def main(argv):

    
    arguments = osg.ArgumentParser(argv)

    # construct the viewer.
    viewer = osgViewer.Viewer(arguments)

    # set up the 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() )

        pathfile = str()
        keyForAnimationPath = ord("5")
        while arguments.read("-p",pathfile) :
            apm = osgGA.AnimationPathManipulator(pathfile)
            if apm  or   not apm.valid() : 
                num = keyswitchManipulator.getNumMatrixManipulators()
                keyswitchManipulator.addMatrixManipulator( keyForAnimationPath, "Path", apm )
                keyswitchManipulator.selectMatrixManipulator(num)
                ++keyForAnimationPath

        viewer.setCameraManipulator( keyswitchManipulator )
Ejemplo n.º 2
0
def main(argv):


    

    # use an ArgumentParser object to manage the program arguments.
    arguments = osg.ArgumentParser(argv)
    
    # set up the usage document, in case we need to print out how to use this program.
    arguments.getApplicationUsage().setApplicationName(arguments.getApplicationName())
    arguments.getApplicationUsage().setDescription(arguments.getApplicationName()+" example provides an interactive viewer for visualising point clouds..")
    arguments.getApplicationUsage().setCommandLineUsage(arguments.getApplicationName()+" [options] filename ...")
    arguments.getApplicationUsage().addCommandLineOption("-h or --help","Display this information")
    arguments.getApplicationUsage().addCommandLineOption("--snow <density>","Set the snow with a density between 0 and 1.0")
    arguments.getApplicationUsage().addCommandLineOption("--rain <density>","")
    arguments.getApplicationUsage().addCommandLineOption("--particleSize <size>","")
    arguments.getApplicationUsage().addCommandLineOption("--particleColour <red> <green> <blue> <alpha>","")
    arguments.getApplicationUsage().addCommandLineOption("--wind <x> <y> <z>","Set the wind speed in model coordinates")
    arguments.getApplicationUsage().addCommandLineOption("--particleSpeed <float>","Set the particle speed")
    arguments.getApplicationUsage().addCommandLineOption("--nearTransition <distance>","Set the near transistion distance")
    arguments.getApplicationUsage().addCommandLineOption("--farTransition  <distance>","Set the far transistion distance")
    arguments.getApplicationUsage().addCommandLineOption("--particleDensity <density>","Set the particle density")
    arguments.getApplicationUsage().addCommandLineOption("--cellSize <x> <y> <z>","Set the cell size in model coordinates")
    arguments.getApplicationUsage().addCommandLineOption("--fogDensity <density>","Set the fog density")
    arguments.getApplicationUsage().addCommandLineOption("--fogColour <red> <green> <blue> <alpha>","Set fog colour.")
    arguments.getApplicationUsage().addCommandLineOption("-useFarLineSegments","Switch on the use of line segments")
    

    # construct the viewer.
    viewer = osgViewer.Viewer()

    # set up the 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() )

        pathfile = str()
        keyForAnimationPath = ord("5")
        while arguments.read("-p",pathfile) :
            apm = osgGA.AnimationPathManipulator(pathfile)
            if apm  or   not apm.valid() : 
                num = keyswitchManipulator.getNumMatrixManipulators()
                keyswitchManipulator.addMatrixManipulator( keyForAnimationPath, "Path", apm )
                keyswitchManipulator.selectMatrixManipulator(num)
                ++keyForAnimationPath

        viewer.setCameraManipulator( keyswitchManipulator )
Ejemplo n.º 3
0
def main(argv):

    
    # use an ArgumentParser object to manage the program arguments.
    arguments = osg.ArgumentParser(argv)

    # read the scene from the list of file specified commandline args.
    scene = osgDB.readNodeFiles(arguments)

    if  not scene  and  arguments.read("--relative-camera-scene") :
        # Create a test scene with a camera that has a relative reference frame.
        group = osg.Group()

        sphere = osg.Geode()
        sphere.setName("Sphere")
        sphere.addDrawable(osg.ShapeDrawable(osg.Sphere()))

        cube = osg.Geode()
        cube.setName("Cube")
        cube.addDrawable(osg.ShapeDrawable(osg.Box()))

        camera = osg.Camera()
        camera.setRenderOrder(osg.Camera.POST_RENDER)
        camera.setClearMask(GL_DEPTH_BUFFER_BIT)
        camera.setReferenceFrame(osg.Transform.RELATIVE_RF)
        camera.setViewMatrix(osg.Matrix.translate(-2, 0, 0))

        xform = osg.MatrixTransform(osg.Matrix.translate(1, 1, 1))
        xform.addChild(camera)

        group.addChild(sphere)
        group.addChild(xform)
        camera.addChild(cube)

        scene = group

    # if not loaded assume no arguments passed in, try use default mode instead.
    if  not scene : scene = osgDB.readNodeFile("fountain.osgt")

    group = dynamic_cast<osg.Group*>(scene)
    if  not group :
        group = osg.Group()
        group.addChild(scene)

    updateText = osgText.Text()

    # add the HUD subgraph.
    group.addChild(createHUD(updateText))

    if arguments.read("--CompositeViewer") :
        view = osgViewer.View()
        # add the handler for doing the picking
        view.addEventHandler(PickHandler(updateText))

        # set the scene to render
        view.setSceneData(group)

        view.setUpViewAcrossAllScreens()

        viewer = osgViewer.CompositeViewer()
        viewer.addView(view)

        return viewer.run()

    else:
        viewer = osgViewer.Viewer()


        # add all the 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() )

            num = keyswitchManipulator.getNumMatrixManipulators()
            keyswitchManipulator.addMatrixManipulator( ord("4"), "Terrain", osgGA.TerrainManipulator() )

            pathfile = str()
            keyForAnimationPath = ord("5")
            while arguments.read("-p",pathfile) :
                apm = osgGA.AnimationPathManipulator(pathfile)
                if apm  or   not apm.valid() :
                    num = keyswitchManipulator.getNumMatrixManipulators()
                    keyswitchManipulator.addMatrixManipulator( keyForAnimationPath, "Path", apm )
                    ++keyForAnimationPath

            keyswitchManipulator.selectMatrixManipulator(num)

            viewer.setCameraManipulator( keyswitchManipulator )

        # add the handler for doing the picking
        viewer.addEventHandler(PickHandler(updateText))

        # set the scene to render
        viewer.setSceneData(group)

        return viewer.run()
Ejemplo n.º 4
0
def main(argv):


    
    # use an ArgumentParser object to manage the program arguments.
    arguments = osg.ArgumentParser(argv)

    # construct the viewer.
    viewer = osgViewer.Viewer()

    # load the nodes from the commandline arguments.
    loadedModel = osgDB.readNodeFiles(arguments)

    # if not loaded assume no arguments passed in, try use default mode instead.
    if  not loadedModel : loadedModel = osgDB.readNodeFile("cow.osgt")

    if  not loadedModel :
        print arguments.getApplicationName(), ": No data loaded"
        return 1


    if arguments.read("--dome")  or  arguments.read("--puffer")  :

        setDomeCorrection(viewer, arguments)

        viewer.setSceneData( loadedModel )
    elif arguments.read("--faces") :

        setDomeFaces(viewer, arguments)

        viewer.setSceneData( loadedModel )
    else:
        distortionNode = createDistortionSubgraph( loadedModel, viewer.getCamera().getClearColor())
        viewer.setSceneData( distortionNode )

    while arguments.read("--sky-light") :
        viewer.setLightingMode(osg.View.SKY_LIGHT)

    if viewer.getLightingMode()==osg.View.HEADLIGHT :
        viewer.getLight().setPosition(osg.Vec4(0.0,0.0,0.0,1.0))


    # load the nodes from the commandline arguments.
    if  not viewer.getSceneData() :
        osg.notify(osg.NOTICE), "Please specify a model filename on the command line."
        return 1


    # set up the 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() )

        pathfile = str()
        keyForAnimationPath = ord("5")
        while arguments.read("-p",pathfile) :
            apm = osgGA.AnimationPathManipulator(pathfile)
            if apm  or   not apm.valid() :
                num = keyswitchManipulator.getNumMatrixManipulators()
                keyswitchManipulator.addMatrixManipulator( keyForAnimationPath, "Path", apm )
                keyswitchManipulator.selectMatrixManipulator(num)
                ++keyForAnimationPath

        viewer.setCameraManipulator( keyswitchManipulator )

    viewer.setThreadingModel(osgViewer.Viewer.SingleThreaded)

    # add the state manipulator
    viewer.addEventHandler( osgGA.StateSetManipulator(viewer.getCamera().getOrCreateStateSet()) )

    # add the stats handler
    viewer.addEventHandler(osgViewer.StatsHandler)()

    return viewer.run()
Ejemplo n.º 5
0
def main(argv):

    
    # use an ArgumentParser object to manage the program arguments.
    arguments = osg.ArgumentParser(argv)
    arguments.getApplicationUsage().addCommandLineOption("-v","Set the terrain vertical scale.")
    arguments.getApplicationUsage().addCommandLineOption("-r","Set the terrain sample ratio.")
    arguments.getApplicationUsage().addCommandLineOption("--login <url> <username> <password>","Provide authentication information for http file access.")
   
    # construct the viewer.
    viewer = osgViewer.Viewer(arguments)


    # set the tile loaded callback to load the optional imagery
    whiteList = osgTerrain.WhiteListTileLoadedCallback()
    setname = str()
    while arguments.read("--allow",setname) :
        whiteList.allow(setname)
    while arguments.read("--allow-all") :
        whiteList.setAllowAll(True)
    osgTerrain.TerrainTile.setTileLoadedCallback(whiteList)


    # obtain the vertical scale
    verticalScale = 1.0
    while arguments.read("-v",verticalScale) : 
    
    # obtain the sample ratio
    sampleRatio = 1.0
    while arguments.read("-r",sampleRatio) : 


    # set up any authentication.
    str url, username, password
    while arguments.read("--login",url, username, password) :
        if  not osgDB.Registry.instance().getAuthenticationMap() :
            osgDB.Registry.instance().setAuthenticationMap(osgDB.AuthenticationMap)()
            osgDB.Registry.instance().getAuthenticationMap().addAuthenticationDetails(
                url,
                osgDB.AuthenticationDetails(username, password)
            )

    # add all the event handlers to the viewer
        # 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
        viewer.addEventHandler(osgViewer.StatsHandler)()

        # add the help handler
        viewer.addEventHandler(osgViewer.HelpHandler(arguments.getApplicationUsage()))

        # add the record camera path handler
        viewer.addEventHandler(osgViewer.RecordCameraPathHandler)()

        # add the LOD Scale handler
        viewer.addEventHandler(osgViewer.LODScaleHandler)()

    # add all the 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() )

        num = keyswitchManipulator.getNumMatrixManipulators()
        keyswitchManipulator.addMatrixManipulator( ord("4"), "Terrain", osgGA.TerrainManipulator() )

        pathfile = str()
        keyForAnimationPath = ord("5")
        while arguments.read("-p",pathfile) :
            apm = osgGA.AnimationPathManipulator(pathfile)
            if apm  or   not apm.valid() : 
                num = keyswitchManipulator.getNumMatrixManipulators()
                keyswitchManipulator.addMatrixManipulator( keyForAnimationPath, "Path", apm )
                ++keyForAnimationPath

        keyswitchManipulator.selectMatrixManipulator(num)

        viewer.setCameraManipulator( keyswitchManipulator )

    # set up the scene graph
        # load the nodes from the commandline arguments.
        rootnode = osgDB.readNodeFiles(arguments)

        if  not rootnode :
            osg.notify(osg.NOTICE), "Warning: no valid data loaded, please specify a database on the command line."
            return 1

        terrain = findTopMostNodeOfType<osgTerrain.Terrain>(rootnode)
        if  not terrain :
            terrain = osgTerrain.Terrain()

            csn = findTopMostNodeOfType<osg.CoordinateSystemNode>(rootnode)
            if csn :
                terrain.set(*csn)

            terrain.addChild(rootnode)

            rootnode = terrain
            csn = terrain

        terrain.setSampleRatio(sampleRatio)
        terrain.setVerticalScale(verticalScale)

        # register our custom handler for adjust Terrain settings
        viewer.addEventHandler(TerrainHandler(terrain))


        numLayers = 1
        mtc = findTopMostNodeOfType<osgFX.MultiTextureControl>(rootnode)
        if mtc :

            numLayers = mtc.getNumTextureWeights()

            # switch on just the first texture layer.
            mtc.setTextureWeight(0,1.0)
            for(unsigned int i=1 i<numLayers ++i)
                mtc.setTextureWeight(i,0.0)

        if numLayers<2 :
            osg.notify(osg.NOTICE), "Warning: scene must have MultiTextureControl node with at least 2 texture units defined."
            return 1

        maxElevationTransition = 1e6
        elevations = ElevationLayerBlendingCallback.Elevations()
        for(unsigned int i=0 i<numLayers ++i)
            elevations.push_back(maxElevationTransition)
            maxElevationTransition /= 2.0


        # we must assign callback as both an update and cull callback, as update callback to do the update of
        # the the osgFX.MultiTextureControl node a thread safe way, and as a cull callback to gather the camera
        # position information.
        elbc = ElevationLayerBlendingCallback(mtc, elevations)
        terrain.setUpdateCallback(elbc)
        terrain.setCullCallback(elbc)

        # add a viewport to the viewer and attach the scene graph.
        viewer.setSceneData( rootnode )
    


    # create the windows and run the threads.
    viewer.realize()

    return viewer.run()
Ejemplo n.º 6
0
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()
Ejemplo n.º 7
0
def main(argv):


    
    # use an ArgumentParser object to manage the program arguments.
    arguments = osg.ArgumentParser(argv)
    
    # set up the usage document, in case we need to print out how to use this program.
    arguments.getApplicationUsage().setDescription(arguments.getApplicationName()+" is the example which demonstrates use of node tracker.")
    arguments.getApplicationUsage().setCommandLineUsage(arguments.getApplicationName())
    arguments.getApplicationUsage().addCommandLineOption("-h or --help","Display this information")
    

    # construct the viewer.
    viewer = osgViewer.Viewer(arguments)

    # 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
    viewer.addEventHandler(osgViewer.StatsHandler)()
        
    # add the record camera path  handler
    viewer.addEventHandler(osgViewer.RecordCameraPathHandler)()

    # add the help handler
    viewer.addEventHandler(osgViewer.HelpHandler(arguments.getApplicationUsage()))

    # set the near far ration computation up.
    viewer.getCamera().setComputeNearFarMode(osg.CullSettings.COMPUTE_NEAR_FAR_USING_PRIMITIVES)
    viewer.getCamera().setNearFarRatio(0.000003)


    speed = 1.0
    while arguments.read("-f")  or  arguments.read("--fixed") : speed = 0.0


    rotation = osg.Quat()
    vec4 = osg.Vec4()
    while arguments.read("--rotate-model",vec4[0],vec4[1],vec4[2],vec4[3]) :
        local_rotate = osg.Quat()
        local_rotate.makeRotate(osg.DegreesToRadians(vec4[0]),vec4[1],vec4[2],vec4[3])
        
        rotation = rotation * local_rotate

    nc = 0
    flightpath_filename = str()
    while arguments.read("--flight-path",flightpath_filename) :
        fin = osgDB.ifstream(flightpath_filename.c_str())
        if fin :
            path = osg.AnimationPath()
            path.read(fin)
            nc = osg.AnimationPathCallback(path)
    
    trackerMode = osgGA.NodeTrackerManipulator.NODE_CENTER_AND_ROTATION
    mode = str()
    while arguments.read("--tracker-mode",mode) :
        if mode=="NODE_CENTER_AND_ROTATION" : trackerMode = osgGA.NodeTrackerManipulator.NODE_CENTER_AND_ROTATION
        elif mode=="NODE_CENTER_AND_AZIM" : trackerMode = osgGA.NodeTrackerManipulator.NODE_CENTER_AND_AZIM
        elif mode=="NODE_CENTER" : trackerMode = osgGA.NodeTrackerManipulator.NODE_CENTER
        else:
            print "Unrecognized --tracker-mode option ", mode, ", valid options are:"
            print "    NODE_CENTER_AND_ROTATION"
            print "    NODE_CENTER_AND_AZIM"
            print "    NODE_CENTER"
            return 1
    
    
    rotationMode = osgGA.NodeTrackerManipulator.TRACKBALL
    while arguments.read("--rotation-mode",mode) :
        if mode=="TRACKBALL" : rotationMode = osgGA.NodeTrackerManipulator.TRACKBALL
        elif mode=="ELEVATION_AZIM" : rotationMode = osgGA.NodeTrackerManipulator.ELEVATION_AZIM
        else:
            print "Unrecognized --rotation-mode option ", mode, ", valid options are:"
            print "    TRACKBALL"
            print "    ELEVATION_AZIM"
            return 1

    useOverlay = True
    while arguments.read("--no-overlay")  or  arguments.read("-n") : useOverlay = False
    
    technique = osgSim.OverlayNode.OBJECT_DEPENDENT_WITH_ORTHOGRAPHIC_OVERLAY
    while arguments.read("--object") : technique = osgSim.OverlayNode.OBJECT_DEPENDENT_WITH_ORTHOGRAPHIC_OVERLAY
    while arguments.read("--ortho")  or  arguments.read("--orthographic") : technique = osgSim.OverlayNode.VIEW_DEPENDENT_WITH_ORTHOGRAPHIC_OVERLAY
    while arguments.read("--persp")  or  arguments.read("--perspective") : technique = osgSim.OverlayNode.VIEW_DEPENDENT_WITH_PERSPECTIVE_OVERLAY

    overlayTextureUnit = 1
    while arguments.read("--unit", overlayTextureUnit) : 
    
    pathfile = str()
    while arguments.read("-p",pathfile) : 

    addFireEffect = arguments.read("--fire")

    # if user request help write it out to cout.
    if arguments.read("-h")  or  arguments.read("--help") :
        arguments.getApplicationUsage().write(std.cout)
        return 1
    
    
    tm = osgGA.NodeTrackerManipulator()
    
    overlayFilename = str()
    while arguments.read("--overlay", overlayFilename) : 

    # read the scene from the list of file specified commandline args.
    root = osgDB.readNodeFiles(arguments)

    if  not root : root = createEarth()

    if  not root : return 0


    if  not overlayFilename.empty() :
        #osg.Object *pObj = osgDB.readObjectFile("alaska_clean.shp")
        #osg.Geode shapefile = dynamic_cast<osg.Geode*> (pObj)
        #
        #ConvertLatLon2EllipsoidCoordinates latlon2em
        #shapefile.accept(latlon2em)

        shapefile = osgDB.readNodeFile(overlayFilename)
        
        if  not shapefile :
            osg.notify(osg.NOTICE), "File `", overlayFilename, "` not found"
            return 1

        csn = dynamic_cast<osg.CoordinateSystemNode*>(root)
        if csn :

            overlayNode = osgSim.OverlayNode(technique)
            overlayNode.getOrCreateStateSet().setTextureAttribute(1, osg.TexEnv(osg.TexEnv.DECAL))
            overlayNode.setOverlaySubgraph(shapefile)
            overlayNode.setOverlayTextureSizeHint(1024)
            overlayNode.setOverlayTextureUnit(overlayTextureUnit)

            # insert the OverlayNode between the coordinate system node and its children.
            for(unsigned int i=0 i<csn.getNumChildren() ++i)
                overlayNode.addChild( csn.getChild(i) )

            csn.removeChildren(0, csn.getNumChildren())
            csn.addChild(overlayNode)

            viewer.setSceneData(csn)
        else:
            overlayNode = osgSim.OverlayNode(technique)
            overlayNode.getOrCreateStateSet().setTextureAttribute(1, osg.TexEnv(osg.TexEnv.DECAL))
            overlayNode.setOverlaySubgraph(shapefile)
            overlayNode.setOverlayTextureSizeHint(1024)
            overlayNode.addChild(root)

            viewer.setSceneData(overlayNode)
    else:
    

        # add a viewport to the viewer and attach the scene graph.
        viewer.setSceneData(root)

        csn = dynamic_cast<osg.CoordinateSystemNode*>(root)
        if csn :

            overlayNode = osgSim.OverlayNode()
            if useOverlay :
                overlayNode = osgSim.OverlayNode(technique)

                # insert the OverlayNode between the coordinate system node and its children.
                for(unsigned int i=0 i<csn.getNumChildren() ++i)
                    overlayNode.addChild( csn.getChild(i) )

                csn.removeChildren(0, csn.getNumChildren())
                csn.addChild(overlayNode)

                # tell the overlay node to continously update its overlay texture
                # as we know we'll be tracking a moving target.
                overlayNode.setContinuousUpdate(True)


            cessna = osgDB.readNodeFile("cessna.osgt")
            if cessna :
                s = 200000.0 / cessna.getBound().radius()

                scaler = osg.MatrixTransform()
                scaler.addChild(cessna)
                scaler.setMatrix(osg.Matrixd.scale(s,s,s)*osg.Matrixd.rotate(rotation))
                scaler.getOrCreateStateSet().setMode(GL_RESCALE_NORMAL,osg.StateAttribute.ON)
                
                if addFireEffect :
                    center = cessna.getBound().center()
                    
                    fire = osgParticle.FireEffect(center, 10.0)
                    scaler.addChild(fire)
                

                if False :
                    ss = osgSim.SphereSegment(
                                        osg.Vec3(0.0,0.0,0.0), # center
                                        19.9, # radius
                                        osg.DegreesToRadians(135.0),
                                        osg.DegreesToRadians(240.0),
                                        osg.DegreesToRadians(-10.0),
                                        osg.DegreesToRadians(30.0),
                                        60)

                    scaler.addChild(ss)

                mt = osg.MatrixTransform()
                mt.addChild(scaler)


                if  not nc : nc = ModelPositionCallback(speed)

                mt.setUpdateCallback(nc)

                csn.addChild(mt)

                # if we are using an overaly node, use the cessna subgraph as the overlay subgraph
                if overlayNode.valid() :
                    overlayNode.setOverlaySubgraph(mt)

                tm = osgGA.NodeTrackerManipulator()
                tm.setTrackerMode(trackerMode)
                tm.setRotationMode(rotationMode)
                tm.setTrackNode(scaler)
            else:
                 print "Failed to read cessna.osgt"


    # set up camera manipulators.
        keyswitchManipulator = osgGA.KeySwitchMatrixManipulator()

        if tm.valid() : keyswitchManipulator.addMatrixManipulator( ord("0"), "NodeTracker", tm )

        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() )

        if  not pathfile.empty() :
            apm = osgGA.AnimationPathManipulator(pathfile)
            if apm  or   not apm.valid() : 
                num = keyswitchManipulator.getNumMatrixManipulators()
                keyswitchManipulator.addMatrixManipulator( ord("5"), "Path", apm )
                keyswitchManipulator.selectMatrixManipulator(num)

        viewer.setCameraManipulator( keyswitchManipulator )

    # viewer.setThreadingModel(osgViewer.Viewer.SingleThreaded)

    return viewer.run()


if __name__ == "__main__":
    main(sys.argv)
Ejemplo n.º 8
0
    # report any errors if they have occurred when parsing the program arguments.
    if arguments.errors() :
        arguments.writeErrorMessages(std.cout)
        return 1
    
    if arguments.argc()<=1 :
        arguments.getApplicationUsage().write(std.cout,osg.ApplicationUsage.COMMAND_LINE_OPTION)
        return 1

    viewer = osgViewer.Viewer()
    
    # set up the 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() )

        pathfile = str()
        keyForAnimationPath = ord("5")
        while arguments.read("-p",pathfile) :
            apm = osgGA.AnimationPathManipulator(pathfile)
            if apm  or   not apm.valid() : 
                num = keyswitchManipulator.getNumMatrixManipulators()
                keyswitchManipulator.addMatrixManipulator( keyForAnimationPath, "Path", apm )
                keyswitchManipulator.selectMatrixManipulator(num)
                ++keyForAnimationPath

        viewer.setCameraManipulator( keyswitchManipulator )