def main(argv):
viewer = osgViewer.Viewer()
args = osg.ArgumentParser(argv)
# Make sure we have the minimum args...
if argc <= 2 :
osg.notify(osg.FATAL), "usage: ", args[0], " fontfile size1 [size2 ...]"
return 1
viewer.addEventHandler( osgGA.StateSetManipulator(viewer.getCamera().getOrCreateStateSet()) )
viewer.addEventHandler(osgViewer.StatsHandler())
viewer.addEventHandler(osgViewer.WindowSizeHandler())
group = osg.Group()
camera = createOrthoCamera(1280.0, 1024.0)
# Create the list of desired sizes.
sizes = Sizes()
for(int i = 2 i < argc i++)
if not args.isNumber(i) : continue
sizes.push_back(std.atoi(args[i]))
def main(argv):
arguments = osg.ArgumentParser(argv)
viewer = osgViewer.Viewer(arguments)
tbm = osgGA.TrackballManipulator()
viewer.setCameraManipulator(tbm)
viewer.addEventHandler(osgViewer.StatsHandler())
viewer.addEventHandler(osgViewer.WindowSizeHandler())
root = osg.Group()
geode = osg.Geode()
geode.setStateSet(setupStateSet())
root.setInitialBound(osg.BoundingSphere(osg.Vec3(10,0,20), 50))
root.addChild(setupAnimtkNode(geode))
root.addChild(geode)
viewer.setSceneData(root)
# tbm.setDistance(150)
return viewer.run()
def main(argv):
# use an ArgumentParser object to manage the program arguments.
arguments = osg.ArgumentParser(argv)
# construct the viewer.
viewer = osgViewer.Viewer()
# add the state manipulator
viewer.addEventHandler( osgGA.StateSetManipulator(viewer.getCamera().getOrCreateStateSet()) )
# add stats
viewer.addEventHandler( osgViewer.StatsHandler() )
needToSetHomePosition = False
# read the scene from the list of file specified commandline args.
scene = osgDB.readNodeFiles(arguments)
# if one hasn't been loaded create an earth and sun test model.
if not scene :
scene = createScene()
needToSetHomePosition = True
# pass the loaded scene graph to the viewer.
viewer.setSceneData(scene)
viewer.setCameraManipulator(osgGA.TrackballManipulator)()
if needToSetHomePosition :
viewer.getCameraManipulator().setHomePosition(osg.Vec3d(0.0,-5.0*r_earth,0.0),osg.Vec3d(0.0,0.0,0.0),osg.Vec3d(0.0,0.0,1.0))
zNear = 1.0, zMid=10.0, zFar=1000.0
if arguments.read("--depth-partition",zNear, zMid, zFar) :
# set up depth partitioning
dps = osgViewer.DepthPartitionSettings()
dps._mode = osgViewer.DepthPartitionSettings.FIXED_RANGE
dps._zNear = zNear
dps._zMid = zMid
dps._zFar = zFar
viewer.setUpDepthPartition(dps)
else:
# set up depth partitioning with default settings
viewer.setUpDepthPartition()
return viewer.run()
def main(argv):
arguments = osg.ArgumentParser(argv)
viewer = osgViewer.Viewer(arguments)
hints = osgWidget.GeometryHints(
osg.Vec3(0.0, 0.0, 0.0), osg.Vec3(1.0, 0.0, 0.0),
osg.Vec3(0.0, 0.0, 1.0), osg.Vec4(1.0, 1.0, 1.0, 1.0),
osgWidget.GeometryHints.RESIZE_HEIGHT_TO_MAINTAINCE_ASPECT_RATIO)
group = osg.Group()
for i in range(len(argv)):
if not arguments.isOption(i):
pdfReader = osgWidget.PdfReader()
if pdfReader.open(arguments[i], hints):
group.addChild(pdfReader.get())
hints.position.x += 1.1
viewer.setSceneData(group)
viewer.addEventHandler(osgViewer.StatsHandler())
return viewer.run()
def main(argv):
# use an ArgumentParser object to manage the program arguments.
viewer = osgViewer.Viewer()
# viewer.setThreadingModel(osgViewer.Viewer.SingleThreaded)
# read the scene from the list of file specified commandline args.
loadedModel = osgDB.readNodeFile("cessna.osg")
if loadedModel == None:
raise Exception('Could not load model file (is OSG_FILE_PATH set and correct?)')
# create a transform to spin the model.
loadedModelTransform = osg.MatrixTransform()
loadedModelTransform.addChild(loadedModel)
print loadedModelTransform.getBound()._center
#todo: nc = osg.AnimationPathCallback(loadedModelTransform.getBound()._center,osg.Vec3(0.0,0.0,1.0),osg.inDegrees(45.0));
# loadedModelTransform.setUpdateCallback(nc)
rootNode = osg.Group()
rootNode.stateSet.dataVariance = osg.Object.DYNAMIC
rootNode.addChild(createMirroredScene(loadedModelTransform))
viewer.addEventHandler(osgViewer.HelpHandler())
viewer.addEventHandler(osgViewer.StatsHandler())
viewer.addEventHandler(osgGA.StateSetManipulator(rootNode.stateSet))
viewer.setSceneData(rootNode)
print "set scene data"
#hint to tell viewer to request stencil buffer when setting up windows
# osg.DisplaySettings().setMinimumNumStencilBits(8)
osg.DisplaySettings.instance().setMinimumNumStencilBits(8);
osgDB.writeNodeFile(rootNode, "test_reflect.osg");
viewer.run() #we need run, because that sets up a trackballmanipulator and so we have the correct "look" into the scene.
return 0
# Create a 1x1 quad in XZ plane
g = osg.createTexturedQuadGeometry(osg.Vec3f(0, 0, 0), osg.Vec3f(1, 0, 0),
osg.Vec3f(0, 0, 1), 0, 0, 1, 1)
g.getColorArray()[0] = osg.Vec4f(1, 1, 1,
0.5) # change color to semitransparent
# Add it to a geode
geode = osg.Geode()
geode.addDrawable(g)
# Add texture
i = osgDB.readImageFile("Images/osg256.png")
t = osg.Texture2D(i)
s = geode.stateSet
s.setTextureAttributeAndModes(0, t, osg.StateAttribute.Values.ON)
# Make sure blending is active and the geode is in the transparent (depth sorted) bin
s.setRenderingHint(osg.StateSet.TRANSPARENT_BIN)
s.setMode(osg.GL_BLEND, osg.StateAttribute.ON)
# Create viewer, add some standard handlers to it and run it
viewer = osgViewer.Viewer()
viewer.setUpViewInWindow(50, 50, 1024, 768)
viewer.addEventHandler(osgGA.StateSetManipulator(geode.stateSet))
viewer.addEventHandler(osgViewer.HelpHandler())
viewer.addEventHandler(osgViewer.StatsHandler())
viewer.setSceneData(geode)
viewer.run()
del viewer # To cause the dtor to be called, hence the window to be destroyed.
def main(argv):
arguments = osg.ArgumentParser(argv)
# construct the viewer.
viewer = osgViewer.Viewer(arguments)
# set up camera manipulators
keyswitchManipulator = osgGA.KeySwitchMatrixManipulator()
keyswitchManipulator.addMatrixManipulator( ord("1"), "Trackball", osgGA.TrackballManipulator() )
keyswitchManipulator.addMatrixManipulator( ord("2"), "Flight", osgGA.FlightManipulator() )
keyswitchManipulator.addMatrixManipulator( ord("3"), "Drive", osgGA.DriveManipulator() )
keyswitchManipulator.addMatrixManipulator( ord("4"), "Terrain", osgGA.TerrainManipulator() )
keyForAnimationPath = ord("8")
animationSpeed = 1.0
while arguments.read("--speed",animationSpeed) :
pathfile = str()
while arguments.read("-p",pathfile) :
apm = osgGA.AnimationPathManipulator(pathfile)
if apm or not apm.valid() :
apm.setTimeScale(animationSpeed)
apm.setAnimationCompletedCallback(ReportStatsAnimationCompletedCallback())
num = keyswitchManipulator.getNumMatrixManipulators()
keyswitchManipulator.addMatrixManipulator( keyForAnimationPath, "Path", apm )
keyswitchManipulator.selectMatrixManipulator(num)
++keyForAnimationPath
viewer.setCameraManipulator( keyswitchManipulator )
# set up event handlers
viewer.addEventHandler( osgViewer.StatsHandler())
viewer.addEventHandler( osgViewer.WindowSizeHandler() )
viewer.addEventHandler( osgGA.StateSetManipulator(viewer.getCamera().getOrCreateStateSet()) )
viewer.addEventHandler( TexturePoolHandler() )
########################################/
#
# IncrementalCompileOperation settings
#
incrementalCompile = osgUtil.IncrementalCompileOperation()
viewer.setIncrementalCompileOperation(incrementalCompile)
if arguments.read("--force") or arguments.read("-f") :
incrementalCompile.assignForceTextureDownloadGeometry()
if arguments.read("-a") :
incrementalCompile.setMinimumTimeAvailableForGLCompileAndDeletePerFrame(1)
incrementalCompile.setConservativeTimeRatio(1)
incrementalCompile.setMaximumNumOfObjectsToCompilePerFrame(100)
elif arguments.read("-c") :
incrementalCompile.setMinimumTimeAvailableForGLCompileAndDeletePerFrame(0.0001)
incrementalCompile.setConservativeTimeRatio(0.01)
incrementalCompile.setMaximumNumOfObjectsToCompilePerFrame(1)
########################################/
#
# SceneGraph processing setup
#
sceneGraphProcessor = SceneGraphProcessor(arguments)
########################################/
#
# Database settings
#
timeBetweenMerges = 2.0
while arguments.read("--interval",timeBetweenMerges) :
outputPostfix = str()
while arguments.read("-o",outputPostfix) : OSG_NOTICE, "Set ouputPostfix to ", outputPostfix
typedef std.vector< str > FileNames
fileNames = FileNames()
for(int pos=1pos<arguments.argc()++pos)
if not arguments.isOption(pos) :
fileNames.push_back(arguments[pos])
if fileNames.empty() :
OSG_NOTICE, "No files loaded, please specify files on commandline."
return 1
# load the models using a paging thread and use the incremental compile operation to
# manage the compilation of GL objects without breaking frame.
modelIndex = 0
databasePagingThread = osg.OperationThread()
databasePagingOperation = DatabasePagingOperation()
databasePagingThread = osg.OperationThread()
databasePagingThread.startThread()
group = osg.Group()
viewer.setSceneData(group)
viewer.realize()
filename = fileNames[modelIndex++]
outputFilename = str() : osgDB: if (outputPostfix.empty()) else getStrippedName(filename)+outputPostfix
databasePagingOperation = DatabasePagingOperation(
filename,
outputFilename,
sceneGraphProcessor,
incrementalCompile)
databasePagingThread.add(databasePagingOperation)
timeOfLastMerge = viewer.getFrameStamp().getReferenceTime()
while not viewer.done() :
viewer.frame()
currentTime = viewer.getFrameStamp().getReferenceTime()
if not databasePagingOperation and
modelIndex<fileNames.size() and
(currentTime-timeOfLastMerge)>timeBetweenMerges :
filename = fileNames[modelIndex++]
outputFilename = str() : osgDB: if (outputPostfix.empty()) else getStrippedName(filename)+outputPostfix
databasePagingOperation = DatabasePagingOperation(
filename,
outputFilename,
sceneGraphProcessor,
incrementalCompile)
databasePagingThread.add(databasePagingOperation)
if databasePagingOperation and databasePagingOperation._modelReadyToMerge :
OSG_NOTICE, "Merging subgraph"
timeOfLastMerge = currentTime
group.removeChildren(0,group.getNumChildren())
group.addChild(databasePagingOperation._loadedModel)
viewer.home()
# we no longer need the paging operation as it's done it's job.
databasePagingOperation = 0
viewer.home()
def main(argv):
# use an ArgumentParser object to manage the program arguments.
arguments = osg.ArgumentParser(argv)
arguments.getApplicationUsage().addCommandLineOption("--fbo","Use Frame Buffer Object for render to texture, where supported.")
arguments.getApplicationUsage().addCommandLineOption("--pbuffer-rtt","Use Pixel Buffer for render to texture, where supported.")
arguments.getApplicationUsage().addCommandLineOption("--nopds", "Don't use packed depth stencil.")
arguments.getApplicationUsage().addCommandLineOption("--fbo-samples","")
arguments.getApplicationUsage().addCommandLineOption("--color-samples", "")
# construct the viewer.
viewer = osgViewer.Viewer(arguments)
# add stats
viewer.addEventHandler( osgViewer.StatsHandler() )
# if user request help write it out to cout.
if arguments.read("-h") or arguments.read("--help") :
arguments.getApplicationUsage().write(std.cout)
return 1
renderImplementation = osg.Camera.FRAME_BUFFER_OBJECT
colorSamples = 0, samples = 0
usePDS = True
while arguments.read("--fbo") : renderImplementation = osg.Camera.FRAME_BUFFER_OBJECT
while arguments.read("--pbuffer-rtt") : renderImplementation = osg.Camera.PIXEL_BUFFER_RTT
while arguments.read("--nopds") : usePDS = False
while arguments.read("--fbo-samples", samples) :
while arguments.read("--color-samples", colorSamples) :
rootNode = osg.Group()
rootNode.getOrCreateStateSet().setMode(GL_LIGHTING, osg.StateAttribute.OFF)
# creates texture to be rendered
texture = osg.Texture2D()
texture.setTextureSize(1024, 1024)
texture.setInternalFormat(GL_RGBA)
texture.setFilter(osg.Texture2D.MIN_FILTER, osg.Texture2D.LINEAR)
texture.setFilter(osg.Texture2D.MAG_FILTER, osg.Texture2D.LINEAR)
texture.setWrap(osg.Texture.WRAP_S, osg.Texture.CLAMP_TO_EDGE)
texture.setWrap(osg.Texture.WRAP_T, osg.Texture.CLAMP_TO_EDGE)
texture.setBorderColor(osg.Vec4(0, 0, 0, 0))
# creates rtt camera
rttCamera = osg.Camera()
rttCamera.setClearMask(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT | GL_STENCIL_BUFFER_BIT)
rttCamera.setClearColor(osg.Vec4(0.0, 0.4, 0.5, 0.0))
rttCamera.setClearStencil(0)
rttCamera.setReferenceFrame(osg.Transform.ABSOLUTE_RF)
rttCamera.setViewMatrix(osg.Matrixd.identity())
rttCamera.setViewport(0, 0, 1024, 1024)
rttCamera.setRenderOrder(osg.Camera.PRE_RENDER)
rttCamera.setRenderTargetImplementation(renderImplementation)
if usePDS :
rttCamera.attach(osg.Camera.PACKED_DEPTH_STENCIL_BUFFER, GL_DEPTH_STENCIL_EXT)
else:
# this doesn't work on NVIDIA/Vista 64bit
# FBO status = 0x8cd6 (FRAMEBUFFER_INCOMPLETE_ATTACHMENT_EXT)
rttCamera.attach(osg.Camera.DEPTH_BUFFER, GL_DEPTH_COMPONENT)
rttCamera.attach(osg.Camera.STENCIL_BUFFER, GL_STENCIL_INDEX8_EXT)
rttCamera.attach(osg.Camera.COLOR_BUFFER, texture, 0, 0, False, samples, colorSamples)
rttCamera.setCullingMode(osg.Camera.VIEW_FRUSTUM_SIDES_CULLING)
# creates rtt subtree
g0 = osg.Group()
g0.addChild(createMask())
g0.addChild(createGeometry())
rttCamera.addChild(g0)
rootNode.addChild(rttCamera)
# creates textured quad with result
rootNode.addChild(createTextureQuad(texture))
# add model to the viewer.
viewer.setSceneData( rootNode )
return viewer.run()
if __name__ == "__main__":
main(sys.argv)
def main(argv):
viewer = osgViewer.Viewer()
# Let's get busy not The WindowManager class is actually an osg.Switch,
# so you can add it to (ideally) an orthographic camera and have it behave as
# expected. Note that you create a WindowManager with a NodeMask--it is very important
# that this be unique for picking to work properly. This also makes it possible to have
# multiple WindowManagers each operating on their own, unique set of Window objects.
# The final bool argument is a group of flags that introduce optional functionality
# for the WindowManager. In our case we include the flags USE_PYTHON and USE_LUA,
# to demonstrate (and test) their usage. Finally, we pass the temporary WM_NO_BETA_WARN
# argument, which prevents creating the orange warning window. :) It will be shown
# in other examples...
wm = osgWidget.WindowManager(
viewer,
1280.0,
1024.0,
MASK_2D,
osgWidget.WindowManager.WM_USE_LUA |
osgWidget.WindowManager.WM_USE_PYTHON |
osgWidget.WindowManager.WM_PICK_DEBUG
)
# An actual osgWidget.Window is pure virtual, so we've got to use the osgWidget.Box
# implementation for now. At a later time, support for Tables and other kinds of
# advanced layout Window types will be added.
box = osgWidget.Box("box", osgWidget.Box.HORIZONTAL)
# Now we actually attach our two types of callbacks to the box instance. The first
# uses the simple function signature, the second uses a bound method, passing "this"
# as the second argument to the Callback constructor.
# Object obj
static str data = "lol ur face not "
#
# box.addCallback(osgWidget.Callback(windowClicked, osgWidget.EVENT_MOUSE_PUSH, data))
# box.addCallback(osgWidget.Callback(windowScrolled, osgWidget.EVENT_MOUSE_SCROLL))
# box.addCallback(osgWidget.Callback(
# Object.windowClicked,
# obj,
# osgWidget.EVENT_MOUSE_PUSH
# ))
#
box.addCallback(CallbackObject(osgWidget.EVENT_MOUSE_PUSH))
# Create some of our "testing" Widgets included are two Widget subclasses I made
# during testing which I've kept around for testing purposes. You'll notice
# that you cannot move the box using the NullWidget, and that the NotifyWidget
# is a bit verbose. :)
widget1 = osgWidget.NotifyWidget("widget1", 300.0, 100.0)
widget2 = osgWidget.NullWidget("widget2", 400.0, 75.0)
widget3 = osgWidget.Widget("widget3", 100.0, 100.0)
# Set the colors of widget1 and widget3 to green.
widget1.setColor(0.0, 1.0, 0.0, 1.0)
widget1.setCanFill(True)
widget3.setColor(0.0, 1.0, 0.0, 1.0)
widget1.setImage(osgDB.readImageFile("Images/Saturn.TGA"), True)
# Set the color of widget2, to differentiate it and make it sassy. This is
# like a poor man's gradient not
widget2.setColor(0.9, 0.0, 0.0, 0.9, osgWidget.Widget.LOWER_LEFT)
widget2.setColor(0.9, 0.0, 0.0, 0.9, osgWidget.Widget.LOWER_RIGHT)
widget2.setColor(0.0, 0.0, 0.9, 0.9, osgWidget.Widget.UPPER_RIGHT)
widget2.setColor(0.0, 0.0, 0.9, 0.9, osgWidget.Widget.UPPER_LEFT)
# Now add our newly created widgets to our box.
box.addWidget(widget1)
box.addWidget(widget2)
box.addWidget(widget3)
# For maximum efficiency, Windows don't automatically reallocate their geometry
# and internal positioning every time a widget is added. Thus, we either have to
# call the WindowManger.resizeAllWindows method or manually call
# Window.resize when we're ready.
box.resize()
# Now, lets clone our existing box and create a copy of of it, also adding that
# to the WindowManager. This demonstrates the usages of OSG's .clone() support,
# though that is abstracted by our META_UIObject macro.
boxCopy = osg.clone(box, "newBox", osg.CopyOp.DEEP_COPY_ALL)
# Move our copy to make it visible.
boxCopy.setOrigin(0.0, 125.0)
boxCopy.getByName("widget1").setColor(0.5, 0.0, 1.0, 1.0)
boxCopy.getByName("widget3").setColor(0.5, 0.0, 1.0, 1.0)
# Add the successfully created Box (if we get this far) into the WindowManager, so
# that they can receive events.
wm.addChild(box)
wm.addChild(boxCopy)
# Now, ask our box to be 100% the width of the WindowManager.
boxCopy.resizePercent(100.0, 0.0)
# Here we demonstrate the use of osgWidget/io_utils. This is really only useful for
# debugging at the moment.
# print *box, *boxCopy
# Setup our OSG objects for our scene note the use of the utility function
# createOrthoCamera, which is just a helper for setting up a proper viewing area.
# An alternative (and a MUCH easier alternative at that not ) is to
# simply use the createParentOrthoCamera method of the WindowManager class,
# which will wrap the calls to createOrthoCamera and addChild for us not Check out
# some of the other examples to see this in action...
group = osg.Group()
camera = osgWidget.createOrthoCamera(1280.0, 1024.0)
model = osgDB.readNodeFile("cow.osgt")
# Add our event handler is this better as a MatrixManipulator? Add a few other
# helpful ViewerEventHandlers.
viewer.addEventHandler(osgWidget.MouseHandler(wm))
viewer.addEventHandler(osgWidget.KeyboardHandler(wm))
viewer.addEventHandler(osgWidget.ResizeHandler(wm, camera))
viewer.addEventHandler(osgWidget.CameraSwitchHandler(wm, camera))
viewer.addEventHandler(osgViewer.StatsHandler())
viewer.addEventHandler(osgViewer.WindowSizeHandler())
viewer.addEventHandler(osgGA.StateSetManipulator(
viewer.getCamera().getOrCreateStateSet()
))
# Set our first non-UI node to be something other than the mask we created our
# WindowManager with to avoid picking.
# TODO: Do I need to create a mechanism for doing this automatically, or should
# that be the responsibility of the users of osgWidget?
model.setNodeMask(MASK_3D)
# Add the WindowManager instance to the 2D camera. This isn't strictly necessary,
# and you can get some cool results putting the WindowManager directly into a
# 3D scene. This is not necessary if you use WindowManager.createParentOrthoCamera.
camera.addChild(wm)
# Add our camera and a testing 3D model to the scene.
group.addChild(camera)
group.addChild(model)
# Here we show how to both run simple strings of code AND run entire files. These
# assume that you're running the osgwidgetwindow example from the build directory,
# otherwise you'll need to adjust the file path below in the call to runFile().
wm.getLuaEngine().eval("window = osgwidget.newWindow()")
wm.getLuaEngine().runFile("osgWidget/osgwidgetwindow.lua")
wm.getPythonEngine().eval("import osgwidget")
wm.getPythonEngine().runFile("osgWidget/osgwidgetwindow.py")
viewer.setUpViewInWindow(0, 0, 1280, 1024)
viewer.setSceneData(group)
#
# cameras = osgViewer.Viewer.Cameras()
# viewer.getCameras(cameras)
# c = cameras[0]
# s = osg.Matrix.scale(1.0, -1.0, 1.0)
# c.setProjectionMatrix(s * c.getProjectionMatrix())
#
return viewer.run()
osgDB.AuthenticationDetails(username, password)
)
viewer.setCameraManipulator(osgGA.TrackballManipulator)()
# add the state manipulator
viewer.addEventHandler( osgGA.StateSetManipulator(viewer.getCamera().getOrCreateStateSet()) )
# add the thread model handler
viewer.addEventHandler(osgViewer.ThreadingHandler)()
# add the window size toggle handler
viewer.addEventHandler(osgViewer.WindowSizeHandler)()
# add the stats handler
statsHandler = osgViewer.StatsHandler()
viewer.addEventHandler(statsHandler)
initUserStats(statsHandler)
# add the help handler
viewer.addEventHandler(osgViewer.HelpHandler(arguments.getApplicationUsage()))
# load the data
loadedModel = osgDB.readNodeFiles(arguments)
if not loadedModel :
print arguments.getApplicationName(), ": No data loaded"
return 1
# any option left unread are converted into errors to write out later.
arguments.reportRemainingOptionsAsUnrecognized()
def main(argv):
arguments = osg.ArgumentParser(argv)
arguments.getApplicationUsage().setApplicationName(arguments.getApplicationName())
arguments.getApplicationUsage().setDescription(arguments.getApplicationName()+" is an example for viewing osgAnimation animations.")
arguments.getApplicationUsage().addCommandLineOption("-h or --help","List command line options.")
arguments.getApplicationUsage().addCommandLineOption("--drawbone","draw helps to display bones.")
if arguments.read("-h") or arguments.read("--help") :
arguments.getApplicationUsage().write(std.cout, osg.ApplicationUsage.COMMAND_LINE_OPTION)
return 0
if arguments.argc()<=1 :
arguments.getApplicationUsage().write(std.cout, osg.ApplicationUsage.COMMAND_LINE_OPTION)
return 1
drawBone = False
if arguments.read("--drawbone") :
drawBone = True
viewer = osgViewer.Viewer(arguments)
group = osg.Group()
node = dynamic_cast<osg.Group*>(osgDB.readNodeFiles(arguments)) #dynamic_cast<osgAnimation.AnimationManager*>(osgDB.readNodeFile(psr[1]))
if not node :
print arguments.getApplicationName(), ": No data loaded"
return 1
# Set our Singleton's model.
finder = AnimationManagerFinder()
node.accept(finder)
if finder._am.valid() :
node.setUpdateCallback(finder._am)
AnimtkViewerModelController.setModel(finder._am)
else:
osg.notify(osg.WARN), "no osgAnimation.AnimationManagerBase found in the subgraph, no animations available"
if drawBone :
osg.notify(osg.INFO), "Add Bones Helper"
addHelper = AddHelperBone()
node.accept(addHelper)
node.addChild(createAxis())
gui = AnimtkViewerGUI(viewer, WIDTH, HEIGHT, 0x1234)
camera = gui.createParentOrthoCamera()
node.setNodeMask(0x0001)
group.addChild(node)
group.addChild(camera)
viewer.addEventHandler(AnimtkKeyEventHandler())
viewer.addEventHandler(osgViewer.StatsHandler())
viewer.addEventHandler(osgViewer.WindowSizeHandler())
viewer.addEventHandler(osgGA.StateSetManipulator(viewer.getCamera().getOrCreateStateSet()))
viewer.addEventHandler(osgWidget.MouseHandler(gui))
viewer.addEventHandler(osgWidget.KeyboardHandler(gui))
viewer.addEventHandler(osgWidget.ResizeHandler(gui, camera))
viewer.setSceneData(group)
viewer.setUpViewInWindow(40, 40, WIDTH, HEIGHT)
return viewer.run()
