLength = toRadians(vertLength)
hMRadian = math.atan(horzPointFlat * math.tan(horzRadianLength))
vMRadian = math.atan(vertPointFlat * math.tan(vertRadianLength))
hMDegree = toDegrees(hMRadian)
vMDegree = toDegrees(vMRadian)
if self.zoomedView:
self.zoomedView = 0
else:
self.zoomedView = 1
self.cameraTrack = Sequence()
if self.zoomedView:
self.notify.debug('Zoom In')
hMove = hMDegree * (1.0 - ZOOMRATIO)
vMove = vMDegree * (1.0 - ZOOMRATIO)
self.currentFov = self.zoomFov
base.camLens.setFov(self.zoomFov)
self.blackoutNode.show()
orgQuat = self.swivel.getQuat()
self.swivel.setHpr(self.swivel, hMove * -self.zoomFlip, vMove * self.zoomFlip, 0)
self.swivel.setR(0.0)
newQuat = self.swivel.getQuat()
self.swivel.setQuat(orgQuat)
zoomTrack = Parallel()
zoomTrack.append(LerpQuatInterval(self.swivel, ZOOMTIME, newQuat))
zoomTrack.append(LerpFunc(base.camLens.setFov, fromData=self.outFov, toData=self.zoomFov, duration=ZOOMTIME))
zoomTrack.append(LerpFunc(self.setBlackout, fromData=0.0, toData=0.5, duration=ZOOMTIME))
self.cameraTrack.append(zoomTrack)
self.cameraTrack.append(Func(self.finishZoom, 1))
else:
self.notify.debug('Zoom Out')
hMove = hMDegree * ((1.0 - ZOOMRATIO) / ZOOMRATIO)
vMove = vMDegree * ((1.0 - ZOOMRATIO) / ZOOMRATIO)
self.currentFov = self.outFov
base.camLens.setFov(self.outFov)
orgQuat = self.swivel.getQuat()
self.swivel.setHpr(self.swivel, hMove * self.zoomFlip, vMove * -self.zoomFlip, 0)
self.swivel.setR(0.0)
newQuat = self.swivel.getQuat()
self.swivel.setQuat(orgQuat)
zoomTrack = Parallel()
zoomTrack.append(LerpQuatInterval(self.swivel, ZOOMTIME, newQuat))
zoomTrack.append(LerpFunc(base.camLens.setFov, fromData=self.zoomFov, toData=self.outFov, duration=ZOOMTIME))
zoomTrack.append(LerpFunc(self.setBlackout, fromData=0.5, toData=0.0, duration=ZOOMTIME))
self.cameraTrack.append(zoomTrack)
self.cameraTrack.append(Func(self.blackoutNode.hide))
self.cameraTrack.append(Func(self.finishZoom, 0))
self.cameraTrack.start()
def setBlackout(self, black):
self.blackoutNode.setColorScale(0.0, 0.0, 0.0, black)
def getSubjectTrackState(self, subject):
subjectTrack = self.subjectTracks.get(subject)
if subjectTrack:
interval = subjectTrack[0]
timeline = subjectTrack[1]
time = interval.getT()
timeCount = time
timelineIndex = 0
while timeCount >= 0.0:
timeCount -= timeline[timelineIndex][1]
if timeCount >= 0.0:
timelineIndex += 1
return timeline[timelineIndex]
else:
return None
return None
def __setupSubjects(self):
self.__setupCollisions()
self.subjects = []
self.subjectTracks = {}
self.photoRoot.reparentTo(self.subjectNode)
self.photoRoot.setTag('sceneryIndex', '%s' % len(self.scenery))
self.scenery.append(self.photoRoot)
random.seed(time.time())
namegen = NameGenerator.NameGenerator()
for pathIndex in range(len(self.data['PATHS'])):
path = self.data['PATHS'][pathIndex]
subject = Toon.Toon()
gender = random.choice(['m', 'f'])
seed = int(random.random() * 571)
if gender == 'm':
boy = 1
girl = 0
else:
boy = 0
girl = 1
subject.setName(namegen.randomNameMoreinfo(boy=boy, girl=girl)[-1])
self.nameCounter += 1
subject.setPickable(0)
subject.setPlayerType(NametagGroup.CCNonPlayer)
dna = ToonDNA.ToonDNA()
dna.newToonRandom(seed, gender, 1)
subject.setDNAString(dna.makeNetString())
subject.animFSM.request('neutral')
subject.setTag('subjectIndex', '%s' % len(self.subjects))
self.subjects.append(subject)
height = subject.getHeight()
self.collSphere = CollisionSphere(0, 0, height * 0.5, height * 0.5)
self.collSphere.setTangible(1)
self.collNode = CollisionNode(self.uniqueName('subject Sphere'))
self.collNode.setCollideMask(BitMask32.allOn())
self.collNode.addSolid(self.collSphere)
self.collNodePath = subject.attachNewNode(self.collNode)
subject.reparentTo(self.subjectNode)
subject.setPos(path[0])
subject.lookAt(path[1])
subject.show()
subjectTrack = self.generateToonTrack(subject, path, pathIndex)
subjectTrack[0].start()
self.subjectTracks[subject] = subjectTrack
def regenerateToonTrack(self, subject, path, pathIndex):
if not hasattr(self, 'swivel'):
return
subjectTrack = self.generateToonTrack(subject, path, pathIndex)
subjectTrack[0].start()
self.subjectTracks[subject] = subjectTrack
def generateToonTrack(self, subject, path, pathIndex):
def getNextIndex(curIndex, path):
return (curIndex + 1) % len(path)
subjectTrack = Sequence()
subjectTimeline = []
timeAccum = 0.0
pathPointIndex = 0
orgPos = subject.getPos()
orgQuat = subject.getQuat()
while pathPointIndex < len(path):
nextIndex = getNextIndex(pathPointIndex, path)
curPoint = path[pathPointIndex]
nextPoint = path[nextIndex]
distance = self.slowDistance(curPoint, nextPoint)
pointTime = distance * 0.25
subject.setPos(curPoint)
subject.lookAt(nextPoint)
nextQuat = subject.getQuat()
animSetIndex = self.data['PATHANIMREL'][pathIndex]
animChoice = random.choice(self.data['ANIMATIONS'][animSetIndex])[0]
movetype = random.choice(self.data['MOVEMODES'][animSetIndex])
turnTime = 0.2
if movetype[0] == 'swim':
turnTime = 0.0
nextInterval = LerpQuatInterval(subject, turnTime, quat=nextQuat)
subjectTrack.append(nextInterval)
subjectTimeline.append((timeAccum,
nextInterval.getDuration(),
'turn',
1.0))
timeAccum += nextInterval.getDuration()
movetype = random.choice(self.data['MOVEMODES'][animSetIndex])
pointTime = pointTime * movetype[1]
if movetype[0] == 'swim':
nextInterval = Sequence()
startInterval = Func(subject.setP, -60)
midInterval = Parallel(LerpPosInterval(subject, pointTime, nextPoint), ActorInterval(subject, movetype[0], loop=1, duration=pointTime))
nextInterval.append(startInterval)
nextInterval.append(midInterval)
else:
nextInterval = Sequence()
startInterval = Func(subject.setP, 0)
midInterval = Parallel(LerpPosInterval(subject, pointTime, nextPoint), ActorInterval(subject, movetype[0], loop=1, duration=pointTime))
nextInterval.append(startInterval)
nextInterval.append(midInterval)
subjectTrack.append(nextInterval)
subjectTimeline.append((timeAccum,
nextInterval.getDuration(),
movetype[0],
1.0))
timeAccum += nextInterval.getDuration()
if animChoice:
nextInterval = ActorInterval(subject, animChoice, loop=0)
subjectTrack.append(nextInterval)
subjectTimeline.append((timeAccum,
nextInterval.getDuration(),
animChoice,
2.0))
timeAccum += nextInterval.getDuration()
pathPointIndex += 1
subject.setPos(orgPos)
subject.setQuat(orgQuat)
subjectTrack.append(Func(self.regenerateToonTrack, subject, path, pathIndex))
return (subjectTrack, subjectTimeline)
def slowDistance(self, point1, point2):
dx = point1[0] - point2[0]
dy = point1[1] - point2[1]
dz = point1[2] - point2[2]
distance = math.sqrt(dx * dx + dy * dy + dz * dz)
return distance
def getNextPoint(self, pointList, point):
pointIndex = 0
length = len(pointList)
found = 0
loop = 0
while not found and loop < length:
if pointList[index] == point:
found = 1
else:
index += 1
loop += 1
if not found:
return None
nextPointIndex = loop + 1
if nextPointIndex >= length:
nextPointIndex = 0
return pointList[nextPointIndex]
def __createTripod(self):
tripod = self.tripodModel.copyTo(hidden)
swivel = tripod.find('**/cannon')
self.tripod = tripod
self.swivel = swivel
self.pointer = self.swivel.attachNewNode('pointer')
self.tripod.setPos(self.photoRoot.getPos())
self.tripod.setPos(self.tripod.getPos() + self.data['TRIPOD_OFFSET'])
def setGameReady(self):
if not self.hasLocalToon:
return
self.notify.debug('setGameReady')
if DistributedMinigame.setGameReady(self):
return
def setGameStart(self, timestamp):
if not self.hasLocalToon:
return
self.notify.debug('setGameStart')
DistributedMinigame.setGameStart(self, timestamp)
self.__stopIntro()
self.__putCameraOnTripod()
if not base.config.GetBool('endless-cannon-game', 0):
self.timer.show()
self.timer.countdown(self.data['TIME'], self.__gameTimerExpired)
self.filmPanel.reparentTo(aspect2d)
self.scoreMult = MinigameGlobals.getScoreMult(self.cr.playGame.hood.id)
self.clockStopTime = None
self.gameFSM.request('aim')
self.__putCameraOnTripod()
self.currentAssignment = 0
assignmentTemplates = self.generateAssignmentTemplates(PhotoGameGlobals.ONSCREENASSIGNMENTS)
self.generateAssignments(assignmentTemplates)
self.generateAssignmentPanels()
self.scorePanel = self.makeScoreFrame()
self.scorePanel.reparentTo(aspect2d)
self.scorePanel.setPos(1.05, 0.0, -0.725)
self.updateAssignmentPanels()
for subject in self.subjects:
subject.useLOD(1000)
return
def setGameExit(self):
DistributedMinigame.setGameExit(self)
self.__gameTimerExpired()
def __gameTimerExpired(self):
self.notify.debug('game timer expired')
self.gameOver()
def generateAssignments(self, assignmentTemplates):
for template in assignmentTemplates:
subject = self.subjects[template[0]]
pose = template[1]
score = 0.0
panel = None
topScore = 0.0
topScorerId = None
textureBuffer = None
texturePanel = None
texture = None
panelToon = None
assignment = (subject, pose)
if assignment not in self.assignments:
self.assignments.append(assignment)
self.assignmentDataDict[assignment] = [score,
panel,
topScore,
topScorerId,
textureBuffer,
texturePanel,
texture,
panelToon]
self.notify.debug('assignments')
for assignment in self.assignments:
self.notify.debug(str(assignment))
return
def generateAssignmentPanels(self):
self.notify.debug('generateAssignmentPanels')
for panel in self.assignmentPanels:
panel.destroy()
spacing = self.screenSizeX / PhotoGameGlobals.ONSCREENASSIGNMENTS * 1.61
index = 0
Xoff = self.screenSizeX - 0.735
Zoff = -self.screenSizeZ + 0.25
for assignment in self.assignments:
self.notify.debug('made assignment panel %s' % str(assignment))
panel, texturePanel, toon = self.makeAssignmentPanel(assignment)
panel.setX(Xoff - spacing * index)
panel.setZ(Zoff)
texturePanel.setZ(0.065)
rot = random.choice([0.0,
2.0,
-2.0,
-4.0,
6.0])
panel.setR(rot)
textureBuffer = base.win.makeTextureBuffer('Photo Capture', 128, 128)
dr = textureBuffer.makeDisplayRegion()
dr.setCamera(self.captureCam)
texture = textureBuffer.getTexture()
texturePanel.setTexture(texture)
texturePanel.setColorScale(0, 0, 0, 0)
textureBuffer.setActive(0)
self.textureBuffers.append(textureBuffer)
texturePanel.hide()
self.assignmentPanels.append(panel)
self.assignmentDataDict[assignment][1] = panel
self.assignmentDataDict[assignment][4] = textureBuffer
self.assignmentDataDict[assignment][5] = texturePanel
self.assignmentDataDict[assignment][6] = texture
self.assignmentDataDict[assignment][7] = toon
index += 1
def printAD(self):
for assignment in self.assignmentDataDict:
data = self.assignmentDataDict[assignment]
toontown: initial work on python 3.x support
2019-12-30 00:07:56 -06:00
print('Key:%s\nData:%s\n' % (str(assignment), data))
general: push the 2013 TTO code
2019-11-02 17:27:54 -05:00
def updateScorePanel(self):
teamScore = 0.0
bonusScore = 0.0
for assignment in self.assignments:
data = self.assignmentDataDict[assignment]
teamScore += data[2]
if data[3] == localAvatar.doId:
bonusScore += 1.0
self.scorePanel['text'] = TTLocalizer.PhotoGameScore % (int(teamScore), int(bonusScore), int(teamScore + bonusScore))
def updateAssignmentPanels(self):
for assignment in self.assignments:
data = self.assignmentDataDict[assignment]
leaderName = data[3]
leader = base.cr.doId2do.get(data[3])
if not leader:
data[1]['text'] = ' '
elif leader.doId == localAvatar.doId:
data[1]['text'] = TTLocalizer.PhotoGameScoreYou
else:
leaderName = leader.getName()
data[1]['text'] = TTLocalizer.PhotoGameScoreOther % leaderName
starList = self.starDict[data[1]]
starParent = self.starParentDict[data[1]]
score = int(data[2])
for index in range(NUMSTARS):
if index < score:
starList[index].show()
else:
starList[index].hide()
starParent.setX(float(NUMSTARS - score) * STARSIZE * 0.5)
self.updateScorePanel()
def makeAssignmentPanel(self, assignment):
if assignment != None:
assignedToon = Toon.Toon()
assignedToon.setDNA(assignment[0].getStyle())
else:
assignedToon = None
model, ival = self.makeFrameModel(assignedToon)
if assignedToon:
assignedToon.loop(assignment[1])
model.reparentTo(aspect2d)
assignedToon.setH(172)
assignedToon.setZ(-1.2)
assignedToon.setY(100.0)
if assignment[1] == 'swim':
assignedToon.setP(-70)
assignedToon.setH(160)
assignedToon.setZ(-0.6)
model.setH(0)
model.setScale(1.0)
model['text'] = ' '
assignedToon.setY(-100.0)
model.setY(-10.0)
screen = model.attachNewNode('screen node')
BuildGeometry.addSquareGeom(screen, 0.36, 0.27, Vec4(1.0, 1.0, 1.0, 1.0))
screen.setHpr(0, 90, 0)
screen.setDepthTest(1)
starImage = loader.loadModel('phase_4/models/minigames/photogame_star')
starParent = model.attachNewNode('star parent')
self.starDict[model] = []
for index in range(NUMSTARS):
star = DirectLabel(parent=starParent, image=starImage, image_color=(1, 1, 1, 1), image_scale=Point3(STARSIZE, 0.0, STARSIZE), relief=None)
star.setX(STARSIZE * -0.5 * float(NUMSTARS) + float(index + 0.5) * STARSIZE)
star.setZ(-0.05 - STARSIZE)
self.starDict[model].append(star)
self.starParentDict[model] = starParent
star.hide()
return (model, screen, assignedToon)
def makeFrameModel(self, model):
frame = self.makeAssignmentFrame()
ival = None
if model:
model.setDepthTest(1)
model.setDepthWrite(1)
scale = frame.attachNewNode('scale')
model.reparentTo(scale)
bMin, bMax = model.getTightBounds()
center = (bMin + bMax) / 2.0
model.setPos(-center[0], 2, -center[2])
corner = Vec3(bMax - center)
scaleFactor = self.screenSizeX / PhotoGameGlobals.ONSCREENASSIGNMENTS
scale.setScale(0.4 * scaleFactor / max(corner[0], corner[1], corner[2]))
return (frame, ival)
def makeAssignmentFrame(self):
from direct.gui.DirectGui import DirectFrame
photoImage = loader.loadModel('phase_4/models/minigames/photo_game_pictureframe')
size = 1.0
assignmentScale = self.screenSizeX / PhotoGameGlobals.ONSCREENASSIGNMENTS
frame = DirectFrame(parent=hidden, image=photoImage, image_color=(1, 1, 1, 1), image_scale=Point3(1.6 * assignmentScale, 0.0, 1.75 * assignmentScale), frameSize=(-size,
size,
-size,
size), text='HC Score', textMayChange=1, text_wordwrap=9, text_pos=Point3(0.0, -0.135, 0.0), text_scale=0.045, relief=None)
return frame
def makeScoreFrame(self):
from direct.gui.DirectGui import DirectFrame
size = 1.0
scoreImage = loader.loadModel('phase_4/models/minigames/photogame_camera')
frame = DirectFrame(parent=hidden, image=scoreImage, image_color=(1, 1, 1, 1), image_scale=Point3(0.64, 0.0, 0.64), frameSize=(-size,
size,
-size,
size), text='Score Frame', textMayChange=1, text_wordwrap=9, text_pos=Point3(0.0, 0.0, 0.0), text_scale=0.05, relief=None)
return frame
def enterOff(self):
self.notify.debug('enterOff')
def exitOff(self):
pass
def enterAim(self):
self.notify.debug('enterAim')
self.__enableAimInterface()
taskMgr.add(self.__moveViewfinder, 'photo game viewfinder Task')
self.accept('mouse1', self.__handleMouseClick)
base.localAvatar.laffMeter.stop()
base.transitions.noIris()
def exitAim(self):
self.__disableAimInterface()
taskMgr.remove('photo game viewfinder Task')
self.ignore('mouse1')
def enterZoom(self):
self.notify.debug('enterZoom')
taskMgr.add(self.__moveViewfinder, 'photo game viewfinder Task')
self.__doZoom()
def exitZoom(self):
taskMgr.remove('photo game viewfinder Task')
self.notify.debug('exitZoom')
def finishZoom(self, zoomed = None, task = None):
if zoomed:
self.captureLens.setFov(self.captureZoomFOV)
else:
self.captureLens.setFov(self.captureOutFOV)
self.gameFSM.request('aim')
def enterShowResults(self):
self.notify.debug('enterShowResults')
for subject in self.subjects:
subject.resetLOD()
def exitShowResults(self):
pass
def enterCleanup(self):
self.notify.debug('enterCleanup')
self.music.stop()
if hasattr(self, 'jarIval'):
self.jarIval.finish()
del self.jarIval
for avId in self.avIdList:
taskMgr.remove('firePhoto' + str(avId))
taskMgr.remove('flyingToon' + str(avId))
def exitCleanup(self):
pass
def __enableAimInterface(self):
self.accept(self.FIRE_KEY, self.__fireKeyPressed)
self.accept(self.UP_KEY, self.__upKeyPressed)
self.accept(self.DOWN_KEY, self.__downKeyPressed)
self.accept(self.LEFT_KEY, self.__leftKeyPressed)
self.accept(self.RIGHT_KEY, self.__rightKeyPressed)
self.__spawnLocalPhotoMoveTask()
def __disableAimInterface(self):
self.ignore(self.FIRE_KEY)
self.ignore(self.UP_KEY)
self.ignore(self.DOWN_KEY)
self.ignore(self.LEFT_KEY)
self.ignore(self.RIGHT_KEY)
self.ignore(self.FIRE_KEY + '-up')
self.ignore(self.UP_KEY + '-up')
self.ignore(self.DOWN_KEY + '-up')
self.ignore(self.LEFT_KEY + '-up')
self.ignore(self.RIGHT_KEY + '-up')
self.__killLocalPhotoMoveTask()
def __fireKeyPressed(self):
self.ignore(self.FIRE_KEY)
self.accept(self.FIRE_KEY + '-up', self.__fireKeyReleased)
self.__firePressed()
def __upKeyPressed(self):
self.ignore(self.UP_KEY)
self.accept(self.UP_KEY + '-up', self.__upKeyReleased)
self.__upPressed()
def __downKeyPressed(self):
self.ignore(self.DOWN_KEY)
self.accept(self.DOWN_KEY + '-up', self.__downKeyReleased)
self.__downPressed()
def __leftKeyPressed(self):
self.ignore(self.LEFT_KEY)
self.accept(self.LEFT_KEY + '-up', self.__leftKeyReleased)
self.__leftPressed()
def __rightKeyPressed(self):
self.ignore(self.RIGHT_KEY)
self.accept(self.RIGHT_KEY + '-up', self.__rightKeyReleased)
self.__rightPressed()
def __fireKeyReleased(self):
self.ignore(self.FIRE_KEY + '-up')
self.accept(self.FIRE_KEY, self.__fireKeyPressed)
self.__fireReleased()
def __leftKeyReleased(self):
self.ignore(self.LEFT_KEY + '-up')
self.accept(self.LEFT_KEY, self.__leftKeyPressed)
self.__leftReleased()
def __rightKeyReleased(self):
self.ignore(self.RIGHT_KEY + '-up')
self.accept(self.RIGHT_KEY, self.__rightKeyPressed)
self.__rightReleased()
def __upKeyReleased(self):
self.ignore(self.UP_KEY + '-up')
self.accept(self.UP_KEY, self.__upKeyPressed)
self.__upReleased()
def __downKeyReleased(self):
self.ignore(self.DOWN_KEY + '-up')
self.accept(self.DOWN_KEY, self.__downKeyPressed)
self.__downReleased()
def __firePressed(self):
self.notify.debug('fire pressed')
def __fireReleased(self):
self.gameFSM.request('zoom')
def __upPressed(self):
self.notify.debug('up pressed')
self.upPressed = self.__enterControlActive(self.upPressed)
def __downPressed(self):
self.notify.debug('down pressed')
self.downPressed = self.__enterControlActive(self.downPressed)
def __leftPressed(self):
self.notify.debug('left pressed')
self.leftPressed = self.__enterControlActive(self.leftPressed)
def __rightPressed(self):
self.notify.debug('right pressed')
self.rightPressed = self.__enterControlActive(self.rightPressed)
def __upReleased(self):
self.notify.debug('up released')
self.upPressed = self.__exitControlActive(self.upPressed)
def __downReleased(self):
self.notify.debug('down released')
self.downPressed = self.__exitControlActive(self.downPressed)
def __leftReleased(self):
self.notify.debug('left released')
self.leftPressed = self.__exitControlActive(self.leftPressed)
def __rightReleased(self):
self.notify.debug('right released')
self.rightPressed = self.__exitControlActive(self.rightPressed)
def __handleMouseClick(self):
self.notify.debug('mouse click')
self.__testCollisions()
def __enterControlActive(self, control):
return control + 1
def __exitControlActive(self, control):
return max(0, control - 1)
def __spawnLocalPhotoMoveTask(self):
self.leftPressed = 0
self.rightPressed = 0
self.upPressed = 0
self.downPressed = 0
self.photoMoving = 0
task = Task(self.__localPhotoMoveTask)
task.lastPositionBroadcastTime = 0.0
taskMgr.add(task, self.LOCAL_PHOTO_MOVE_TASK)
def __killLocalPhotoMoveTask(self):
taskMgr.remove(self.LOCAL_PHOTO_MOVE_TASK)
if self.photoMoving:
self.sndPhotoMove.stop()
def __localPhotoMoveTask(self, task):
if not hasattr(self, 'swivel'):
return
pos = [self.swivel.getHpr()[0], self.swivel.getHpr()[1], self.swivel.getHpr()[2]]
oldRot = pos[0]
oldAng = pos[1]
rotVel = 0
if self.leftPressed:
rotVel += PhotoGameGlobals.PHOTO_ROTATION_VEL
if self.rightPressed:
rotVel -= PhotoGameGlobals.PHOTO_ROTATION_VEL
pos[0] += rotVel * globalClock.getDt()
angVel = 0
if self.upPressed:
angVel += PhotoGameGlobals.PHOTO_ANGLE_VEL
if self.downPressed:
angVel -= PhotoGameGlobals.PHOTO_ANGLE_VEL
pos[1] += angVel * globalClock.getDt()
if pos[1] < PhotoGameGlobals.PHOTO_ANGLE_MIN:
pos[1] = PhotoGameGlobals.PHOTO_ANGLE_MIN
elif pos[1] > PhotoGameGlobals.PHOTO_ANGLE_MAX:
pos[1] = PhotoGameGlobals.PHOTO_ANGLE_MAX
if oldRot != pos[0] or oldAng != pos[1]:
if self.photoMoving == 0:
self.photoMoving = 1
base.playSfx(self.sndPhotoMove, looping=1)
posVec = Vec3(pos[0], pos[1], pos[2])
self.swivel.setHpr(posVec)
elif self.photoMoving:
self.photoMoving = 0
self.sndPhotoMove.stop()
return Task.cont
def __putCameraOnTripod(self):
camera.setPosHpr(0, 0.0, 0, 0, 0, 0)
camera.reparentTo(self.swivel)
self.swivel.setHpr(self.data['START_HPR'])
def __loadToonInTripod(self, avId):
toon = base.cr.doId2do.get(avId)
if toon:
toon.reparentTo(self.swivel)
def __toRadians(self, angle):
return angle * 2.0 * math.pi / 360.0
def __toDegrees(self, angle):
return angle * 360.0 / (2.0 * math.pi)
def __decreaseFilmCount(self):
curTime = self.getCurrentGameTime()
score = self.filmCount - 1
if not hasattr(self, 'curScore'):
self.curScore = score
self.filmPanel['text'] = str(score)
if self.curScore != score:
if hasattr(self, 'jarIval'):
self.jarIval.finish()
s = self.filmPanel.getScale()
self.jarIval = Parallel(Sequence(self.filmPanel.scaleInterval(0.15, s * 3.0 / 4.0, blendType='easeOut'), self.filmPanel.scaleInterval(0.15, s, blendType='easeIn')), Sequence(Wait(0.25), SoundInterval(self.sndFilmTick)), name='photoGameFilmJarThrob')
self.jarIval.start()
self.curScore = score
self.filmCount = score
def __stopIntro(self):
taskMgr.remove(self.INTRO_TASK_NAME)
taskMgr.remove(self.INTRO_TASK_NAME_CAMERA_LERP)
self.__putCameraOnTripod()
if self.introSequence:
self.introSequence.finish()
self.introSequence = None
return
def __startIntro(self):
camera.reparentTo(render)
camera.setPos(self.data['CAMERA_INTIAL_POSTION'])
camera.setHpr(0, 0, 0)
camera.lookAt(self.tripod)
lookatHpr = camera.getHpr()
self.introSequence = LerpPosHprInterval(camera, 4.0, pos=self.tripod.getPos(render), hpr=lookatHpr, startPos=self.data['CAMERA_INTIAL_POSTION'], blendType='easeInOut')
self.introSequence.start()
def construct(self):
zone = self.getSafezoneId()
if zone == ToontownGlobals.ToontownCentral:
self.constructTTC()
elif zone == ToontownGlobals.DonaldsDock:
self.constructDD()
elif zone == ToontownGlobals.DaisyGardens:
self.constructDG()
elif zone == ToontownGlobals.MinniesMelodyland:
self.constructMM()
elif zone == ToontownGlobals.TheBrrrgh:
self.constructBR()
elif zone == ToontownGlobals.DonaldsDreamland:
self.constructDL()
def destruct(self):
zone = self.getSafezoneId()
if zone == ToontownGlobals.ToontownCentral:
self.destructTTC()
elif zone == ToontownGlobals.DonaldsDock:
self.destructDD()
elif zone == ToontownGlobals.DaisyGardens:
self.destructDG()
elif zone == ToontownGlobals.MinniesMelodyland:
self.destructMM()
elif zone == ToontownGlobals.TheBrrrgh:
self.destructBR()
elif zone == ToontownGlobals.DonaldsDreamland:
self.destructDL()
def constructTTC(self):
self.photoRoot = self.scene.find('**/prop_gazebo*')
self.sky = loader.loadModel('phase_3.5/models/props/TT_sky')
self.sky.reparentTo(render)
self.sky.setBin('background', -100)
self.sky.find('**/cloud1').setBin('background', -99)
self.sky.find('**/cloud2').setBin('background', -98)
self.scene.reparentTo(render)
self.makeDictionaries(self.dnaStore)
self.createAnimatedProps(self.nodeList)
self.startAnimatedProps()
self.scene.find('**/door_trigger_22*').hide()
self.scene.find('**/doorFrameHoleRight_0*').hide()
self.scene.find('**/doorFrameHoleLeft_0*').hide()
def destructTTC(self):
self.stopAnimatedProps()
self.deleteAnimatedProps()
def constructDD(self):
self.photoRoot = self.scene.find('**/center_island*')
self.sky = loader.loadModel('phase_3.5/models/props/BR_sky')
self.sky.reparentTo(render)
self.sky.setBin('background', -100)
self.sky.find('**/skypanel1').setBin('background', -98)
self.sky.find('**/skypanel2').setBin('background', -97)
self.sky.find('**/skypanel3').setBin('background', -96)
self.sky.find('**/skypanel4').setBin('background', -95)
self.sky.find('**/skypanel5').setBin('background', -94)
self.sky.find('**/skypanel6').setBin('background', -93)
self.scene.reparentTo(render)
self.makeDictionaries(self.dnaStore)
self.createAnimatedProps(self.nodeList)
self.startAnimatedProps()
boatGeom = self.scene.find('**/donalds_boat')
self.photoRoot.setPos(-22, 0, 0)
self.boat = self.photoRoot.attachNewNode('boat')
boatGeom.reparentTo(self.boat)
boatGeom.setX(45.0)
boatGeom.setY(-5.0)
boatGeom.setR(-0.0)
boatGeom.setH(-8)
self.bg = boatGeom
self.boatTrack = Sequence()
self.boatTrack.append(LerpHprInterval(self.boat, 90.0, Point3(360, 0, 0)))
self.boatTrack.loop()
self.boatTrack2 = Sequence()
self.boatTrack2.append(LerpPosInterval(self.boat, 5.0, Point3(0, 0, 2.0), Point3(0, 0, 1.0), blendType='easeInOut'))
self.boatTrack2.append(LerpPosInterval(self.boat, 5.0, Point3(0, 0, 1.0), Point3(0, 0, 2.0), blendType='easeInOut'))
self.boatTrack2.loop()
ddFog = Fog('DDFog Photo')
ddFog.setColor(Vec4(0.8, 0.8, 0.8, 1.0))
ddFog.setLinearRange(0.0, 400.0)
render.setFog(ddFog)
water = self.scene.find('**/top_surface')
water.setTransparency(TransparencyAttrib.MAlpha)
water.setColorScale(1.0, 1.0, 1.0, 0.8)
water.setDepthWrite(1)
water.setDepthTest(1)
water.setBin('transparent', 0)
def destructDD(self):
self.bg = None
self.boatTrack.finish()
self.boatTrack2.finish()
self.boat.removeNode()
render.clearFog()
self.stopAnimatedProps()
self.deleteAnimatedProps()
return
def constructDG(self):
self.photoRoot = render.attachNewNode('DG PhotoRoot')
self.photoRoot.setPos(1.39, 92.91, 2.0)
self.bigFlower = loader.loadModel('phase_8/models/props/DG_flower-mod.bam')
self.bigFlower.reparentTo(self.photoRoot)
self.bigFlower.setScale(2.5)
self.sky = loader.loadModel('phase_3.5/models/props/TT_sky')
self.sky.reparentTo(render)
self.sky.setBin('background', -100)
self.sky.find('**/cloud1').setBin('background', -99)
self.sky.find('**/cloud2').setBin('background', -98)
self.scene.reparentTo(render)
self.scene.find('**/door_trigger_5*').hide()
self.scene.find('**/doorFrameHoleRight_0*').hide()
self.scene.find('**/doorFrameHoleLeft_0*').hide()
for name in ['**/o10_2']:
maze = self.scene.find(name)
maze.reparentTo(self.subjectNode)
maze.setTag('sceneryIndex', '%s' % len(self.scenery))
self.scenery.append(maze)
self.makeDictionaries(self.dnaStore)
self.createAnimatedProps(self.nodeList)
self.startAnimatedProps()
def destructDG(self):
self.bigFlower.removeNode()
self.stopAnimatedProps()
self.deleteAnimatedProps()
def constructMM(self):
self.photoRoot = render.attachNewNode('MM PhotoRoot')
self.photoRoot.setPos(103.6, -61, -4.497)
self.sky = loader.loadModel('phase_6/models/props/MM_sky')
self.sky.reparentTo(render)
self.sky.setBin('background', -100)
self.scene.reparentTo(render)
self.scene.find('**/door_trigger_8*').hide()
self.scene.find('**/door_trigger_6*').hide()
self.scene.find('**/door_trigger_1*').hide()
self.scene.find('**/door_trigger_0*').hide()
self.scene.find('**/door_trigger_3*').hide()
self.scene.find('**/doorFrameHoleRight_0*').hide()
self.scene.find('**/doorFrameHoleLeft_0*').hide()
self.scene.find('**/doorFrameHoleRight_1*').hide()
self.scene.find('**/doorFrameHoleLeft_1*').hide()
self.scene.find('**/doorFrameHoleRight').hide()
self.scene.find('**/doorFrameHoleLeft').hide()
self.makeDictionaries(self.dnaStore)
self.createAnimatedProps(self.nodeList)
self.startAnimatedProps()
lm = self.scene.findAllMatches('**/*landmark*')
blocker = lm[2]
blocker.reparentTo(self.subjectNode)
blocker.setTag('sceneryIndex', '%s' % len(self.scenery))
self.scenery.append(blocker)
def destructMM(self):
self.stopAnimatedProps()
self.deleteAnimatedProps()
def constructBR(self):
self.photoRoot = render.attachNewNode('BR PhotoRoot')
self.photoRoot.setPos(-110, -48, 8.567)
self.sky = loader.loadModel('phase_3.5/models/props/BR_sky')
self.sky.reparentTo(render)
self.sky.setBin('background', -100)
self.scene.reparentTo(render)
self.scene.find('**/door_trigger_11*').hide()
self.scene.find('**/doorFrameHoleRight_0*').hide()
self.scene.find('**/doorFrameHoleLeft_0*').hide()
self.makeDictionaries(self.dnaStore)
self.createAnimatedProps(self.nodeList)
self.startAnimatedProps()
self.snow = BattleParticles.loadParticleFile('snowdisk.ptf')
self.snow.setPos(0, 0, 5)
self.snowRender = self.scene.attachNewNode('snowRender')
self.snowRender.setDepthWrite(0)
self.snowRender.setBin('fixed', 1)
self.snowFade = None
self.snow.start(camera, self.snowRender)
return
def destructBR(self):
self.snow.cleanup()
del self.snow
del self.snowRender
self.stopAnimatedProps()
self.deleteAnimatedProps()
def constructDL(self):
self.photoRoot = render.attachNewNode('DL PhotoRoot')
self.photoRoot.setPos(-70.228, 87.588, 4.397)
self.sky = loader.loadModel('phase_8/models/props/DL_sky')
self.sky.reparentTo(render)
self.sky.setBin('background', -100)
self.scene.reparentTo(render)
self.scene.find('**/door_trigger_8*').hide()
self.scene.find('**/doorFrameHoleRight_0*').hide()
self.scene.find('**/doorFrameHoleLeft_0*').hide()
self.scene.find('**/doorFrameHoleRight_1*').hide()
self.scene.find('**/doorFrameHoleLeft_1*').hide()
self.makeDictionaries(self.dnaStore)
self.createAnimatedProps(self.nodeList)
self.startAnimatedProps()
def destructDL(self):
self.stopAnimatedProps()
self.deleteAnimatedProps()
def makeDictionaries(self, dnaStore):
self.nodeList = []
for i in range(dnaStore.getNumDNAVisGroups()):
groupFullName = dnaStore.getDNAVisGroupName(i)
groupName = base.cr.hoodMgr.extractGroupName(groupFullName)
groupNode = self.scene.find('**/' + groupFullName)
if groupNode.isEmpty():
self.notify.error('Could not find visgroup')
self.nodeList.append(groupNode)
def startAnimatedProps(self):
for animPropListKey in self.animPropDict:
animPropList = self.animPropDict[animPropListKey]
for animProp in animPropList:
animProp.enter()
def stopAnimatedProps(self):
for animPropListKey in self.animPropDict:
animPropList = self.animPropDict[animPropListKey]
for animProp in animPropList:
animProp.exit()
def createAnimatedProps(self, nodeList):
self.animPropDict = {}
for i in nodeList:
animPropNodes = i.findAllMatches('**/animated_prop_*')
numAnimPropNodes = animPropNodes.getNumPaths()
for j in range(numAnimPropNodes):
animPropNode = animPropNodes.getPath(j)
if animPropNode.getName().startswith('animated_prop_generic'):
className = 'GenericAnimatedProp'
else:
className = animPropNode.getName()[14:-8]
symbols = {}
base.cr.importModule(symbols, 'toontown.hood', [className])
classObj = getattr(symbols[className], className)
animPropObj = classObj(animPropNode)
animPropList = self.animPropDict.setdefault(i, [])
animPropList.append(animPropObj)
interactivePropNodes = i.findAllMatches('**/interactive_prop_*')
numInteractivePropNodes = interactivePropNodes.getNumPaths()
for j in range(numInteractivePropNodes):
interactivePropNode = interactivePropNodes.getPath(j)
className = 'GenericAnimatedProp'
symbols = {}
base.cr.importModule(symbols, 'toontown.hood', [className])
classObj = getattr(symbols[className], className)
interactivePropObj = classObj(interactivePropNode)
animPropList = self.animPropDict.get(i)
if animPropList is None:
animPropList = self.animPropDict.setdefault(i, [])
animPropList.append(interactivePropObj)
return
def deleteAnimatedProps(self):
for animPropListKey in self.animPropDict:
animPropList = self.animPropDict[animPropListKey]
for animProp in animPropList:
animProp.delete()
del self.animPropDict
def addSound(self, name, soundName, path = None):
if not hasattr(self, 'soundTable'):
self.soundTable = {}
if path:
self.soundPath = path
soundSource = '%s%s' % (self.soundPath, soundName)
self.soundTable[name] = loader.loadSfx(soundSource)
def playSound(self, name, volume = 1.0):
if hasattr(self, 'soundTable'):
self.soundTable[name].setVolume(volume)
self.soundTable[name].play()
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