Exemplo n.º 1
0
 def ProcessCameraUpdate(self, camera, now, frameTime):
     if not self.smoothBehindEnabled:
         return
     self.camera = camera
     self.frameTime = frameTime
     if self.entity is None:
         self.entity = self._GetEntity(self.charEntID)
         if self.entity is None:
             raise RuntimeError("Problem retrieving the avatar's entity. cameras.CameraBehavior._GetEntity returned None for entityID", self.charEntID)
     if self.model is None:
         self.model = self._GetEntityModel(self.charEntID)
         if self.model is None:
             raise RuntimeError("Problem retrieving the avatar's model object. entityClient.FindEntityByID returned None for entityID", self.charEntID)
     if not camera.mouseLeftButtonDown and not camera.mouseRightButtonDown:
         avatarHasMoved = geo2.Vec3Distance(self.model.translation, self.lastAvatarPosition) > const.FLOAT_TOLERANCE
         avatarHasRotated = geo2.Vec3Distance(geo2.QuaternionRotationGetYawPitchRoll(self.model.rotation), self.lastAvatarRotation) > const.FLOAT_TOLERANCE
         movementDetected = avatarHasMoved or avatarHasRotated
         self.lastAvatarPosition = self.model.translation
         self.lastAvatarRotation = geo2.QuaternionRotationGetYawPitchRoll(self.model.rotation)
         if movementDetected:
             self.rotationSpeed = cameras.SMOOTH_BEHIND_ANIMATION_SPEED_REALLY_FAST
         else:
             self.rotationSpeed = cameras.SMOOTH_BEHIND_ANIMATION_SPEED
         if self.enableTriggerableSmoothBehind:
             if movementDetected:
                 self.smoothBehind = True
         else:
             self.smoothBehind = True
     else:
         self.smoothBehind = False
     if self.smoothBehind:
         self.SmoothBehind()
Exemplo n.º 2
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    def GetTransitEyeCurve(self, eyePos, atPos, newDir, atCurve):
        """ Returns control points for the eye transit curve spline. To get a smooth transition, we do a linear interpolation of the rotation around the y-axis, radius and y-value. """
        currDir = self.GetLookAtDirection()
        try:
            angle = math.acos(geo2.Vec3Dot(currDir, newDir))
        except ValueError:
            angle = 0

        th0 = math.atan2(currDir[2], currDir[0])
        th0 = self.ClampAngle(th0)
        th1 = math.atan2(newDir[2], newDir[0])
        th1 = self.ClampAngle(th1)
        if th0 - th1 > math.pi:
            th0 -= 2 * math.pi
        elif th1 - th0 > math.pi:
            th1 -= 2 * math.pi
        r0 = geo2.Vec3Distance((self.eyePosition[0], 0, self.eyePosition[2]), (self.atPosition[0], 0, self.atPosition[2]))
        r1 = geo2.Vec3Distance((eyePos[0], 0, eyePos[2]), (atPos[0], 0, atPos[2]))
        y0 = self.eyePosition[1] - self.atPosition[1]
        y1 = eyePos[1] - atPos[1]
        points = []
        for i, atPoint in enumerate(atCurve):
            t = self._GetHermiteValue(float(i) / len(atCurve))
            r = r0 + t * (r1 - r0)
            th = th0 + t * (th1 - th0)
            y = y0 + t * (y1 - y0)
            point = (r * math.cos(th), y, r * math.sin(th))
            point = geo2.Vec3Add(point, atCurve[i])
            points.append(point)

        return points
Exemplo n.º 3
0
 def DistanceFromSegment(self, p, p0, p1, v, c2):
     w = geo2.Vec3Subtract(p, p0)
     c1 = geo2.Vec3Dot(v, w)
     if c1 <= 0:
         return None
     if c2 <= c1:
         return geo2.Vec3Distance(p, p1)
     return geo2.Vec3Distance(p, geo2.Vec3Add(p0, geo2.Vec3Scale(v, c1 / c2)))
 def HandlePointOfInterest(self):
     """
     Handles poi calculations. If there is a desired poi, then we lerp to that, making sure to update it if
     the camera or avatar moves around. Otherwise, if there is no desired poi, we calculate the correct one
     based on the camera position and avatar position
     """
     if self.desiredPoi is not None:
         camMoved = geo2.Vec3Distance(
             self.lerpPoiCamStats,
             (self.camera.yaw, self.camera.pitch, 0.0))
         avatarMoved = geo2.Vec3Distance(
             self.lerpPoiAvatarStats,
             self.entity.GetComponent('position').position)
         if camMoved > const.FLOAT_TOLERANCE or avatarMoved > const.FLOAT_TOLERANCE:
             self.desiredPoi = self.CalcCorrectCameraPoi(
                 self.camera.yaw, self.camera.pitch)
             if avatarMoved > const.FLOAT_TOLERANCE:
                 vect = geo2.Vec3Normalize(
                     geo2.Vec3Subtract(self.centerPoint,
                                       self.lastCenterPoint))
                 dist = geo2.Vec3Distance(self.lastCenterPoint,
                                          self.centerPoint)
                 self.camera.poi = geo2.Vec3Add(self.camera.poi,
                                                (val * dist
                                                 for val in vect))
             self.lerpPoiCamStats = (self.camera.yaw, self.camera.pitch,
                                     0.0)
             self.lerpPoiAvatarStats = self.entity.GetComponent(
                 'position').position
             self.useLerp = True
         if self.useLerp:
             newPoi = geo2.Vec3Lerp(self.camera.poi, self.desiredPoi,
                                    self.frameTime * LERP_SPEED)
             zoom = mathUtil.Lerp(self.camera.zoom, self.desiredZoom,
                                  self.frameTime * LERP_SPEED)
         else:
             newPoi = self.PlerpVec3(self.originalPoi, self.desiredPoi,
                                     self.lerpTimeLeft)
             zoom = self.Plerp(self.startZoom, self.desiredZoom,
                               self.lerpTimeLeft)
         self.camera.zoom = self.camera.collisionZoom = self.camera.desiredZoom = zoom
         self.lerpTimeLeft -= self.frameTime * const.SEC
         if geo2.Vec3Distance(
                 newPoi, self.desiredPoi) < const.FLOAT_TOLERANCE and abs(
                     self.camera.zoom -
                     self.desiredZoom) < const.FLOAT_TOLERANCE:
             self.desiredPoi = None
             self.camera.zoom = self.camera.collisionZoom = self.camera.desiredZoom = self.desiredZoom
     else:
         newPoi = self.CalcCorrectCameraPoi(self.camera.yaw,
                                            self.camera.pitch)
     self.camera.SetPointOfInterest(newPoi)
Exemplo n.º 5
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 def GetDynamicFov(self):
     if self._atTransitOffset:
         atPos = geo2.Vec3Subtract(self.atPosition, self._atTransitOffset)
     else:
         atPos = self.atPosition
     dist = geo2.Vec3Distance(self.eyePosition, atPos)
     return self.GetDynamicFovByDistance(dist)
Exemplo n.º 6
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 def PanTo(self,
           panLeft,
           panTop,
           animate=True,
           duration=None,
           timeOffset=0.0,
           sleep=False):
     """ Pan to panLeft, panTop (0.0 - 1.0) """
     if animate:
         if not duration:
             length = geo2.Vec3Distance((panLeft, panTop, 0),
                                        (self.panLeft, self.panTop, 0))
             duration = max(0.1, length * self.scale)
         uicore.animations.MorphScalar(self,
                                       'panLeft',
                                       self.panLeft,
                                       panLeft,
                                       duration=duration,
                                       timeOffset=timeOffset)
         uicore.animations.MorphScalar(self,
                                       'panTop',
                                       self.panTop,
                                       panTop,
                                       duration=duration,
                                       timeOffset=timeOffset,
                                       sleep=sleep)
     else:
         self.panLeft = panLeft
         self.panTop = panTop
Exemplo n.º 7
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 def HandlePointOfInterest(self):
     if self.desiredPoi is not None:
         camMoved = geo2.Vec3Distance(
             self.lerpPoiCamStats,
             (self.camera.yaw, self.camera.pitch, 0.0))
         avatarMoved = geo2.Vec3Distance(
             self.lerpPoiAvatarStats,
             self.entity.GetComponent('position').position)
         if camMoved > const.FLOAT_TOLERANCE or avatarMoved > const.FLOAT_TOLERANCE:
             self.desiredPoi = self.CalcCorrectCameraPoi(
                 self.camera.yaw, self.camera.pitch)
             if avatarMoved > const.FLOAT_TOLERANCE:
                 vect = geo2.Vec3Normalize(
                     geo2.Vec3Subtract(self.centerPoint,
                                       self.lastCenterPoint))
                 dist = geo2.Vec3Distance(self.lastCenterPoint,
                                          self.centerPoint)
                 self.camera.poi = geo2.Vec3Add(self.camera.poi,
                                                (val * dist
                                                 for val in vect))
             self.lerpPoiCamStats = (self.camera.yaw, self.camera.pitch,
                                     0.0)
             self.lerpPoiAvatarStats = self.entity.GetComponent(
                 'position').position
             self.useLerp = True
         if self.useLerp:
             newPoi = geo2.Vec3Lerp(self.camera.poi, self.desiredPoi,
                                    self.frameTime * LERP_SPEED)
             zoom = mathUtil.Lerp(self.camera.zoom, self.desiredZoom,
                                  self.frameTime * LERP_SPEED)
         else:
             newPoi = self.PlerpVec3(self.originalPoi, self.desiredPoi,
                                     self.lerpTimeLeft)
             zoom = self.Plerp(self.startZoom, self.desiredZoom,
                               self.lerpTimeLeft)
         self.camera.zoom = self.camera.collisionZoom = self.camera.desiredZoom = zoom
         self.lerpTimeLeft -= self.frameTime * const.SEC
         if geo2.Vec3Distance(
                 newPoi, self.desiredPoi) < const.FLOAT_TOLERANCE and abs(
                     self.camera.zoom -
                     self.desiredZoom) < const.FLOAT_TOLERANCE:
             self.desiredPoi = None
             self.camera.zoom = self.camera.collisionZoom = self.camera.desiredZoom = self.desiredZoom
     else:
         newPoi = self.CalcCorrectCameraPoi(self.camera.yaw,
                                            self.camera.pitch)
     self.camera.SetPointOfInterest(newPoi)
Exemplo n.º 8
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 def SetAppropriateAtPositionForRotation(self, atPos):
     distanceToNewAtPos = geo2.Vec3Distance(self.eyePosition, atPos)
     distanceToNewAtPos = min(evecamera.LOOKATRANGE_MAX_NEW,
                              distanceToNewAtPos)
     lookVec = geo2.Vec3Scale(self.GetLookAtDirection(), distanceToNewAtPos)
     newAtPos = geo2.Vec3Subtract(self.eyePosition, lookVec)
     if newAtPos != self._eyePosition:
         self.SetAtPosition(newAtPos)
Exemplo n.º 9
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 def GetZoomDistance(self):
     dist = geo2.Vec3Distance(self._eyePosition, self.GetZoomToPoint())
     if math.isinf(dist):
         LogException('Error: Infinite camera distance:%s, %s' %
                      (repr(dist), self))
         self.ResetCameraPosition()
         return 1.0
     return dist
Exemplo n.º 10
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def IsIntersecting(pos1, radius1, pos2, radius2):
    distance = geo2.Vec3Distance(pos1, pos2)
    if distance < 0.0:
        return False
    if distance > radius1 + radius2:
        return False
    if radius1 > distance + radius2 or radius2 > distance + radius1:
        return False
    return True
Exemplo n.º 11
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 def GetLookAtDistance(self, ball):
     if self.IsAttached():
         distance = self.GetZoomDistance()
     else:
         distance = geo2.Vec3Distance(self.eyePosition,
                                      GetBallPosition(ball))
     maxZoom = GetBallMaxZoom(ball, self.nearClip)
     minZoom = evecamera.LOOKATRANGE_MAX_NEW
     distance = max(maxZoom, min(distance, minZoom))
     return distance
Exemplo n.º 12
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 def HandleModelVisibility(self):
     avatarPosRelativeToCamera = (self.centerPoint[0],
                                  self.camera.cameraPosition[1],
                                  self.centerPoint[2])
     if geo2.Vec3Distance(avatarPosRelativeToCamera,
                          self.camera.cameraPosition
                          ) < cameras.AVATAR_MIN_DISPLAY_DISTANCE:
         self.model.display = False
     else:
         self.model.display = True
Exemplo n.º 13
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 def _UpdateBobbingOffset(self):
     if not IsBobbingEnabled() or not self.isBobbingCamera:
         return
     self._bobbingAngle += 1.0 / blue.os.fps * BOBBING_SPEED
     if self._bobbingAngle > 2 * math.pi:
         self._bobbingAngle %= 2 * math.pi
     distance = geo2.Vec3Distance(self.atPosition, self.eyePosition)
     idleYaw = distance * math.cos(self._bobbingAngle) / 400.0
     idlePitch = 1.2 * idleYaw * math.sin(self._bobbingAngle)
     bobbingOffset = (idleYaw, idlePitch, 0)
     self._AddToEyeAndAtOffset(bobbingOffset)
Exemplo n.º 14
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 def PointToYawPitchDist(self, pos):
     upVector = (0, 1, 0)
     if trinity.IsRightHanded():
         rotMatrix = geo2.MatrixLookAtRH(pos, self.poi, upVector)
     else:
         rotMatrix = geo2.MatrixLookAtLH(pos, self.poi, upVector)
     rotMatrix = geo2.MatrixTranspose(rotMatrix)
     quat = geo2.QuaternionRotationMatrix(rotMatrix)
     yaw, pitch, roll = geo2.QuaternionRotationGetYawPitchRoll(quat)
     yaw = math.pi / 2 - yaw
     pitch = math.pi / 2 - pitch
     return (yaw, pitch, geo2.Vec3Distance(pos, self.poi))
Exemplo n.º 15
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 def AvoidCollision(self):
     criticalFailInfo = self.gameWorld.SweptSphere(self.poi, self.cameraAdvancedPos, cameras.NORMAL_COLLISION_SPHERE)
     if criticalFailInfo:
         safeSpot = geo2.Vec3Add(criticalFailInfo[0], (val * cameras.NORMAL_COLLISION_SPHERE for val in criticalFailInfo[1]))
         if not self.colliding:
             self.colliding = True
         newZoom = geo2.Vec3Distance(self.poi, safeSpot)
         self.collisionZoom = self.zoom = self.desiredZoom = newZoom
     elif self.colliding:
         self.desiredZoom = self.setZoom
         self.collisionZoom = self.zoom
         self.colliding = False
Exemplo n.º 16
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def GetLodLevel(position, radius):
    cam = sm.GetService('sceneManager').GetActiveSpaceCamera()
    if cam is None:
        return 1
    distance = geo2.Vec3Distance(cam.eyePosition, position)
    vp = trinity.device.viewport
    aspectRatio = vp.GetAspectRatio()
    fov = cam.fov / camutils.GetARZoomMultiplier(aspectRatio)
    lodQuality = gfxsettings.Get(gfxsettings.GFX_LOD_QUALITY)
    boundingSize = radius / (math.tan(fov / 2) * distance) * vp.height
    if boundingSize < 192 / lodQuality:
        return 1
    return 0
 def HandleModelVisibility(self):
     """
     Checks to see if the camera is too close to the avatar and if so, turn off the avatar model
     """
     avatarPosRelativeToCamera = (self.centerPoint[0],
                                  self.camera.cameraPosition[1],
                                  self.centerPoint[2])
     if geo2.Vec3Distance(avatarPosRelativeToCamera,
                          self.camera.cameraPosition
                          ) < cameras.AVATAR_MIN_DISPLAY_DISTANCE:
         self.model.display = False
     else:
         self.model.display = True
Exemplo n.º 18
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 def SetupFakeAudioTransformLocation(self, shipPosition):
     self.fakeAudioTransform.translationCurve = trinity.TriVectorCurve()
     viewTransformOffset = geo2.MatrixTransformation(
         (0.0, 0.0, 0.0), (0.0, 0.0, 0.0, 1.0), (1.0, 1.0, 1.0),
         (0.0, 0.0, 0.0), self.sceneRotation, self.sceneTranslation)
     viewTransformInverse = geo2.MatrixInverse(viewTransformOffset)
     newAudioEmitterPosition = geo2.Vec3TransformCoord(
         shipPosition, viewTransformInverse)
     self.fakeAudioTransform.translationCurve.value = newAudioEmitterPosition
     distance = geo2.Vec3Distance((0, 0, 0), newAudioEmitterPosition)
     gallenteHangarBaseline = 561.28692627
     audioScaleFactor = distance / gallenteHangarBaseline
     self.generalAudioEntity.SetAttenuationScalingFactor(audioScaleFactor)
    def SetUpChildExplosion(explosionModel,
                            spaceObjectModel=None,
                            explosionSorting='random',
                            initialLocatorIdx=-1):
        explosionChildren = explosionModel.Find('trinity.EveChildExplosion', 2)
        if spaceObjectModel is not None:
            explosionLocatorSets = None
            if hasattr(spaceObjectModel, 'locatorSets'):
                explosionLocatorSets = spaceObjectModel.locatorSets.FindByName(
                    'explosions')
            explosionLocators = explosionLocatorSets.locators if explosionLocatorSets else spaceObjectModel.damageLocators
            locators = [(each[0], each[1]) for each in explosionLocators]
            transforms = []
            if explosionSorting == FROM_CENTER_SORTING:
                point = spaceObjectModel.GetBoundingSphereCenter()
                radius = spaceObjectModel.GetBoundingSphereRadius() * 0.2
                locators.sort(key=lambda explosion: geo2.Vec3Distance(
                    point, explosion[0]) +
                              (random.random() - random.random()) * radius)
            elif explosionSorting == FROM_LOCATOR_SORTING:
                if initialLocatorIdx < 0 or initialLocatorIdx > len(locators):
                    initialLocatorIdx = random.randint(0, len(locators) - 1)
                point = locators[initialLocatorIdx][0]
                locators.sort(key=lambda explosion: geo2.Vec3Distance(
                    point, explosion[0]))
            else:
                random.shuffle(locators)
            for position, direction in locators:
                rotation = direction
                transform = geo2.MatrixTransformation(
                    (0, 0, 0), (0, 0, 0, 1), (1, 1, 1), (0, 0, 0), rotation,
                    position)
                transforms.append(transform)

            for each in explosionChildren:
                each.SetLocalExplosionTransforms(transforms)
Exemplo n.º 20
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    def CreateResourceInfo(self, resourceTypeID, entry):
        info = util.KeyVal(resourceTypeID=resourceTypeID,
                           updateTime=entry.updateTime,
                           oldBand=entry.numBands,
                           planetology=0,
                           advancedPlanetology=0,
                           remoteSensing=0)
        planetInfo = sm.GetService('map').GetPlanetInfo(self.planetID)
        planetLoc = cfg.evelocations.Get(planetInfo.solarSystemID)
        planetPos = (planetLoc.x, planetLoc.y, planetLoc.z)
        playerLoc = cfg.evelocations.Get(session.solarsystemid2)
        playerPos = (playerLoc.x, playerLoc.y, playerLoc.z)
        dist = geo2.Vec3Distance(playerPos, planetPos) / const.LIGHTYEAR
        skills = sm.GetService('skills').MySkillLevelsByID(renew=True)
        info.remoteSensing = skills.get(const.typeRemoteSensing, 0)
        if info.remoteSensing == 0:
            info.skillMissing = True
            return info
        if session.solarsystemid2 == planetInfo.solarSystemID or sm.GetService(
                'planetSvc').IsPlanetColonizedByMe(self.planetID):
            info.proximity = const.planetResourceProximityPlanet
        else:
            if util.IsWormholeSystem(session.solarsystemid2) or sm.GetService(
                    'pathfinder').GetJumpCountFromCurrent(
                        planetInfo.solarSystemID) > 1000:
                info.unreachableSystem = True
                return info
            info.proximity = None
            for i, scanRange in enumerate(const.planetResourceScanningRanges):
                if scanRange >= dist:
                    info.proximity = i

            if info.proximity is None or dist > const.planetResourceScanningRanges[
                    5 - info.remoteSensing]:
                info.systemOutOfRange = True
                info.systemDistance = dist
                info.maxScanDistance = const.planetResourceScanningRanges[
                    5 - info.remoteSensing]
                return info
        info.planetology = skills.get(const.typePlanetology, 0)
        info.advancedPlanetology = skills.get(const.typeAdvancedPlanetology, 0)
        minBand, maxBand = const.planetResourceProximityLimits[info.proximity]
        info.newBand = min(
            maxBand, minBand + info.planetology + info.advancedPlanetology * 2)
        requiredSkill = 5 - info.proximity
        if info.remoteSensing < requiredSkill:
            info.requiredSkill = requiredSkill
        return info
Exemplo n.º 21
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            def distanceBinding(curve1, curve2, min, max, parameters, index,
                                gamma):
                avatar = weakAvatar.object
                if avatar is None:
                    return
                curve1.skinnedObject = avatar
                curve2.skinnedObject = avatar
                if curve1.startValue == curve1.currentValue or curve2.startValue == curve2.currentValue:
                    curve1.skinnedObject = None
                    curve2.skinnedObject = None
                    return
                p1 = curve1.currentValue[3]
                p2 = curve2.currentValue[3]
                dist = geo2.Vec3Distance(p1, p2)
                d = 1.0 - (dist - min) * 1 / (max - min)
                if d < 0:
                    d = 0
                elif d > 1:
                    d = 1
                if gamma != 1.0:
                    d = math.pow(d, gamma)
                if False:
                    trinity.GetDebugRenderer().DrawLine(
                        (p1[0], p1[1], p1[2]), 4294967295L,
                        (p2[0], p2[1], p2[2]), 4294967295L)
                    trinity.GetDebugRenderer().Print3D((p1[0], p1[1], p1[2]),
                                                       4294967295L, str(dist))
                    trinity.GetDebugRenderer().Print3D((p2[0], p2[1], p2[2]),
                                                       4294967295L, str(d))
                for p_ in parameters:
                    p = p_.object
                    if p is None:
                        continue
                    if index == 1:
                        p.v1 = d
                    if index == 2:
                        p.v2 = d
                    if index == 3:
                        p.v3 = d
                    if index == 4:
                        p.v4 = d

                curve1.skinnedObject = None
                curve2.skinnedObject = None
Exemplo n.º 22
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    def GetTransitAtCurve(self, posStart, posEnd, newDir, smoothing, numPoints):
        """ Returns control points for the lookAt transit curve spline. We travel along a straight line offset quadtratically according the the smoothing argument"""
        currDir = self.GetLookAtDirection()
        angle = math.acos(geo2.Vec3Dot((currDir[0], 0, currDir[2]), (newDir[1], 0, newDir[2])))
        if smoothing and angle:
            offset = geo2.Vec3Normalize(geo2.Vec3Negate(newDir))
            dist = geo2.Vec3Distance(posStart, posEnd)
            offset = geo2.Vec3Scale(offset, dist * angle * smoothing)
        else:
            offset = (0, 0, 0)
        points = []
        for i in xrange(numPoints + 1):
            t = self._GetHermiteValue(float(i) / numPoints)
            offsetDist = 2 * (t - t ** 2)
            point = geo2.Vec3Lerp(posStart, posEnd, t)
            point = geo2.Add(point, geo2.Vec3Scale(offset, offsetDist))
            points.append(point)

        return points
Exemplo n.º 23
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def _GetMaxPartSize(et):
    if not et.mesh.geometry.isGood:
        raise MeshLoadError(et.mesh.geometryResPath)
    geoSize = et.mesh.geometry.GetBoundingBox(0)
    gs = geo2.Vec3Distance(geoSize[0], geoSize[1])
    for em in et.Find('trinity.Tr2DynamicEmitter'):
        for each in em.generators:
            if each.name == 'sizeDynamic' or each.name == 'size':
                return max(each.minRange + each.maxRange) * gs

    for em in et.Find('trinity.Tr2StaticEmitter'):
        for ps in em.Find('trinity.Tr2ParticleSystem'):
            for each in ps.elements:
                if each.name == 'size':
                    remotefilecache.prefetch_single_file(
                        em.geometryResourcePath)
                    return grannyutils.GetMaxPartSize(
                        blue.paths.ResolvePath(em.geometryResourcePath),
                        each.usageIndex, em.meshIndex) * gs

    logger.warning('No Particle Emitters found for %s' % et.name)
Exemplo n.º 24
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 def _GetDistanceToCamera(self, ball):
     bp = sm.GetService('michelle').GetBallpark()
     ballPos = GetBallPosition(ball)
     camPos = self.cameraController.GetCamera().eyePosition
     return geo2.Vec3Distance(ballPos, camPos)
        def CreateBoneDriver(set, bone1, bone2, zone, min, max, oldMin, oldMax, curveDictionary, name, tweakData):
            if bone1 in pdDoll.bindPose and bone1 in pdDoll.boneOffsets and bone2 in pdDoll.bindPose and bone2 in pdDoll.boneOffsets:
                bindPosePos1 = pdDoll.bindPose[bone1]['translation']
                offset1 = pdDoll.boneOffsets[bone1]['translation']
                bindPosePos2 = pdDoll.bindPose[bone2]['translation']
                offset2 = pdDoll.boneOffsets[bone2]['translation']
                realPos1 = (bindPosePos1[0] / 100.0 + offset1[0], bindPosePos1[1] / 100.0 + offset1[1], bindPosePos1[2] / 100.0 + offset1[2])
                realPos2 = (bindPosePos2[0] / 100.0 + offset2[0], bindPosePos2[1] / 100.0 + offset2[1], bindPosePos2[2] / 100.0 + offset2[2])
                bindPoseDist = geo2.Vec3Distance(bindPosePos1, bindPosePos2) / 100.0
                dist = geo2.Vec3Distance(realPos1, realPos2)
                multiplier = dist / bindPoseDist
                oldMin = oldMin * multiplier
                oldMax = oldMax * multiplier

            def GetOrMakeCurve(bone, set, curveDictionary, name):
                curve = curveDictionary.get((weakAvatar, bone), None)
                if curve is not None:
                    return curve
                curve = trinity.Tr2BoneMatrixCurve()
                curve.bone = bone
                curve.name = name
                curveDictionary[weakAvatar, bone] = curve
                set.curves.append(curve)
                return curve

            curve1 = GetOrMakeCurve(bone1, set, curveDictionary, 'bone1')
            curve2 = GetOrMakeCurve(bone2, set, curveDictionary, 'bone2')
            bind = trinity.TriValueBinding()
            set.bindings.append(bind)

            def distanceBinding(curve1, curve2, min, max, parameters, index, gamma):
                avatar = weakAvatar.object
                if avatar is None:
                    return
                curve1.skinnedObject = avatar
                curve2.skinnedObject = avatar
                if curve1.startValue == curve1.currentValue or curve2.startValue == curve2.currentValue:
                    curve1.skinnedObject = None
                    curve2.skinnedObject = None
                    return
                p1 = curve1.currentValue[3]
                p2 = curve2.currentValue[3]
                dist = geo2.Vec3Distance(p1, p2)
                d = 1.0 - (dist - min) * 1 / (max - min)
                if d < 0:
                    d = 0
                elif d > 1:
                    d = 1
                if gamma != 1.0:
                    d = math.pow(d, gamma)
                if False:
                    trinity.GetDebugRenderer().DrawLine((p1[0], p1[1], p1[2]), 4294967295L, (p2[0], p2[1], p2[2]), 4294967295L)
                    trinity.GetDebugRenderer().Print3D((p1[0], p1[1], p1[2]), 4294967295L, str(dist))
                    trinity.GetDebugRenderer().Print3D((p2[0], p2[1], p2[2]), 4294967295L, str(d))
                for p_ in parameters:
                    p = p_.object
                    if p is None:
                        continue
                    if index == 1:
                        p.v1 = d
                    if index == 2:
                        p.v2 = d
                    if index == 3:
                        p.v3 = d
                    if index == 4:
                        p.v4 = d

                curve1.skinnedObject = None
                curve2.skinnedObject = None

            zone = zone - 1
            paramIndex = zone / 4 + 1
            index = zone % 4 + 1
            param = 'WrinkleNormalStrength' + str(paramIndex)
            parameters = []
            for fx in effects:
                for p in fx.parameters:
                    if p.name == param:
                        parameters.append(blue.BluePythonWeakRef(p))

            gammaCurves = tweakData.get('gammaCurves', {})
            gamma = gammaCurves.get(name, gammaCurves.get('default', 1.0))
            bind.copyValueCallable = lambda source, dest: distanceBinding(curve1, curve2, oldMin, oldMax, parameters, index, gamma)
Exemplo n.º 26
0
 def GetDistanceToCursor(self):
     return geo2.Vec3Distance(self.eyePosition, self.sceneCursor)
Exemplo n.º 27
0
def GetDurationByDistance(pos0, pos1, minTime=0.3, maxTime=1.0):
    dist = geo2.Vec3Distance(pos0, pos1)
    duration = max(
        minTime, min(minTime + (maxTime - minTime) * dist / 100000.0, maxTime))
    return duration
Exemplo n.º 28
0
 def GetShipDiameter(self, typeID):
     p0, p1 = self.GetShipBoundingBox(typeID)
     return geo2.Vec3Distance(p0, p1)
Exemplo n.º 29
0
 def MoveToTitanCameraPosition(self):
     self.atPosition = self.model.translationCurve.value
     self.eyePosition = TITAN_CAMERA_POSITION
     self.SetMinZoom(geo2.Vec3Distance(self.atPosition, self.eyePosition))
Exemplo n.º 30
0
 def HandleZooming(self):
     if self.camera.zoomRequest is None:
         return
     if abs(self.camera.zoomRequest -
            self.camera.zoom) < const.FLOAT_TOLERANCE or abs(
                self.camera.zoomRequest -
                self.desiredZoom) < const.FLOAT_TOLERANCE:
         self.camera.zoomRequest = None
         return
     self.useLerp = False
     if self.desiredPoi is not None:
         self.camera.zoomRequest = self.desiredZoom + self.camera.lastScrollDelta
         if self.camera.zoomRequest > self.camera.maxZoom:
             self.camera.zoomRequest = self.camera.maxZoom
         elif self.camera.zoomRequest < self.camera.minZoom:
             self.camera.zoomRequest = self.camera.minZoom
         self.useLerp = True
     zoomingOut = False
     if self.camera.zoomRequest > self.camera.zoom:
         zoomingOut = True
     futurePoi = self.CalcCorrectCameraPoi(
         self.camera.yaw,
         self.camera.pitch,
         overrideZoom=self.camera.zoomRequest)
     cameraAdvancedPos = geo2.Vec3Add(
         futurePoi,
         self.camera.YawPitchDistToPoint(self.camera.yaw, self.camera.pitch,
                                         self.camera.zoomRequest))
     futurePoiCollision = self.gameWorld.SweptSphere(
         self.centerPoint, cameraAdvancedPos, cameras.ZOOM_COLLISION_SPHERE)
     collAtSource = self.gameWorld.SphereTest(self.centerPoint,
                                              cameras.ZOOM_COLLISION_SPHERE)
     vect = geo2.Vec3Normalize(
         geo2.Vec3Subtract(self.cameraAdvancedPos, self.centerPoint))
     cameraAdvancedPos = geo2.Vec3Add(self.centerPoint,
                                      (val * self.camera.zoomRequest
                                       for val in vect))
     currPosCollision = self.gameWorld.SweptSphere(
         self.centerPoint, cameraAdvancedPos,
         cameras.NORMAL_COLLISION_SPHERE)
     if futurePoiCollision and not currPosCollision and collAtSource:
         futurePoiCollision = None
     if not self.colliding:
         if futurePoiCollision is None:
             self.desiredPoi = self.CalcCorrectCameraPoi(
                 self.camera.yaw,
                 self.camera.pitch,
                 overrideZoom=self.camera.zoomRequest)
             cameraAdvancedPos = geo2.Vec3Add(
                 self.desiredPoi,
                 self.camera.YawPitchDistToPoint(self.camera.yaw,
                                                 self.camera.pitch,
                                                 self.camera.zoomRequest))
             checkColl = self.gameWorld.SweptSphere(
                 self.centerPoint, cameraAdvancedPos,
                 cameras.ZOOM_COLLISION_SPHERE)
             if checkColl:
                 self.desiredPoi = None
             else:
                 self.desiredZoom = self.camera.zoomRequest
                 self.camera.userSelectedZoom = self.camera.zoomRequest
                 self.lerpPoiCamStats = (self.camera.yaw, self.camera.pitch,
                                         0.0)
                 self.lerpPoiAvatarStats = self.entity.GetComponent(
                     'position').position
                 self.CalcCamCurrAndAdvancedPosition()
         else:
             safeSpot = geo2.Vec3Add(futurePoiCollision[0],
                                     (val * cameras.ZOOM_COLLISION_SPHERE
                                      for val in futurePoiCollision[1]))
             dist = max(self.camera.minZoom,
                        geo2.Vec3Distance(self.centerPoint, safeSpot))
             dist = min(self.camera.maxZoom, dist)
             if abs(dist - self.camera.zoom) > ZOOM_COLLISION_TOLERANCE:
                 oldPoi = self.desiredPoi
                 self.desiredPoi = self.CalcCorrectCameraPoi(
                     self.camera.yaw, self.camera.pitch, overrideZoom=dist)
                 cameraAdvancedPos = geo2.Vec3Add(
                     self.desiredPoi,
                     self.camera.YawPitchDistToPoint(
                         self.camera.yaw, self.camera.pitch, dist))
                 checkColl = self.gameWorld.SweptSphere(
                     self.centerPoint, cameraAdvancedPos,
                     cameras.ZOOM_COLLISION_SPHERE)
                 if checkColl:
                     self.desiredPoi = oldPoi
                 elif zoomingOut and dist < self.camera.zoom:
                     self.desiredPoi = oldPoi
                 else:
                     self.CalcCamCurrAndAdvancedPosition()
                     self.desiredZoom = dist
                     self.camera.userSelectedZoom = dist
                     self.lerpPoiCamStats = (self.camera.yaw,
                                             self.camera.pitch, 0.0)
                     self.lerpPoiAvatarStats = self.entity.GetComponent(
                         'position').position
     elif futurePoiCollision is None:
         self.desiredZoom = self.camera.zoomRequest
         self.camera.userSelectedZoom = self.camera.zoomRequest
         self.desiredPoi = self.CalcCorrectCameraPoi(
             self.camera.yaw,
             self.camera.pitch,
             overrideZoom=self.camera.zoomRequest)
         self.lerpPoiCamStats = (self.camera.yaw, self.camera.pitch, 0.0)
         self.lerpPoiAvatarStats = self.entity.GetComponent(
             'position').position
         self.CalcCamCurrAndAdvancedPosition()
     self.lerpTimeLeft = LERP_TIME
     self.startZoom = self.camera.zoom
     self.originalPoi = self.camera.poi
     self.camera.zoomRequest = None