def doMoveTrack(self,
path,
turnToFirstWP=True,
speed=3.0,
doWalkAnims=True):
self.goon.d_doMoveTrack(path, turnToFirstWP, speed, doWalkAnims)
self.clearMoveTrack()
self.moveTrack = CIGlobals.getMoveIvalFromPath(self.goon, path, speed)
if turnToFirstWP:
turnHpr = CIGlobals.getHeadsUpAngle(self.goon, path[1])
turnHpr[0] = PythonUtil.fitDestAngle2Src(self.goon.getHpr()[0],
turnHpr[0])
turnDist = CIGlobals.getHeadsUpDistance(self.goon, path[1])
self.moveTrack.insert(
1,
LerpHprInterval(self.goon,
duration=turnDist / (speed * 30),
hpr=turnHpr))
self.moveTrack.append(Func(self._moveTrackFinished))
self.moveTrack.start()
self.moving = True
def rollBossToPoint(self, fromPos, fromHpr, toPos, toHpr, reverse):
vector = Vec3(toPos - fromPos)
distance = vector.length()
if toHpr == None:
mat = Mat3(0, 0, 0, 0, 0, 0, 0, 0, 0)
headsUp(mat, vector, CSDefault)
scale = VBase3(0, 0, 0)
shear = VBase3(0, 0, 0)
toHpr = VBase3(0, 0, 0)
decomposeMatrix(mat, scale, shear, toHpr, CSDefault)
if fromHpr:
newH = PythonUtil.fitDestAngle2Src(fromHpr[0], toHpr[0])
toHpr = VBase3(newH, 0, 0)
else:
fromHpr = toHpr
turnTime = abs(toHpr[0] - fromHpr[0]) / ToontownGlobals.BossCogTurnSpeed
if toHpr[0] < fromHpr[0]:
leftRate = ToontownGlobals.BossCogTreadSpeed
else:
leftRate = -ToontownGlobals.BossCogTreadSpeed
if reverse:
rollTreadRate = -ToontownGlobals.BossCogTreadSpeed
else:
rollTreadRate = ToontownGlobals.BossCogTreadSpeed
rollTime = distance / ToontownGlobals.BossCogRollSpeed
deltaPos = toPos - fromPos
track = Sequence(Func(self.setPos, fromPos), Func(self.headsUp, toPos), Parallel(self.hprInterval(turnTime, toHpr, fromHpr), self.rollLeftTreads(turnTime, leftRate), self.rollRightTreads(turnTime, -leftRate)), Parallel(LerpFunctionInterval(self.rollBoss, duration=rollTime, extraArgs=[fromPos, deltaPos]), self.rollLeftTreads(rollTime, rollTreadRate), self.rollRightTreads(rollTime, rollTreadRate)))
return (track, toHpr)
def moveCamera(self, seatIndex):
self.oldCameraPos = camera.getPos()
self.oldCameraHpr = camera.getHpr()
camera.wrtReparentTo(self.picnicTable)
heading = PythonUtil.fitDestAngle2Src(camera.getH(), 90)
#Need to check the seat index so the cameras *down
#is towards the player so he is not facing his own character
#rather he feels he is a bit above him
if seatIndex < 3:
self.cameraBoardTrack = LerpPosHprInterval(camera, 2.0,
Point3(0, 0, 17),
Point3(0, -90, 0))
else:
#needed for camera orientation
#If test is not here, the camera may often flip around
#spinning ~340 degrees to the destination
#instead of turning the 20 degrees towards the table
if (camera.getH() < 0): #(turned left)
self.cameraBoardTrack = LerpPosHprInterval(
camera, 2.0, Point3(0, 0, 17), Point3(-180, -90, 0))
else: #(turned right)
self.cameraBoardTrack = LerpPosHprInterval(
camera, 2.0, Point3(0, 0, 17), Point3(180, -90, 0))
self.cameraBoardTrack.start()
def generateToonMoveTrack(self, toon):
node = NodePath('tempNode')
displacement = Vec3(toon.getPos(render) - self.getPos(render))
displacement.setZ(0)
displacement.normalize()
movieDistance = self.movieNode.getDistance(self.rotateNode)
displacement *= movieDistance
node.reparentTo(render)
node.setPos(displacement + self.getPos(render))
node.lookAt(self)
heading = PythonUtil.fitDestAngle2Src(toon.getH(render),
node.getH(render))
hpr = toon.getHpr(render)
hpr.setX(heading)
finalX = node.getX(render)
finalY = node.getY(render)
finalZ = node.getZ(render)
node.removeNode()
toonTrack = Sequence(
Parallel(
ActorInterval(toon, 'walk', loop=True, duration=1),
Parallel(
LerpPosInterval(toon,
1.0,
Point3(finalX, finalY, toon.getZ(render)),
fluid=True,
bakeInStart=False)),
LerpHprInterval(toon, 1.0, hpr=hpr)),
Func(toon.loop, 'neutral'))
return toonTrack
def generateToonMoveTrack(self, toon):
node = NodePath("tempNode")
displacement = Vec3(toon.getPos(render) - self.getPos(render))
displacement.setZ(0)
displacement.normalize()
movieDistance = self.movieNode.getDistance(self.rotateNode)
displacement *= movieDistance
node.reparentTo(render)
node.setPos(displacement + self.getPos(render))
node.lookAt(self)
heading = PythonUtil.fitDestAngle2Src(toon.getH(render), node.getH(render))
hpr = toon.getHpr(render)
hpr.setX(heading)
finalX = node.getX(render)
finalY = node.getY(render)
finalZ = node.getZ(render)
node.removeNode()
toonTrack = Sequence(
Parallel(
ActorInterval(toon, "walk", loop=True, duration=1),
Parallel(
LerpPosInterval(toon, 1.0, Point3(finalX, finalY, toon.getZ(render)), fluid=True, bakeInStart=False)
),
LerpHprInterval(toon, 1.0, hpr=hpr),
),
Func(toon.loop, "neutral"),
)
return toonTrack
def generateToonMoveTrack(self):
hpr = self.movieNode.getHpr(render)
heading = PythonUtil.fitDestAngle2Src(self.av.getH(render), hpr[0])
hpr.setX(heading)
self.av.setAnimState('run', 1.0)
toonTrack = Sequence(Wait(0.5), Parallel(LerpPosInterval(self.av, 1.0, Point3(self.movieNode.getX(self.avParent), self.movieNode.getY(self.avParent), 0)), LerpHprInterval(self.av, 1.0, hpr=hpr, other=render)), Func(self.av.loop, 'neutral'))
return toonTrack
def __chooseTarget(self, extraDelay=0):
direction = self.__chooseDirection()
if direction is None:
self.target = None
self.arrivalTime = None
self.b_destroyGoon()
return
heading, dist = direction
dist = min(dist, self.legLength)
targetH = PythonUtil.reduceAngle(self.getH() + heading)
origH = self.getH()
h = PythonUtil.fitDestAngle2Src(origH, targetH)
delta = abs(h - origH)
turnTime = delta / (self.velocity * 5)
walkTime = dist / self.velocity
self.setH(targetH)
self.target = self.boss.scene.getRelativePoint(
self, Point3(0, dist, 0))
self.departureTime = globalClock.getFrameTime()
self.arrivalTime = self.departureTime + turnTime + walkTime + extraDelay
self.d_setTarget(
self.target[0],
self.target[1],
h,
globalClockDelta.localToNetworkTime(
self.arrivalTime))
return
def generateToonMoveTrack(self):
hpr = self.movieNode.getHpr(render)
heading = PythonUtil.fitDestAngle2Src(self.av.getH(render), hpr[0])
hpr.setX(heading)
self.av.setAnimState('run', 1.0)
toonTrack = Sequence(Wait(0.5), Parallel(LerpPosInterval(self.av, 1.0, Point3(self.movieNode.getX(self.avParent), self.movieNode.getY(self.avParent), 0)), LerpHprInterval(self.av, 1.0, hpr=hpr, other=render)), Func(self.av.loop, 'neutral'))
return toonTrack
def enterBoarding(self, nodePath, side):
camera.wrtReparentTo(nodePath)
heading = PythonUtil.fitDestAngle2Src(camera.getH(nodePath), 90 * side)
self.cameraBoardTrack = LerpPosHprInterval(
camera, 1.5, Point3(14.4072 * side, 0, 3.8666999999999998), Point3(heading, -15, 0)
)
self.cameraBoardTrack.start()
def __chooseTarget(self, extraDelay = 0):
# Chooses a random point to walk towards.
direction = self.__chooseDirection()
if direction == None:
# No place to go; just blow up.
self.target = None
self.arrivalTime = None
self.b_destroyGoon()
return
heading, dist = direction
dist = min(dist, self.legLength)
targetH = PythonUtil.reduceAngle(self.getH() + heading)
# How long will it take to rotate to position?
origH = self.getH()
h = PythonUtil.fitDestAngle2Src(origH, targetH)
delta = abs(h - origH)
turnTime = delta / (self.velocity * 5)
# And how long will it take to walk to position?
walkTime = dist / self.velocity
self.setH(targetH)
self.target = self.boss.scene.getRelativePoint(self, Point3(0, dist, 0))
self.departureTime = globalClock.getFrameTime()
self.arrivalTime = self.departureTime + turnTime + walkTime + extraDelay
self.d_setTarget(self.target[0], self.target[1], h,
globalClockDelta.localToNetworkTime(self.arrivalTime))
def enterBoarding(self, nodePath):
camera.wrtReparentTo(nodePath)
heading = PythonUtil.fitDestAngle2Src(camera.getH(nodePath), 180)
self.cameraBoardTrack = LerpPosHprInterval(camera, 1.5,
Point3(0, 18, 8),
Point3(heading, -10, 0))
self.cameraBoardTrack.start()
def __startWalk(self):
self.__stopWalk()
if self.target:
now = globalClock.getFrameTime()
availableTime = self.arrivalTime - now
if availableTime > 0:
origH = self.getH()
h = PythonUtil.fitDestAngle2Src(origH, self.targetH)
delta = abs(h - origH)
turnTime = delta / (self.velocity * 5)
dist = Vec3(self.target - self.getPos()).length()
walkTime = dist / self.velocity
denom = turnTime + walkTime
if denom != 0:
timeCompress = availableTime / denom
self.walkTrack = Sequence(
self.hprInterval(
turnTime *
timeCompress,
VBase3(
h,
0,
0)),
self.posInterval(
walkTime *
timeCompress,
self.target))
self.walkTrack.start()
else:
self.setPos(self.target)
self.setH(self.targetH)
def rollBossToPoint(self, fromPos, fromHpr, toPos, toHpr, reverse):
vector = Vec3(toPos - fromPos)
distance = vector.length()
if toHpr == None:
mat = Mat3(0, 0, 0, 0, 0, 0, 0, 0, 0)
headsUp(mat, vector, CSDefault)
scale = VBase3(0, 0, 0)
shear = VBase3(0, 0, 0)
toHpr = VBase3(0, 0, 0)
decomposeMatrix(mat, scale, shear, toHpr, CSDefault)
if fromHpr:
newH = PythonUtil.fitDestAngle2Src(fromHpr[0], toHpr[0])
toHpr = VBase3(newH, 0, 0)
else:
fromHpr = toHpr
turnTime = abs(toHpr[0] - fromHpr[0]) / ToontownGlobals.BossCogTurnSpeed
if toHpr[0] < fromHpr[0]:
leftRate = ToontownGlobals.BossCogTreadSpeed
else:
leftRate = -ToontownGlobals.BossCogTreadSpeed
if reverse:
rollTreadRate = -ToontownGlobals.BossCogTreadSpeed
else:
rollTreadRate = ToontownGlobals.BossCogTreadSpeed
rollTime = distance / ToontownGlobals.BossCogRollSpeed
deltaPos = toPos - fromPos
track = Sequence(Func(self.setPos, fromPos), Func(self.headsUp, toPos), Parallel(self.hprInterval(turnTime, toHpr, fromHpr), self.rollLeftTreads(turnTime, leftRate), self.rollRightTreads(turnTime, -leftRate)), Parallel(LerpFunctionInterval(self.rollBoss, duration=rollTime, extraArgs=[fromPos, deltaPos]), self.rollLeftTreads(rollTime, rollTreadRate), self.rollRightTreads(rollTime, rollTreadRate)))
return (track, toHpr)
def __startWalk(self):
# Generate an interval to walk the goon to his target square
# by the specified time.
self.__stopWalk()
if self.target:
now = globalClock.getFrameTime()
availableTime = self.arrivalTime - now
if availableTime > 0:
# How long will it take to rotate to position?
origH = self.getH()
h = PythonUtil.fitDestAngle2Src(origH, self.targetH)
delta = abs(h - origH)
turnTime = delta / (self.velocity * 5)
# And how long will it take to walk to position?
dist = Vec3(self.target - self.getPos()).length()
walkTime = dist / self.velocity
denom = turnTime + walkTime
if denom != 0:
# Fit that within our available time.
timeCompress = availableTime / denom
self.walkTrack = Sequence(
self.hprInterval(turnTime * timeCompress,
VBase3(h, 0, 0)),
self.posInterval(walkTime * timeCompress, self.target))
self.walkTrack.start()
else:
self.setPos(self.target)
self.setH(self.targetH)
def enterBoarding(self, nodePath):
base.camera.wrtReparentTo(nodePath)
if self.reverseBoardingCamera:
heading = PythonUtil.fitDestAngle2Src(base.camera.getH(nodePath), 180)
self.cameraBoardTrack = LerpPosHprInterval(base.camera, 1.5, Point3(0, 18, 8), Point3(heading, -10, 0))
else:
self.cameraBoardTrack = LerpPosHprInterval(base.camera, 1.5, Point3(0, -16, 5.5), Point3(0, 0, 0))
self.cameraBoardTrack.start()
def enterBoarding(self, nodePath, side):
camera.wrtReparentTo(nodePath)
heading = PythonUtil.fitDestAngle2Src(camera.getH(nodePath), 90 * side)
self.cameraBoardTrack = LerpPosHprInterval(
camera, 1.5, Point3(14.4072 * side, 0, 3.8667),
Point3(heading, -15, 0))
self.cameraBoardTrack.start()
return None
def getJumpHpr(av=av, node=self.tablecloth):
hpr = self.seats[seatIndex].getHpr(av.getParent())
#if(seatIndex < 2):
#hpr.setX( hpr.getX() + 180)
#else:
# hpr.setX( hpr.getX() )
angle = PythonUtil.fitDestAngle2Src(av.getH(), hpr.getX())
hpr.setX(angle)
return hpr
def doDirectedAttack(self, avId, attackCode):
toon = base.cr.doId2do.get(avId)
if toon:
gearRoot = self.rotateNode.attachNewNode('gearRoot')
gearRoot.setZ(10)
gearRoot.setTag('attackCode', str(attackCode))
gearModel = self.getGearFrisbee()
gearModel.setScale(0.2)
gearRoot.headsUp(toon)
toToonH = PythonUtil.fitDestAngle2Src(0, gearRoot.getH() + 180)
gearRoot.lookAt(toon)
neutral = 'Fb_neutral'
if not self.twoFaced:
neutral = 'Ff_neutral'
gearTrack = Parallel()
for i in range(4):
node = gearRoot.attachNewNode(str(i))
node.hide()
node.setPos(0, 5.85, 4.0)
gear = gearModel.instanceTo(node)
x = random.uniform(-5, 5)
z = random.uniform(-3, 3)
h = random.uniform(-720, 720)
gearTrack.append(
Sequence(
Wait(i * 0.15), Func(node.show),
Parallel(
node.posInterval(1, Point3(x, 50, z), fluid=1),
node.hprInterval(1, VBase3(h, 0, 0), fluid=1)),
Func(node.detachNode)))
if not self.raised:
neutral1Anim = self.getAnim('down2Up')
self.raised = 1
else:
neutral1Anim = ActorInterval(self, neutral, startFrame=48)
throwAnim = self.getAnim('throw')
neutral2Anim = ActorInterval(self, neutral)
extraAnim = Sequence()
if attackCode == ToontownGlobals.BossCogSlowDirectedAttack:
extraAnim = ActorInterval(self, neutral)
seq = Sequence(
ParallelEndTogether(
self.pelvis.hprInterval(1, VBase3(toToonH, 0, 0)),
neutral1Anim), extraAnim,
Parallel(
Sequence(Wait(0.19), gearTrack, Func(gearRoot.detachNode),
self.pelvis.hprInterval(0.2, VBase3(0, 0, 0))),
Sequence(
Func(
self.setChatAbsolute,
random.choice(TTLocalizer.DirectedAttackBossTaunts[
self.dna.dept]) % {'toon': toon.getName()},
CFSpeech | CFTimeout), throwAnim, neutral2Anim)))
self.doAnimate(seq, now=1, raised=1)
def moveCamera(self, seatIndex):
self.oldCameraPos = camera.getPos()
self.oldCameraHpr = camera.getHpr()
camera.wrtReparentTo(self.picnicTable)
heading = PythonUtil.fitDestAngle2Src(camera.getH(), 90)
if seatIndex < 3:
self.cameraBoardTrack = LerpPosHprInterval(camera, 2.0, Point3(0, 0, 17), Point3(0, -90, 0))
elif camera.getH() < 0:
self.cameraBoardTrack = LerpPosHprInterval(camera, 2.0, Point3(0, 0, 17), Point3(-180, -90, 0))
else:
self.cameraBoardTrack = LerpPosHprInterval(camera, 2.0, Point3(0, 0, 17), Point3(180, -90, 0))
self.cameraBoardTrack.start()
def moveCamera(self, seatIndex):
self.oldCameraPos = camera.getPos()
self.oldCameraHpr = camera.getHpr()
camera.wrtReparentTo(self.picnicTable)
heading = PythonUtil.fitDestAngle2Src(camera.getH(), 90)
if seatIndex < 3:
self.cameraBoardTrack = LerpPosHprInterval(camera, 2.0, Point3(0, 0, 17), Point3(0, -90, 0))
elif camera.getH() < 0:
self.cameraBoardTrack = LerpPosHprInterval(camera, 2.0, Point3(0, 0, 17), Point3(-180, -90, 0))
else:
self.cameraBoardTrack = LerpPosHprInterval(camera, 2.0, Point3(0, 0, 17), Point3(180, -90, 0))
self.cameraBoardTrack.start()
def enterBoarding(self, nodePath):
base.camera.wrtReparentTo(nodePath)
if self.reverseBoardingCamera:
heading = PythonUtil.fitDestAngle2Src(base.camera.getH(nodePath),
180)
self.cameraBoardTrack = LerpPosHprInterval(base.camera, 1.5,
Point3(0, 18, 8),
Point3(heading, -10, 0))
else:
self.cameraBoardTrack = LerpPosHprInterval(base.camera, 1.5,
Point3(0, -16, 5.5),
Point3(0, 0, 0))
self.cameraBoardTrack.start()
def getJumpHpr(av=av, node=self.golfKart):
hpr = Point3(0, 0, 0)
if hasattr(self, 'golfKart') and self.golfKart:
hpr = self.golfKart.getHpr(av.getParent())
if seatIndex < 2:
hpr.setX(hpr.getX() + 180)
else:
hpr.setX(hpr.getX())
angle = PythonUtil.fitDestAngle2Src(av.getH(), hpr.getX())
hpr.setX(angle)
else:
self.notify.warning('getJumpHpr invalid golfKart, returning (0,0,0)')
return hpr
def getJumpHpr(av = av, node = self.golfKart):
hpr = Point3(0, 0, 0)
if hasattr(self, 'golfKart') and self.golfKart:
hpr = self.golfKart.getHpr(av.getParent())
if seatIndex < 2:
hpr.setX(hpr.getX() + 180)
else:
hpr.setX(hpr.getX())
angle = PythonUtil.fitDestAngle2Src(av.getH(), hpr.getX())
hpr.setX(angle)
else:
self.notify.warning('getJumpHpr invalid golfKart, returning (0,0,0)')
return hpr
def generateToonMoveTrack(self, toon):
"""
"""
#create a temp node that has the same position as
# the toon that we tell to 'lookAt' the plant
#import pdb; pdb.set_trace()
node = NodePath('tempNode')
displacement = Vec3(toon.getPos(render) - self.getPos(render))
displacement.setZ(0) #hmmm should we set this to zero?
displacement.normalize()
movieDistance = self.movieNode.getDistance(self.rotateNode)
displacement *= movieDistance
node.reparentTo(render)
node.setPos(displacement + self.getPos(render))
node.lookAt(self)
# find the best H to turn the toon
heading = PythonUtil.fitDestAngle2Src(toon.getH(render),
node.getH(render))
#heading = PythonUtil.closestDestAngle( toon.getH( render ), node.getH(render) )
hpr = toon.getHpr(render)
hpr.setX(heading)
finalX = node.getX(render)
finalY = node.getY(render)
finalZ = node.getZ(render)
node.removeNode()
toonTrack = Sequence(
Parallel(
ActorInterval(toon, "walk", loop=True, duration=1),
Parallel(
LerpPosInterval(
toon,
1.,
Point3(finalX, finalY, toon.getZ(render)), #finalZ ),
fluid=True,
bakeInStart=False,
),
#Func(self.unprint, "generateToonMoveTrack LerpPosInterval")
),
LerpHprInterval(toon, 1., hpr=hpr),
),
Func(toon.loop, 'neutral'),
)
return toonTrack
def enterWalkToGrid(self):
pos = self.getGridPos()
targetHpr = GameUtils.getHeadsUpHpr(self.getPos(render), pos)
targetHpr[0] = PythonUtil.fitDestAngle2Src(self.getH(), targetHpr[0])
hqHpr = GameUtils.getHeadsUpHpr(pos, self.arena.tempHQ.getPos(render))
hqHpr[0] = PythonUtil.fitDestAngle2Src(targetHpr[0], hqHpr[0])
distance = (self.getPos() - pos).length()
hDiff = abs(self.getH() - targetHpr.getX())
hqHDiff = abs(targetHpr.getX() - hqHpr.getX())
self.tunnelSequence = Sequence(
Func(self.loop, 'walk'),
self.hprInterval(hDiff / GameGlobals.EnemyTurnSpeed,
targetHpr,
blendType='easeInOut'),
self.posInterval(distance / GameGlobals.EnemyForwardSpeed,
pos,
blendType='easeInOut'),
self.hprInterval(hqHDiff / GameGlobals.EnemyTurnSpeed,
hqHpr,
blendType='easeInOut'),
Func(self.loop, 'neutral'), Func(self.__reachedGrid))
self.tunnelSequence.start()
def doDirectedAttack(self, avId, attackCode):
toon = base.cr.doId2do.get(avId)
if toon:
gearRoot = self.rotateNode.attachNewNode('gearRoot')
gearRoot.setZ(10)
gearRoot.setTag('attackCode', str(attackCode))
gearModel = self.getGearFrisbee()
gearModel.setScale(0.2)
gearRoot.headsUp(toon)
toToonH = PythonUtil.fitDestAngle2Src(0, gearRoot.getH() + 180)
gearRoot.lookAt(toon)
neutral = 'Fb_neutral'
if not self.twoFaced:
neutral = 'Ff_neutral'
gearTrack = Parallel()
for i in range(4):
node = gearRoot.attachNewNode(str(i))
node.hide()
node.setPos(0, 5.85, 4.0)
gear = gearModel.instanceTo(node)
x = random.uniform(-5, 5)
z = random.uniform(-3, 3)
h = random.uniform(-720, 720)
gearTrack.append(
Sequence(
Wait(i * 0.15),
Func(node.show),
Parallel(
node.posInterval(
1, Point3(x, 50, z),
fluid=1),
node.hprInterval(
1, VBase3(h, 0, 0),
fluid=1)),
Func(node.detachNode)))
if not self.raised:
neutral1Anim = self.getAnim('down2Up')
self.raised = 1
else:
neutral1Anim = ActorInterval(self, neutral, startFrame=48)
throwAnim = self.getAnim('throw')
neutral2Anim = ActorInterval(self, neutral)
extraAnim = Sequence()
if attackCode == ToontownGlobals.BossCogSlowDirectedAttack:
extraAnim = ActorInterval(self, neutral)
seq = Sequence(ParallelEndTogether(self.pelvis.hprInterval(1, VBase3(toToonH, 0, 0)), neutral1Anim), extraAnim, Parallel(Sequence(Wait(0.19), gearTrack, Func(gearRoot.detachNode), self.pelvis.hprInterval(0.2, VBase3(0, 0, 0))), Sequence(Func(self.setChatAbsolute, random.choice(TTLocalizer.DirectedAttackBossTaunts[self.dna.dept]) % {'toon': toon.getName()}, CFSpeech | CFTimeout), throwAnim, neutral2Anim)))
self.doAnimate(seq, now=1, raised=1)
def addPoint(self, pos, hpr=None):
if hpr:
eggVtx = egg.EggVertex()
if len(self.myrotverts) > 0:
prev = self.myrotverts[-1].getPos3()
hpr = [directutil.fitDestAngle2Src(old, new)
for old,new in zip(prev, hpr)]
eggVtx.setPos(p3d.Point3D(hpr[0], hpr[1], hpr[2]))
self.myrotverts.append(eggVtx)
self.vtxPool.addVertex(eggVtx)
if self.myrotverts and not hpr:
print "you started to add rotations.. you better see it through now!"
eggVtx = egg.EggVertex()
eggVtx.setPos(p3d.Point3D(pos[0], pos[1], pos[2]))
self.myverts.append(eggVtx)
self.vtxPool.addVertex(eggVtx)
def __startWalk(self):
self.__stopWalk()
if self.target:
now = globalClock.getFrameTime()
availableTime = self.arrivalTime - now
if availableTime > 0:
origH = self.getH()
h = PythonUtil.fitDestAngle2Src(origH, self.targetH)
delta = abs(h - origH)
turnTime = delta / (self.velocity * 5)
dist = Vec3(self.target - self.getPos()).length()
walkTime = dist / self.velocity
denom = turnTime + walkTime
if denom != 0:
timeCompress = availableTime / denom
self.walkTrack = Sequence(self.hprInterval(turnTime * timeCompress, VBase3(h, 0, 0)), self.posInterval(walkTime * timeCompress, self.target))
self.walkTrack.start()
else:
self.setPos(self.target)
self.setH(self.targetH)
def __chooseTarget(self, extraDelay = 0):
direction = self.__chooseDirection()
if direction == None:
self.target = None
self.arrivalTime = None
self.b_destroyGoon()
return
heading, dist = direction
dist = min(dist, self.legLength)
targetH = PythonUtil.reduceAngle(self.getH() + heading)
origH = self.getH()
h = PythonUtil.fitDestAngle2Src(origH, targetH)
delta = abs(h - origH)
turnTime = delta / (self.velocity * 5)
walkTime = dist / self.velocity
self.setH(targetH)
self.target = self.boss.scene.getRelativePoint(self, Point3(0, dist, 0))
self.departureTime = globalClock.getFrameTime()
self.arrivalTime = self.departureTime + turnTime + walkTime + extraDelay
self.d_setTarget(self.target[0], self.target[1], h, globalClockDelta.localToNetworkTime(self.arrivalTime))
return
def getJumpHpr(av = av, node = destNode):
hpr = node.getHpr(av.getParent())
hpr.setX(hpr.getX() + 180)
angle = PythonUtil.fitDestAngle2Src(av.getH(), hpr.getX())
hpr.setX(angle)
return hpr
def getJumpHpr(av = av, node = destNode):
hpr = node.getHpr(av.getParent())
hpr.setX(hpr.getX() + 180)
angle = PythonUtil.fitDestAngle2Src(av.getH(), hpr.getX())
hpr.setX(angle)
return hpr
def enterBoarding(self, nodePath):
camera.wrtReparentTo(nodePath)
heading = PythonUtil.fitDestAngle2Src(camera.getH(nodePath), 180)
self.cameraBoardTrack = LerpPosHprInterval(camera, 1.5, Point3(0, 18, 8), Point3(heading, -10, 0))
self.cameraBoardTrack.start()
return None
def noticeLocalAvatar(self):
if self.isInInvasion():
return
if not self.shouldNotice(
) or self.isMovingDontNotice or self.noticeFlag:
return
if self.getDistance(localAvatar) > self.getEffectiveNoticeDistance(
) + 2.0 or not self.stateOkayForNotice():
if self.gameFSM:
pass
self.endNotice()
return
heading = self.getHpr()
self.headsUp(localAvatar)
if self.needNoticeGroundTracking:
self.trackTerrain()
noticeHeading = self.getHpr()
self.setHpr(heading)
angle = PythonUtil.fitDestAngle2Src(heading[0], noticeHeading[0])
if self.needNoticeGroundTracking:
newHpr = Vec3(angle, noticeHeading[1], noticeHeading[2])
else:
newHpr = Vec3(angle, heading[1], heading[2])
noticeDif = abs(angle - heading[0])
turnAnim = self.getTurnAnim(noticeDif)
if self.noticeIval:
self.noticeFlag = 1
self.noticeIval.finish()
self.noticeFlag = 0
self.noticeIval = None
self.noticeIval = Sequence(Wait(self.noticeSpeed),
Func(self.noticeLocalAvatar))
self.noticeIval.start()
if not self.isFlying:
self.startFlying()
return
if self.getDistance(localAvatar) > self.closeNoticeDistance + 2.0:
if self.hasTurnedToNotice:
self.endNotice()
else:
self.noticeIval = Sequence(Wait(self.noticeSpeed),
Func(self.noticeLocalAvatar))
self.noticeIval.start()
elif abs(noticeDif) > 15.0 and self.shouldTurnToNotice:
if turnAnim:
self.noticeIval = Sequence(
Func(self.startShuffle, turnAnim),
LerpHprInterval(self,
duration=self.noticeSpeed,
hpr=newHpr), Func(self.midShuffle),
Wait(self.noticeSpeed), Func(self.endShuffle),
Func(self.noticeLocalAvatar))
self.noticeIval.start()
else:
self.noticeIval = Sequence(
LerpHprInterval(self,
duration=self.noticeSpeed,
hpr=newHpr), Wait(self.noticeSpeed),
Func(self.noticeLocalAvatar))
self.noticeIval.start()
self.doNoticeFX()
self.hasTurnedToNotice = 1
elif abs(noticeDif) < 45.0:
duration = self.presetNoticeAnimation()
if duration == None or self.doneThreat == 1:
duration = self.noticeSpeed
self.noticeIval = Sequence(Func(self.startNoticeLoop),
Func(self.playNoticeAnim),
Wait(duration),
Func(self.endNoticeLoop),
Func(self.noticeLocalAvatar))
self.noticeIval.start()
self.doNoticeFX()
return
def noticeLocalAvatar(self):
if self.isInInvasion() or self.getGameState() in [
'Emote']:
return None
if not self.shouldNotice() and self.isMovingDontNotice or self.noticeFlag:
return None
if self.getDistance(localAvatar) > self.getEffectiveNoticeDistance() + 2.0 or not self.stateOkayForNotice():
if self.gameFSM:
pass
1
self.endNotice()
return None
heading = self.getHpr()
if base.localAvatar.getGameState() == 'NPCInteract':
if hasattr(self, 'dialogProcessMaster'):
pass
if not (self.dialogProcessMaster):
self.headsUp(base.camera)
else:
self.headsUp(localAvatar)
if self.needNoticeGroundTracking:
self.trackTerrain()
noticeHeading = self.getHpr()
self.setHpr(heading)
angle = PythonUtil.fitDestAngle2Src(heading[0], noticeHeading[0])
if self.needNoticeGroundTracking:
newHpr = Vec3(angle, noticeHeading[1], noticeHeading[2])
else:
newHpr = Vec3(angle, heading[1], heading[2])
noticeDif = abs(angle - heading[0])
turnAnim = self.getTurnAnim(noticeDif)
if self.noticeIval:
self.noticeFlag = 1
self.noticeIval.finish()
self.noticeFlag = 0
self.noticeIval = None
if self.getDistance(localAvatar) > self.getEffectiveNoticeDistance() + 2.0:
if self.hasTurnedToNotice:
self.endNotice()
else:
self.noticeIval = Sequence(Wait(self.noticeSpeed), Func(self.noticeLocalAvatar))
self.noticeIval.start()
elif abs(noticeDif) > 15.0 and self.shouldTurnToNotice:
if turnAnim:
self.noticeIval = Sequence(Func(self.startShuffle, turnAnim), LerpHprInterval(self, duration = self.noticeSpeed, hpr = newHpr), Func(self.midShuffle), Wait(self.noticeSpeed), Func(self.endShuffle), Func(self.noticeLocalAvatar))
self.noticeIval.start()
else:
self.noticeIval = Sequence(LerpHprInterval(self, duration = self.noticeSpeed, hpr = newHpr), Wait(self.noticeSpeed), Func(self.noticeLocalAvatar))
self.noticeIval.start()
self.doNoticeFX()
self.hasTurnedToNotice = 1
elif abs(noticeDif) < 45.0:
duration = self.presetNoticeAnimation()
if duration == None or self.doneThreat == 1:
duration = self.noticeSpeed
self.noticeIval = Sequence(Func(self.startNoticeLoop), Func(self.playNoticeAnim), Wait(duration), Func(self.endNoticeLoop), Func(self.noticeLocalAvatar))
self.noticeIval.start()
self.doNoticeFX()
def getJumpHpr(av = av, node = self.tablecloth):
hpr = self.seats[seatIndex].getHpr(av.getParent())
angle = PythonUtil.fitDestAngle2Src(av.getH(), hpr.getX())
hpr.setX(angle)
return hpr
