/** Packages an image layer as a TMS folder. */
int
makeTMS( osg::ArgumentParser& args )
{
    osgDB::Registry::instance()->getReaderWriterForExtension("png");
    osgDB::Registry::instance()->getReaderWriterForExtension("jpg");
    osgDB::Registry::instance()->getReaderWriterForExtension("tiff");

    //Read the min level
    unsigned int minLevel = 0;
    while (args.read("--min-level", minLevel));

    //Read the max level
    unsigned int maxLevel = 5;
    while (args.read("--max-level", maxLevel));
    

    std::vector< Bounds > bounds;
    // restrict packaging to user-specified bounds.    
    double xmin=DBL_MAX, ymin=DBL_MAX, xmax=DBL_MIN, ymax=DBL_MIN;
    while (args.read("--bounds", xmin, ymin, xmax, ymax ))
    {        
        Bounds b;
        b.xMin() = xmin, b.yMin() = ymin, b.xMax() = xmax, b.yMax() = ymax;
        bounds.push_back( b );
    }    

    std::string tileList;
    while (args.read( "--tiles", tileList ) );

    bool verbose = args.read("--verbose");

    unsigned int batchSize = 0;
    args.read("--batchsize", batchSize);

    // Read the concurrency level
    unsigned int concurrency = 0;
    args.read("-c", concurrency);
    args.read("--concurrency", concurrency);

    bool writeXML = true;

    // load up the map
    osg::ref_ptr<MapNode> mapNode = MapNode::load( args );
    if( !mapNode.valid() )
        return usage( "Failed to load a valid .earth file" );


    // Read in an index shapefile
    std::string index;
    while (args.read("--index", index))
    {        
        //Open the feature source
        OGRFeatureOptions featureOpt;
        featureOpt.url() = index;        

        osg::ref_ptr< FeatureSource > features = FeatureSourceFactory::create( featureOpt );
        features->initialize();
        features->getFeatureProfile();

        osg::ref_ptr< FeatureCursor > cursor = features->createFeatureCursor();
        while (cursor.valid() && cursor->hasMore())
        {
            osg::ref_ptr< Feature > feature = cursor->nextFeature();
            osgEarth::Bounds featureBounds = feature->getGeometry()->getBounds();
            GeoExtent ext( feature->getSRS(), featureBounds );
            ext = ext.transform( mapNode->getMapSRS() );
            bounds.push_back( ext.bounds() );            
        }
    }

    // see if the user wants to override the type extension (imagery only)
    std::string extension;
    args.read( "--ext", extension );

    // find a .earth file on the command line
    std::string earthFile = findArgumentWithExtension( args, ".earth" );
    
    // folder to which to write the TMS archive.
    std::string rootFolder;
    if( !args.read( "--out", rootFolder ) )
        rootFolder = Stringify() << earthFile << ".tms_repo";

    // whether to overwrite existing tile files
    //TODO:  Support
    bool overwrite = false;
    if( args.read( "--overwrite" ) )
        overwrite = true;

    // write out an earth file
    std::string outEarth;
    args.read( "--out-earth", outEarth );

    std::string dbOptions;
    args.read( "--db-options", dbOptions );
    std::string::size_type n = 0;
    while( (n = dbOptions.find( '"', n )) != dbOptions.npos )
    {
        dbOptions.erase( n, 1 );
    }

    osg::ref_ptr<osgDB::Options> options = new osgDB::Options( dbOptions );

    // whether to keep 'empty' tiles    
    bool keepEmpties = args.read( "--keep-empties" );

    //TODO:  Single color
    bool continueSingleColor = args.read( "--continue-single-color" );

    // elevation pixel depth
    unsigned elevationPixelDepth = 32;
    args.read( "--elevation-pixel-depth", elevationPixelDepth );
    
    // create a folder for the output
    osgDB::makeDirectory( rootFolder );
    if( !osgDB::fileExists( rootFolder ) )
        return usage( "Failed to create root output folder" );

    int imageLayerIndex = -1;
    args.read("--image", imageLayerIndex);

    int elevationLayerIndex = -1;
    args.read("--elevation", elevationLayerIndex);
    
    Map* map = mapNode->getMap();


    osg::ref_ptr< TileVisitor > visitor;

    // If we are given a task file, load it up and create a new TileKeyListVisitor
    if (!tileList.empty())
    {        
        TaskList tasks( mapNode->getMap()->getProfile() );
        tasks.load( tileList );

        TileKeyListVisitor* v = new TileKeyListVisitor();
        v->setKeys( tasks.getKeys() );
        visitor = v;     
        // This process is a lowly worker, and shouldn't write out the XML file.
        writeXML = false;
    }

    // If we dont' have a visitor create one.
    if (!visitor.valid())
    {
        if (args.read("--mt"))
        {
            // Create a multithreaded visitor
            MultithreadedTileVisitor* v = new MultithreadedTileVisitor();
            if (concurrency > 0)
            {
                v->setNumThreads(concurrency);
            }
            visitor = v;            
        }
        else if (args.read("--mp"))
        {
            // Create a multiprocess visitor
            MultiprocessTileVisitor* v = new MultiprocessTileVisitor();
            if (concurrency > 0)
            {
                v->setNumProcesses(concurrency);
                OE_NOTICE << "Set num processes " << concurrency << std::endl;
            }

            if (batchSize > 0)
            {            
                v->setBatchSize(batchSize);
            }


            // Try to find the earth file
            std::string earthFile;
            for(int pos=1;pos<args.argc();++pos)
            {
                if (!args.isOption(pos))
                {
                    earthFile  = args[ pos ];
                    break;
                }
            }

            v->setEarthFile( earthFile );

            visitor = v;            
        }
        else
        {
            // Create a single thread visitor
            visitor = new TileVisitor();            
        }        
    }

    osg::ref_ptr< ProgressCallback > progress = new ConsoleProgressCallback();

    if (verbose)
    {
        visitor->setProgressCallback( progress );
    }

    visitor->setMinLevel( minLevel );
    visitor->setMaxLevel( maxLevel );        


    for (unsigned int i = 0; i < bounds.size(); i++)
    {
        GeoExtent extent(mapNode->getMapSRS(), bounds[i]);
        OE_DEBUG << "Adding extent " << extent.toString() << std::endl;                
        visitor->addExtent( extent );
    }    


    // Setup a TMSPackager with all the options.
    TMSPackager packager;
    packager.setExtension(extension);
    packager.setVisitor(visitor);
    packager.setDestination(rootFolder);    
    packager.setElevationPixelDepth(elevationPixelDepth);
    packager.setWriteOptions(options);    
    packager.setOverwrite(overwrite);
    packager.setKeepEmpties(keepEmpties);


    // new map for an output earth file if necessary.
    osg::ref_ptr<Map> outMap = 0L;
    if( !outEarth.empty() )
    {
        // copy the options from the source map first
        outMap = new Map( map->getInitialMapOptions() );
    }

    std::string outEarthFile = osgDB::concatPaths( rootFolder, osgDB::getSimpleFileName( outEarth ) );
    

    // Package an individual image layer
    if (imageLayerIndex >= 0)
    {        
        ImageLayer* layer = map->getImageLayerAt(imageLayerIndex);
        if (layer)
        {
            packager.run(layer, map);
            if (writeXML)
            {
                packager.writeXML(layer, map);
            }
        }
        else
        {
            std::cout << "Failed to find an image layer at index " << imageLayerIndex << std::endl;
            return 1;
        }
    }
    // Package an individual elevation layer
    else if (elevationLayerIndex >= 0)
    {        
        ElevationLayer* layer = map->getElevationLayerAt(elevationLayerIndex);
        if (layer)
        {
            packager.run(layer, map);
            if (writeXML)
            {
                packager.writeXML(layer, map );
            }
        }
        else
        {
            std::cout << "Failed to find an elevation layer at index " << elevationLayerIndex << std::endl;
            return 1;
        }
    }
    else
    {        
        // Package all the ImageLayer's
        for (unsigned int i = 0; i < map->getNumImageLayers(); i++)
        {            
            ImageLayer* layer = map->getImageLayerAt(i);        
            OE_NOTICE << "Packaging " << layer->getName() << std::endl;
            osg::Timer_t start = osg::Timer::instance()->tick();
            packager.run(layer, map);
            osg::Timer_t end = osg::Timer::instance()->tick();
            if (verbose)
            {
                OE_NOTICE << "Completed seeding layer " << layer->getName() << " in " << prettyPrintTime( osg::Timer::instance()->delta_s( start, end ) ) << std::endl;
            }                

            if (writeXML)
            {
                packager.writeXML(layer, map);
            }

            // save to the output map if requested:
            if( outMap.valid() )
            {
                std::string layerFolder = toLegalFileName( packager.getLayerName() );

                // new TMS driver info:
                TMSOptions tms;
                tms.url() = URI(
                    osgDB::concatPaths( layerFolder, "tms.xml" ),
                    outEarthFile );

                ImageLayerOptions layerOptions( packager.getLayerName(), tms );
                layerOptions.mergeConfig( layer->getInitialOptions().getConfig( true ) );
                layerOptions.cachePolicy() = CachePolicy::NO_CACHE;

                outMap->addImageLayer( new ImageLayer( layerOptions ) );
            }
        }    

        // Package all the ElevationLayer's
        for (unsigned int i = 0; i < map->getNumElevationLayers(); i++)
        {            
            ElevationLayer* layer = map->getElevationLayerAt(i);        
            OE_NOTICE << "Packaging " << layer->getName() << std::endl;
            osg::Timer_t start = osg::Timer::instance()->tick();
            packager.run(layer, map);
            osg::Timer_t end = osg::Timer::instance()->tick();
            if (verbose)
            {
                OE_NOTICE << "Completed seeding layer " << layer->getName() << " in " << prettyPrintTime( osg::Timer::instance()->delta_s( start, end ) ) << std::endl;
            }      
            if (writeXML)
            {
                packager.writeXML(layer, map);
            }

            // save to the output map if requested:
            if( outMap.valid() )
            {
                std::string layerFolder = toLegalFileName( packager.getLayerName() );

                // new TMS driver info:
                TMSOptions tms;
                tms.url() = URI(
                    osgDB::concatPaths( layerFolder, "tms.xml" ),
                    outEarthFile );

                ElevationLayerOptions layerOptions( packager.getLayerName(), tms );
                layerOptions.mergeConfig( layer->getInitialOptions().getConfig( true ) );
                layerOptions.cachePolicy() = CachePolicy::NO_CACHE;

                outMap->addElevationLayer( new ElevationLayer( layerOptions ) );
            }
        }

    }

    // Write out an earth file if it was requested
    // Finally, write an earth file if requested:
    if( outMap.valid() )
    {
        MapNodeOptions outNodeOptions = mapNode->getMapNodeOptions();
        osg::ref_ptr<MapNode> outMapNode = new MapNode( outMap.get(), outNodeOptions );
        if( !osgDB::writeNodeFile( *outMapNode.get(), outEarthFile ) )
        {
            OE_WARN << LC << "Error writing earth file to \"" << outEarthFile << "\"" << std::endl;
        }
        else if( verbose )
        {
            OE_NOTICE << LC << "Wrote earth file to \"" << outEarthFile << "\"" << std::endl;
        }
    }

    return 0;
}
Example #2
0
void
MapNodeHelper::parse(MapNode*             mapNode,
                     osg::ArgumentParser& args,
                     osgViewer::View*     view,
                     osg::Group*          root,
                     Control*             userControl ) const
{
    // this is a dubious move.
    if ( !root )
        root = mapNode;

    // options to use for the load
    osg::ref_ptr<osgDB::Options> dbOptions = Registry::instance()->cloneOrCreateOptions();

    // parse out custom example arguments first:
    bool useSky        = args.read("--sky");
    bool useOcean      = args.read("--ocean");
    bool useMGRS       = args.read("--mgrs");
    bool useDMS        = args.read("--dms");
    bool useDD         = args.read("--dd");
    bool useCoords     = args.read("--coords") || useMGRS || useDMS || useDD;
    bool useOrtho      = args.read("--ortho");
    bool useAutoClip   = args.read("--autoclip");

    float ambientBrightness = 0.4f;
    args.read("--ambientBrightness", ambientBrightness);

    std::string kmlFile;
    args.read( "--kml", kmlFile );

    std::string imageFolder;
    args.read( "--images", imageFolder );

    std::string imageExtensions;
    args.read("--image-extensions", imageExtensions);

    // install a canvas for any UI controls we plan to create:
    ControlCanvas* canvas = ControlCanvas::get(view, false);

    Container* mainContainer = canvas->addControl( new VBox() );
    mainContainer->setBackColor( Color(Color::Black, 0.8) );
    mainContainer->setHorizAlign( Control::ALIGN_LEFT );
    mainContainer->setVertAlign( Control::ALIGN_BOTTOM );

    // install the user control:
    if ( userControl )
        mainContainer->addControl( userControl );

    // look for external data in the map node:
    const Config& externals = mapNode->externalConfig();

    const Config& skyConf         = externals.child("sky");
    const Config& oceanConf       = externals.child("ocean");
    const Config& annoConf        = externals.child("annotations");
    const Config& declutterConf   = externals.child("decluttering");
    Config        viewpointsConf  = externals.child("viewpoints");

    // backwards-compatibility: read viewpoints at the top level:
    const ConfigSet& old_viewpoints = externals.children("viewpoint");
    for( ConfigSet::const_iterator i = old_viewpoints.begin(); i != old_viewpoints.end(); ++i )
        viewpointsConf.add( *i );

    // Loading a viewpoint list from the earth file:
    if ( !viewpointsConf.empty() )
    {
        std::vector<Viewpoint> viewpoints;

        const ConfigSet& children = viewpointsConf.children();
        if ( children.size() > 0 )
        {
            for( ConfigSet::const_iterator i = children.begin(); i != children.end(); ++i )
            {
                viewpoints.push_back( Viewpoint(*i) );
            }
        }

        if ( viewpoints.size() > 0 )
        {
            Control* c = ViewpointControlFactory().create(viewpoints, view);
            if ( c )
                mainContainer->addControl( c );
        }
    }

    // Adding a sky model:
    if ( useSky || !skyConf.empty() )
    {
        double hours = skyConf.value( "hours", 12.0 );
        SkyNode* sky = new SkyNode( mapNode->getMap() );
        //sky->setAmbientBrightness( ambientBrightness );
        sky->setAutoAmbience( true );
        sky->setDateTime( 2011, 3, 6, hours );
        sky->attach( view );
        root->addChild( sky );
        Control* c = SkyControlFactory().create(sky, view);
        if ( c )
            mainContainer->addControl( c );
    }

    // Adding an ocean model:
    if ( useOcean || !oceanConf.empty() )
    {
        OceanSurfaceNode* ocean = new OceanSurfaceNode( mapNode, oceanConf );
        if ( ocean )
        {
            root->addChild( ocean );
            Control* c = OceanControlFactory().create(ocean, view);
            if ( c )
                mainContainer->addControl(c);
        }
    }

    // Loading KML from the command line:
    if ( !kmlFile.empty() )
    {
        KMLOptions kml_options;
        kml_options.declutter() = true;

        // set up a default icon for point placemarks:
        IconSymbol* defaultIcon = new IconSymbol();
        defaultIcon->url()->setLiteral(KML_PUSHPIN_URL);
        kml_options.defaultIconSymbol() = defaultIcon;

        osg::Node* kml = KML::load( URI(kmlFile), mapNode, kml_options );
        if ( kml )
        {
            Control* c = AnnotationGraphControlFactory().create(kml, view);
            if ( c )
            {
                c->setVertAlign( Control::ALIGN_TOP );
                canvas->addControl( c );
            }
            root->addChild( kml );
        }
    }

    // Annotations in the map node externals:
    if ( !annoConf.empty() )
    {
        osg::Group* annotations = 0L;
        AnnotationRegistry::instance()->create( mapNode, annoConf, dbOptions.get(), annotations );
        if ( annotations )
        {
            root->addChild( annotations );
        }
    }

    // Configure the de-cluttering engine for labels and annotations:
    if ( !declutterConf.empty() )
    {
        Decluttering::setOptions( DeclutteringOptions(declutterConf) );
    }

    // Configure the mouse coordinate readout:
    if ( useCoords )
    { 
        LabelControl* readout = new LabelControl();
        readout->setBackColor( Color(Color::Black, 0.8) );
        readout->setHorizAlign( Control::ALIGN_RIGHT );
        readout->setVertAlign( Control::ALIGN_BOTTOM );

        Formatter* formatter = 
            useMGRS ? (Formatter*)new MGRSFormatter(MGRSFormatter::PRECISION_1M, 0L, MGRSFormatter::USE_SPACES) :
            useDMS  ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DEGREES_MINUTES_SECONDS) :
            useDD   ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DECIMAL_DEGREES) :
            0L;

        MouseCoordsTool* mcTool = new MouseCoordsTool( mapNode );
        mcTool->addCallback( new MouseCoordsLabelCallback(readout, formatter) );
        view->addEventHandler( mcTool );

        canvas->addControl( readout );
    }

    // Configure for an ortho camera:
    if ( useOrtho )
    {
        EarthManipulator* manip = dynamic_cast<EarthManipulator*>(view->getCameraManipulator());
        if ( manip )
        {
            manip->getSettings()->setCameraProjection( EarthManipulator::PROJ_ORTHOGRAPHIC );
        }
    }

    // Install an auto clip plane clamper
    if ( useAutoClip )
    {
        mapNode->addCullCallback( new AutoClipPlaneCullCallback(mapNode) );
    }

    // Scan for images if necessary.
    if ( !imageFolder.empty() )
    {
        std::vector<std::string> extensions;
        if ( !imageExtensions.empty() )
            StringTokenizer( imageExtensions, extensions, ",;", "", false, true );
        if ( extensions.empty() )
            extensions.push_back( "tif" );

        OE_INFO << LC << "Loading images from " << imageFolder << "..." << std::endl;
        ImageLayerVector imageLayers;
        DataScanner scanner;
        scanner.findImageLayers( imageFolder, extensions, imageLayers );

        if ( imageLayers.size() > 0 )
        {
            mapNode->getMap()->beginUpdate();
            for( ImageLayerVector::iterator i = imageLayers.begin(); i != imageLayers.end(); ++i )
            {
                mapNode->getMap()->addImageLayer( i->get() );
            }
            mapNode->getMap()->endUpdate();
        }
        OE_INFO << LC << "...found " << imageLayers.size() << " image layers." << std::endl;
    }

    // Generic named value uniform with min/max.
    VBox* uniformBox = 0L;
    while( args.find( "--uniform" ) >= 0 )
    {
        std::string name;
        float minval, maxval;
        if ( args.read( "--uniform", name, minval, maxval ) )
        {
            if ( uniformBox == 0L )
            {
                uniformBox = new VBox();
                uniformBox->setBackColor(0,0,0,0.5);
                uniformBox->setAbsorbEvents( true );
                canvas->addControl( uniformBox );
            }
            osg::Uniform* uniform = new osg::Uniform(osg::Uniform::FLOAT, name);
            uniform->set( minval );
            root->getOrCreateStateSet()->addUniform( uniform, osg::StateAttribute::OVERRIDE );
            HBox* box = new HBox();
            box->addControl( new LabelControl(name) );
            HSliderControl* hs = box->addControl( new HSliderControl(minval, maxval, minval, new ApplyValueUniform(uniform)));
            hs->setHorizFill(true, 200);
            box->addControl( new LabelControl(hs) );
            uniformBox->addControl( box );
            OE_INFO << LC << "Installed uniform controller for " << name << std::endl;
        }
    }

    root->addChild( canvas );
}
int
seed( osg::ArgumentParser& args )
{    
    osgDB::Registry::instance()->getReaderWriterForExtension("png");
    osgDB::Registry::instance()->getReaderWriterForExtension("jpg");
    osgDB::Registry::instance()->getReaderWriterForExtension("tiff");

    //Read the min level
    int minLevel = -1;
    while (args.read("--min-level", minLevel));

    //Read the max level
    int maxLevel = -1;
    while (args.read("--max-level", maxLevel));

    bool estimate = args.read("--estimate");        
    

    std::vector< Bounds > bounds;
    // restrict packaging to user-specified bounds.    
    double xmin=DBL_MAX, ymin=DBL_MAX, xmax=DBL_MIN, ymax=DBL_MIN;
    while (args.read("--bounds", xmin, ymin, xmax, ymax ))
    {        
        Bounds b;
        b.xMin() = xmin, b.yMin() = ymin, b.xMax() = xmax, b.yMax() = ymax;
        bounds.push_back( b );
    }    

    std::string tileList;
    while (args.read( "--tiles", tileList ) );

    bool verbose = args.read("--verbose");

    unsigned int batchSize = 0;
    args.read("--batchsize", batchSize);

    // Read the concurrency level
    unsigned int concurrency = 0;
    args.read("-c", concurrency);
    args.read("--concurrency", concurrency);

    int imageLayerIndex = -1;
    args.read("--image", imageLayerIndex);

    int elevationLayerIndex = -1;
    args.read("--elevation", elevationLayerIndex);


    //Read in the earth file.
    osg::ref_ptr<osg::Node> node = osgDB::readNodeFiles( args );
    if ( !node.valid() )
        return usage( "Failed to read .earth file." );

    MapNode* mapNode = MapNode::findMapNode( node.get() );
    if ( !mapNode )
        return usage( "Input file was not a .earth file" );

    // Read in an index shapefile
    std::string index;
    while (args.read("--index", index))
    {        
        //Open the feature source
        OGRFeatureOptions featureOpt;
        featureOpt.url() = index;        

        osg::ref_ptr< FeatureSource > features = FeatureSourceFactory::create( featureOpt );
        Status status = features->open();

        if (status.isOK())
        {
            osg::ref_ptr< FeatureCursor > cursor = features->createFeatureCursor(0L);
            while (cursor.valid() && cursor->hasMore())
            {
                osg::ref_ptr< Feature > feature = cursor->nextFeature();
                osgEarth::Bounds featureBounds = feature->getGeometry()->getBounds();
                GeoExtent ext( feature->getSRS(), featureBounds );
                ext = ext.transform( mapNode->getMapSRS() );
                bounds.push_back( ext.bounds() );            
            }
        }
        else
        {
            OE_WARN << status.message() << "\n";
        }
    }

    // If they requested to do an estimate then don't do the seed, just print out the estimated values.
    if (estimate)
    {        
        CacheEstimator est;
        if ( minLevel >= 0 )
            est.setMinLevel( minLevel );
        if ( maxLevel >= 0 )
            est.setMaxLevel( maxLevel );
        est.setProfile( mapNode->getMap()->getProfile() );

        for (unsigned int i = 0; i < bounds.size(); i++)
        {
            GeoExtent extent(mapNode->getMapSRS(), bounds[i]);
            OE_DEBUG << "Adding extent " << extent.toString() << std::endl;
            est.addExtent( extent );
        } 

        unsigned int numTiles = est.getNumTiles();
        double size = est.getSizeInMB();
        double time = est.getTotalTimeInSeconds();
        std::cout << "Cache Estimation " << std::endl
            << "---------------- " << std::endl
            << "Total number of tiles: " << numTiles << std::endl
            << "Size on disk:          " << osgEarth::prettyPrintSize( size ) << std::endl
            << "Total time:            " << osgEarth::prettyPrintTime( time ) << std::endl;

        return 0;
    }
    
    osg::ref_ptr< TileVisitor > visitor;


    // If we are given a task file, load it up and create a new TileKeyListVisitor
    if (!tileList.empty())
    {        
        TaskList tasks( mapNode->getMap()->getProfile() );
        tasks.load( tileList );

        TileKeyListVisitor* v = new TileKeyListVisitor();
        v->setKeys( tasks.getKeys() );
        visitor = v;        
        OE_DEBUG << "Read task list with " << tasks.getKeys().size() << " tasks" << std::endl;
    }
  

    // If we dont' have a visitor create one.
    if (!visitor.valid())
    {
        if (args.read("--mt"))
        {
            // Create a multithreaded visitor
            MultithreadedTileVisitor* v = new MultithreadedTileVisitor();
            if (concurrency > 0)
            {
                v->setNumThreads(concurrency);
            }
            visitor = v;            
        }
        else if (args.read("--mp"))
        {
            // Create a multiprocess visitor
            MultiprocessTileVisitor* v = new MultiprocessTileVisitor();
            if (concurrency > 0)
            {
                v->setNumProcesses(concurrency);
            }

            if (batchSize > 0)
            {                
                v->setBatchSize(batchSize);
            }

            // Try to find the earth file
            std::string earthFile;
            for(int pos=1;pos<args.argc();++pos)
            {
                if (!args.isOption(pos))
                {
                    earthFile  = args[ pos ];
                    break;
                }
            }
            v->setEarthFile( earthFile );            
            visitor = v;            
        }
        else
        {
            // Create a single thread visitor
            visitor = new TileVisitor();            
        }        
    }

    osg::ref_ptr< ProgressCallback > progress = new ConsoleProgressCallback();
    
    if (verbose)
    {
        visitor->setProgressCallback( progress.get() );
    }

    if ( minLevel >= 0 )
        visitor->setMinLevel( minLevel );
    if ( maxLevel >= 0 )
        visitor->setMaxLevel( maxLevel );        


    for (unsigned int i = 0; i < bounds.size(); i++)
    {
        GeoExtent extent(mapNode->getMapSRS(), bounds[i]);
        OE_DEBUG << "Adding extent " << extent.toString() << std::endl;                
        visitor->addExtent( extent );
    }    
    

    // Initialize the seeder
    CacheSeed seeder;
    seeder.setVisitor(visitor.get());

    osgEarth::Map* map = mapNode->getMap();

    // They want to seed an image layer
    if (imageLayerIndex >= 0)
    {
        osg::ref_ptr< ImageLayer > layer = map->getLayerAt<ImageLayer>( imageLayerIndex );
        if (layer)
        {
            OE_NOTICE << "Seeding single layer " << layer->getName() << std::endl;
            osg::Timer_t start = osg::Timer::instance()->tick();        
            seeder.run(layer.get(), map);
            osg::Timer_t end = osg::Timer::instance()->tick();
            if (verbose)
            {
                OE_NOTICE << "Completed seeding layer " << layer->getName() << " in " << prettyPrintTime( osg::Timer::instance()->delta_s( start, end ) ) << std::endl;
            }    
        }
        else
        {
            std::cout << "Failed to find an image layer at index " << imageLayerIndex << std::endl;
            return 1;
        }

    }
    // They want to seed an elevation layer
    else if (elevationLayerIndex >= 0)
    {
        osg::ref_ptr< ElevationLayer > layer = map->getLayerAt<ElevationLayer>( elevationLayerIndex );
        if (layer)
        {
            OE_NOTICE << "Seeding single layer " << layer->getName() << std::endl;
            osg::Timer_t start = osg::Timer::instance()->tick();        
            seeder.run(layer.get(), map);
            osg::Timer_t end = osg::Timer::instance()->tick();
            if (verbose)
            {
                OE_NOTICE << "Completed seeding layer " << layer->getName() << " in " << prettyPrintTime( osg::Timer::instance()->delta_s( start, end ) ) << std::endl;
            }    
        }
        else
        {
            std::cout << "Failed to find an elevation layer at index " << elevationLayerIndex << std::endl;
            return 1;
        }
    }
    // They want to seed the entire map
    else
    {
        TerrainLayerVector terrainLayers;
        map->getLayers(terrainLayers);

        // Seed all the map layers
        for (unsigned int i = 0; i < terrainLayers.size(); ++i)
        {            
            osg::ref_ptr< TerrainLayer > layer = terrainLayers[i].get();
            OE_NOTICE << "Seeding layer" << layer->getName() << std::endl;            
            osg::Timer_t start = osg::Timer::instance()->tick();
            seeder.run(layer.get(), map);            
            osg::Timer_t end = osg::Timer::instance()->tick();
            if (verbose)
            {
                OE_NOTICE << "Completed seeding layer " << layer->getName() << " in " << prettyPrintTime( osg::Timer::instance()->delta_s( start, end ) ) << std::endl;
            }                
        }

        //for (unsigned int i = 0; i < map->getNumElevationLayers(); ++i)
        //{
        //    osg::ref_ptr< ElevationLayer > layer = map->getElevationLayerAt(i);
        //    OE_NOTICE << "Seeding layer" << layer->getName() << std::endl;
        //    osg::Timer_t start = osg::Timer::instance()->tick();
        //    seeder.run(layer.get(), map);            
        //    osg::Timer_t end = osg::Timer::instance()->tick();
        //    if (verbose)
        //    {
        //        OE_NOTICE << "Completed seeding layer " << layer->getName() << " in " << prettyPrintTime( osg::Timer::instance()->delta_s( start, end ) ) << std::endl;
        //    }                
        //}        
    }    

    return 0;
}
Example #4
0
int mainAdapterWidget(QApplication& a, osg::ArgumentParser& arguments)
{
    // load the scene.
    osg::ref_ptr<osg::Node> loadedModel = osgDB::readNodeFiles(arguments);
    if (!loadedModel)
        {
            std::cout << arguments[0] <<": No data loaded." << std::endl;
            return 1;
        }
    
    std::cout<<"Using AdapterWidget - QGLWidget subclassed to integrate with osgViewer using its embedded graphics window support."<<std::endl;
    
    if (arguments.read("--CompositeViewer"))
        {
            CompositeViewerQT* viewerWindow = new CompositeViewerQT;

            unsigned int width = viewerWindow->width();
            unsigned int height = viewerWindow->height();
        
            {
                osgViewer::View* view1 = new osgViewer::View;
                view1->getCamera()->setGraphicsContext(viewerWindow->getGraphicsWindow());
                view1->getCamera()->setProjectionMatrixAsPerspective(30.0f, static_cast<double>(width)/static_cast<double>(height/2), 1.0, 1000.0);
                view1->getCamera()->setViewport(new osg::Viewport(0,0,width,height/2));
                view1->setCameraManipulator(new osgGA::TrackballManipulator);
                view1->setSceneData(loadedModel.get());
            
                viewerWindow->addView(view1);
            }
        
            {
                osgViewer::View* view2 = new osgViewer::View;
                view2->getCamera()->setGraphicsContext(viewerWindow->getGraphicsWindow());
                view2->getCamera()->setProjectionMatrixAsPerspective(30.0f, static_cast<double>(width)/static_cast<double>(height/2), 1.0, 1000.0);
                view2->getCamera()->setViewport(new osg::Viewport(0,height/2,width,height/2));
                view2->setCameraManipulator(new osgGA::TrackballManipulator);
                view2->setSceneData(loadedModel.get());
            
                viewerWindow->addView(view2);
            }

            viewerWindow->show();
        }
    else if (arguments.read("--mdi")) {
        std::cout<<"Using ViewetQT MDI version"<<std::endl;
        /*
          Following problems are found here:
          - miminize causes loaded model to disappear (some problem with Camera matrix? - clampProjectionMatrix is invalid)
        */
        ViewerQT* viewerWindow = new ViewerQT;
        viewerWindow->setCameraManipulator(new osgGA::TrackballManipulator);
        viewerWindow->setSceneData(loadedModel.get());
 
        QMainWindow* mw = new QMainWindow();
        QMdiArea* mdiArea = new QMdiArea(mw);
        mw->setCentralWidget(mdiArea);

        QMdiSubWindow *subWindow = mdiArea->addSubWindow(viewerWindow);
        subWindow->showMaximized();
        subWindow->setWindowTitle("New Window");
        mw->show();
    } else {
        ViewerQT* viewerWindow = new ViewerQT;

        viewerWindow->setCameraManipulator(new osgGA::TrackballManipulator);
        viewerWindow->setSceneData(loadedModel.get());

        viewerWindow->show();
    }    
    
    
    a.connect( &a, SIGNAL(lastWindowClosed()), &a, SLOT(quit()) );
   
    return a.exec();
}
void
MapNodeHelper::parse(MapNode*             mapNode,
                     osg::ArgumentParser& args,
                     osgViewer::View*     view,
                     osg::Group*          root,
                     Control*             userControl ) const
{
    if ( !root )
        root = mapNode;

    // parse out custom example arguments first:

    bool useSky        = args.read("--sky");
    bool useOcean      = args.read("--ocean");

    bool useMGRS       = args.read("--mgrs");
    bool useDMS        = args.read("--dms");
    bool useDD         = args.read("--dd");
    bool useCoords     = args.read("--coords") || useMGRS || useDMS || useDD;

    std::string kmlFile;
    args.read( "--kml", kmlFile );

    // install a canvas for any UI controls we plan to create:
    ControlCanvas* canvas = ControlCanvas::get(view, false);

    Container* mainContainer = canvas->addControl( new VBox() );
    mainContainer->setBackColor( Color(Color::Black, 0.8) );
    mainContainer->setHorizAlign( Control::ALIGN_LEFT );
    mainContainer->setVertAlign( Control::ALIGN_BOTTOM );

    // install the user control:
    if ( userControl )
        mainContainer->addControl( userControl );

    // look for external data in the map node:
    const Config& externals = mapNode->externalConfig();

    const Config& skyConf         = externals.child("sky");
    const Config& oceanConf       = externals.child("ocean");
    const Config& annoConf        = externals.child("annotations");
    const Config& declutterConf   = externals.child("decluttering");
    Config        viewpointsConf  = externals.child("viewpoints");

    // backwards-compatibility: read viewpoints at the top level:
    const ConfigSet& old_viewpoints = externals.children("viewpoint");
    for( ConfigSet::const_iterator i = old_viewpoints.begin(); i != old_viewpoints.end(); ++i )
        viewpointsConf.add( *i );

    // Loading a viewpoint list from the earth file:
    if ( !viewpointsConf.empty() )
    {
        std::vector<Viewpoint> viewpoints;

        const ConfigSet& children = viewpointsConf.children();
        if ( children.size() > 0 )
        {
            for( ConfigSet::const_iterator i = children.begin(); i != children.end(); ++i )
            {
                viewpoints.push_back( Viewpoint(*i) );
            }
        }

        if ( viewpoints.size() > 0 )
        {
            Control* c = ViewpointControlFactory().create(viewpoints, view);
            if ( c )
                mainContainer->addControl( c );
        }
    }

    // Adding a sky model:
    if ( useSky || !skyConf.empty() )
    {
        double hours = skyConf.value( "hours", 12.0 );
        SkyNode* sky = new SkyNode( mapNode->getMap() );
        sky->setDateTime( 2011, 3, 6, hours );
        sky->attach( view );
        root->addChild( sky );
        Control* c = SkyControlFactory().create(sky, view);
        if ( c )
            mainContainer->addControl( c );
    }

    // Adding an ocean model:
    if ( useOcean || !oceanConf.empty() )
    {
        OceanSurfaceNode* ocean = new OceanSurfaceNode( mapNode, oceanConf );
        if ( ocean )
        {
            root->addChild( ocean );
            Control* c = OceanControlFactory().create(ocean, view);
            if ( c )
                mainContainer->addControl(c);
        }
    }

    // Loading KML from the command line:
    if ( !kmlFile.empty() )
    {
        KMLOptions kml_options;
        kml_options.declutter() = true;
        kml_options.defaultIconImage() = URI( KML_PUSHPIN_URL ).getImage();

        osg::Node* kml = KML::load( URI(kmlFile), mapNode, kml_options );
        if ( kml )
        {
            Control* c = AnnotationGraphControlFactory().create(kml, view);
            if ( c )
            {
                c->setVertAlign( Control::ALIGN_TOP );
                canvas->addControl( c );
            }
            root->addChild( kml );
        }
    }

    // Annotations in the map node externals:
    if ( !annoConf.empty() )
    {
        osg::Group* annotations = 0L;
        AnnotationRegistry::instance()->create( mapNode, annoConf, annotations );
        if ( annotations )
        {
            root->addChild( annotations );
        }
    }

    // Configure the de-cluttering engine for labels and annotations:
    if ( !declutterConf.empty() )
    {
        Decluttering::setOptions( DeclutteringOptions(declutterConf) );
    }

    // Configure the mouse coordinate readout:
    if ( useCoords )
    { 
        LabelControl* readout = new LabelControl();
        readout->setBackColor( Color(Color::Black, 0.8) );
        readout->setHorizAlign( Control::ALIGN_RIGHT );
        readout->setVertAlign( Control::ALIGN_BOTTOM );

        Formatter* formatter = 
            useMGRS ? (Formatter*)new MGRSFormatter(MGRSFormatter::PRECISION_1M, 0L, MGRSFormatter::USE_SPACES) :
            useDMS  ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DEGREES_MINUTES_SECONDS) :
            useDD   ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DECIMAL_DEGREES) :
            0L;

        MouseCoordsTool* mcTool = new MouseCoordsTool( mapNode );
        mcTool->addCallback( new MouseCoordsLabelCallback(readout, formatter) );
        view->addEventHandler( mcTool );

        canvas->addControl( readout );
    }

    root->addChild( canvas );
}
Example #6
0
CompositeViewer::CompositeViewer(osg::ArgumentParser& arguments)
{
    constructorInit();

    arguments.getApplicationUsage()->addCommandLineOption("--SingleThreaded","Select SingleThreaded threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--CullDrawThreadPerContext","Select CullDrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--DrawThreadPerContext","Select DrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--CullThreadPerCameraDrawThreadPerContext","Select CullThreadPerCameraDrawThreadPerContext threading model for viewer.");

    arguments.getApplicationUsage()->addCommandLineOption("--run-on-demand","Set the run methods frame rate management to only rendering frames when required.");
    arguments.getApplicationUsage()->addCommandLineOption("--run-continuous","Set the run methods frame rate management to rendering frames continuously.");
    arguments.getApplicationUsage()->addCommandLineOption("--run-max-frame-rate","Set the run methods maximum permissible frame rate, 0.0 is default and switching off frame rate capping.");


    std::string filename;
    bool readConfig = false;
    while (arguments.read("-c",filename))
    {
        readConfig = readConfiguration(filename) || readConfig;
    }

    while (arguments.read("--SingleThreaded")) setThreadingModel(SingleThreaded);
    while (arguments.read("--CullDrawThreadPerContext")) setThreadingModel(CullDrawThreadPerContext);
    while (arguments.read("--DrawThreadPerContext")) setThreadingModel(DrawThreadPerContext);
    while (arguments.read("--CullThreadPerCameraDrawThreadPerContext")) setThreadingModel(CullThreadPerCameraDrawThreadPerContext);


    while(arguments.read("--run-on-demand")) { setRunFrameScheme(ON_DEMAND); }
    while(arguments.read("--run-continuous")) { setRunFrameScheme(CONTINUOUS); }

    double runMaxFrameRate;
    while(arguments.read("--run-max-frame-rate", runMaxFrameRate)) { setRunMaxFrameRate(runMaxFrameRate); }


    osg::DisplaySettings::instance()->readCommandLine(arguments);
    osgDB::readCommandLine(arguments);
}
Example #7
0
int
seed( osg::ArgumentParser& args )
{

    //Read the min level
    unsigned int minLevel = 0;
    while (args.read("--min-level", minLevel));

    //Read the max level
    unsigned int maxLevel = 5;
    while (args.read("--max-level", maxLevel));


    std::vector< Bounds > bounds;
    // restrict packaging to user-specified bounds.
    double xmin=DBL_MAX, ymin=DBL_MAX, xmax=DBL_MIN, ymax=DBL_MIN;
    while (args.read("--bounds", xmin, ymin, xmax, ymax ))
    {
        Bounds b;
        b.xMin() = xmin, b.yMin() = ymin, b.xMax() = xmax, b.yMax() = ymax;
        bounds.push_back( b );
    }

    //Read the cache override directory
    std::string cachePath;
    while (args.read("--cache-path", cachePath));

    //Read the cache type
    std::string cacheType;
    while (args.read("--cache-type", cacheType));

    bool verbose = args.read("--verbose");

    //Read in the earth file.
    osg::ref_ptr<osg::Node> node = osgDB::readNodeFiles( args );
    if ( !node.valid() )
        return usage( "Failed to read .earth file." );

    MapNode* mapNode = MapNode::findMapNode( node.get() );
    if ( !mapNode )
        return usage( "Input file was not a .earth file" );

    CacheSeed seeder;
    seeder.setMinLevel( minLevel );
    seeder.setMaxLevel( maxLevel );

    // Read in an index shapefile
    std::string index;
    while (args.read("--index", index))
    {
        //Open the feature source
        OGRFeatureOptions featureOpt;
        featureOpt.url() = index;

        osg::ref_ptr< FeatureSource > features = FeatureSourceFactory::create( featureOpt );
        features->initialize();
        features->getFeatureProfile();

        osg::ref_ptr< FeatureCursor > cursor = features->createFeatureCursor();
        while (cursor.valid() && cursor->hasMore())
        {
            osg::ref_ptr< Feature > feature = cursor->nextFeature();
            osgEarth::Bounds featureBounds = feature->getGeometry()->getBounds();
            GeoExtent ext( feature->getSRS(), featureBounds );
            ext = ext.transform( mapNode->getMapSRS() );
            bounds.push_back( ext.bounds() );
        }
    }

    for (unsigned int i = 0; i < bounds.size(); i++)
    {
        GeoExtent extent(mapNode->getMapSRS(), bounds[i]);
        OE_DEBUG << "Adding extent " << extent.toString() << std::endl;
        seeder.addExtent( extent );
    }
    if (verbose)
    {
        seeder.setProgressCallback(new ConsoleProgressCallback);
    }


    osg::Timer_t start = osg::Timer::instance()->tick();

    seeder.seed( mapNode->getMap() );

    osg::Timer_t end = osg::Timer::instance()->tick();

    OE_NOTICE << "Completed seeding in " << prettyPrintTime( osg::Timer::instance()->delta_s( start, end ) ) << std::endl;

    return 0;
}
Example #8
0
int
build(osg::ArgumentParser& arguments)
{
    // the input resource catalog XML file:
    std::string inCatalogPath;
    if ( !arguments.read("--build", inCatalogPath) )
        return usage("Missing required argument catalog file");

    // the output texture atlas image path:
    std::string inCatalogFile = osgDB::getSimpleFileName(inCatalogPath);
    std::string outImageFile  = osgDB::getNameLessExtension(inCatalogFile) + "_atlas.osgb";

    // the output catalog file describing the texture atlas contents:
    std::string outCatalogFile;
    outCatalogFile = outImageFile + ".xml";

    // check that the input file exists:
    if ( !osgDB::fileExists(inCatalogPath) )
        return usage("Input file not found");

    // open the resource library.
    osg::ref_ptr<osgEarth::Symbology::ResourceLibrary> lib =
        new osgEarth::Symbology::ResourceLibrary("unnamed", inCatalogPath);

    if ( !lib->initialize(0L) )
        return usage("Error loading input catalog file");
    
    // build the atlas.
    osgEarth::Util::AtlasBuilder        builder;
    osgEarth::Util::AtlasBuilder::Atlas atlas;

    // max x/y dimensions:
    unsigned size;
    if ( arguments.read("--size", size) )
        builder.setSize( size, size );

    // auxiliary atlas patterns:
    std::string pattern;
    while(arguments.read("--aux", pattern))
        builder.addAuxFilePattern(pattern);

    if ( !builder.build(lib.get(), outImageFile, atlas) )
        return usage("Failed to build atlas");

    // write the atlas images.
    osgDB::writeImageFile(*atlas._images.begin()->get(), outImageFile);
    OE_INFO << LC << "Wrote output image to \"" << outImageFile << "\"" << std::endl;
    
    // write any aux images.
    const std::vector<std::string>& auxPatterns = builder.auxFilePatterns();
    for(unsigned i=0; i<auxPatterns.size(); ++i)
    {
        std::string auxAtlasFile =
            osgDB::getNameLessExtension(outImageFile) +
            "_" + auxPatterns[i] + "." +
            osgDB::getFileExtension(outImageFile);

        osgDB::writeImageFile(*atlas._images[i+1].get(), auxAtlasFile);
        
        OE_INFO << LC << "Wrote auxiliary image to \"" << auxAtlasFile << "\"" << std::endl;
    }

    // write the new catalog:
    osgEarth::XmlDocument catXML( atlas._lib->getConfig() );

    std::ofstream catOut(outCatalogFile.c_str());
    if ( !catOut.is_open() )
        return usage("Failed to open output catalog file for writing");

    catXML.store(catOut);
    catOut.close();

    OE_INFO << LC << "Wrote output catalog to \"" << outCatalogFile<< "\"" << std::endl;
}
Example #9
0
/** Packages an image layer as a TMS folder. */
int
makeTMS( osg::ArgumentParser& args )
{
    // see if the user wants to override the type extension (imagery only)
    std::string extension;
    args.read( "--ext", extension );

    // verbosity?
    bool verbose = !args.read( "--quiet" );

    // find a .earth file on the command line
    std::string earthFile = findArgumentWithExtension(args, ".earth");
 /*   if ( earthFile.empty() )
        return usage( "Missing required .earth file" );
        */
    // folder to which to write the TMS archive.
    std::string rootFolder;
    if ( !args.read( "--out", rootFolder ) )
        rootFolder = Stringify() << earthFile << ".tms_repo";

    // whether to overwrite existing tile files
    bool overwrite = false;
    if ( args.read("--overwrite") )
        overwrite = true;

    // write out an earth file
    std::string outEarth;
    args.read("--out-earth", outEarth);

    std::string dbOptions;
    args.read("--db-options", dbOptions);
    std::string::size_type n = 0;
    while ((n=dbOptions.find('"', n))!=dbOptions.npos)
    {
        dbOptions.erase(n,1);
    }

    osg::ref_ptr<osgDB::Options> options = new osgDB::Options(dbOptions);


    std::vector< Bounds > bounds;
    // restrict packaging to user-specified bounds.    
    double xmin=DBL_MAX, ymin=DBL_MAX, xmax=DBL_MIN, ymax=DBL_MIN;
    while (args.read("--bounds", xmin, ymin, xmax, ymax ))
    {        
        Bounds b;
        b.xMin() = xmin, b.yMin() = ymin, b.xMax() = xmax, b.yMax() = ymax;
        bounds.push_back( b );
    }

    // max level to which to generate
    unsigned maxLevel = ~0;
    args.read( "--max-level", maxLevel );

    // whether to keep 'empty' tiles
    bool keepEmpties = args.read("--keep-empties");    

    bool continueSingleColor = args.read("--continue-single-color");

    // load up the map
    osg::ref_ptr<MapNode> mapNode = MapNode::load( args );
    if ( !mapNode.valid() )
        return usage( "Failed to load a valid .earth file" );

    // create a folder for the output
    osgDB::makeDirectory(rootFolder);
    if ( !osgDB::fileExists(rootFolder) )
        return usage("Failed to create root output folder" );

    Map* map = mapNode->getMap();

    // fire up a packager:
    TMSPackager packager( map->getProfile(), options);

    packager.setVerbose( verbose );
    packager.setOverwrite( overwrite );
    packager.setKeepEmptyImageTiles( keepEmpties );
    packager.setSubdivideSingleColorImageTiles( continueSingleColor );

    if ( maxLevel != ~0 )
        packager.setMaxLevel( maxLevel );

    if (bounds.size() > 0)
    {
        for (unsigned int i = 0; i < bounds.size(); ++i)
        {
            Bounds b = bounds[i];            
            if ( b.isValid() )
                packager.addExtent( GeoExtent(map->getProfile()->getSRS(), b) );
        }
    }    

    
    // new map for an output earth file if necessary.
    osg::ref_ptr<Map> outMap = 0L;
    if ( !outEarth.empty() )
    {
        // copy the options from the source map first
        outMap = new Map(map->getInitialMapOptions());
    }

    // establish the output path of the earth file, if applicable:
    std::string outEarthFile = osgDB::concatPaths(rootFolder, osgDB::getSimpleFileName(outEarth));

    // package any image layers that are enabled:
    ImageLayerVector imageLayers;
    map->getImageLayers( imageLayers );

    unsigned counter = 0;
    
    for( ImageLayerVector::iterator i = imageLayers.begin(); i != imageLayers.end(); ++i, ++counter )
    {
        ImageLayer* layer = i->get();
        if ( layer->getImageLayerOptions().enabled() == true )
        {
            std::string layerFolder = toLegalFileName( layer->getName() );
            if ( layerFolder.empty() )
                layerFolder = Stringify() << "image_layer_" << counter;

            if ( verbose )
            {
                OE_NOTICE << LC << "Packaging image layer \"" << layerFolder << "\"" << std::endl;
            }

            osg::ref_ptr< ConsoleProgressCallback > progress = new ConsoleProgressCallback();
            std::string layerRoot = osgDB::concatPaths( rootFolder, layerFolder );
            TMSPackager::Result r = packager.package( layer, layerRoot,  progress, extension );
            if ( r.ok )
            {
                // save to the output map if requested:
                if ( outMap.valid() )
                {
                    // new TMS driver info:
                    TMSOptions tms;
                    tms.url() = URI(
                        osgDB::concatPaths(layerFolder, "tms.xml"),
                        outEarthFile );

                    ImageLayerOptions layerOptions( layer->getName(), tms );
                    layerOptions.mergeConfig( layer->getInitialOptions().getConfig(true) );
                    layerOptions.cachePolicy() = CachePolicy::NO_CACHE;

                    outMap->addImageLayer( new ImageLayer(layerOptions) );
                }
            }
            else
            {
                OE_WARN << LC << r.message << std::endl;
            }
        }
        else if ( verbose )
        {
            OE_NOTICE << LC << "Skipping disabled layer \"" << layer->getName() << "\"" << std::endl;
        }
    }

    // package any elevation layers that are enabled:
    counter = 0;
    ElevationLayerVector elevationLayers;
    map->getElevationLayers( elevationLayers );

    for( ElevationLayerVector::iterator i = elevationLayers.begin(); i != elevationLayers.end(); ++i, ++counter )
    {
        ElevationLayer* layer = i->get();
        if ( layer->getElevationLayerOptions().enabled() == true )
        {
            std::string layerFolder = toLegalFileName( layer->getName() );
            if ( layerFolder.empty() )
                layerFolder = Stringify() << "elevation_layer_" << counter;

            if ( verbose )
            {
                OE_NOTICE << LC << "Packaging elevation layer \"" << layerFolder << "\"" << std::endl;
            }

            std::string layerRoot = osgDB::concatPaths( rootFolder, layerFolder );
            TMSPackager::Result r = packager.package( layer, layerRoot );

            if ( r.ok )
            {
                // save to the output map if requested:
                if ( outMap.valid() )
                {
                    // new TMS driver info:
                    TMSOptions tms;
                    tms.url() = URI(
                        osgDB::concatPaths(layerFolder, "tms.xml"),
                        outEarthFile );

                    ElevationLayerOptions layerOptions( layer->getName(), tms );
                    layerOptions.mergeConfig( layer->getInitialOptions().getConfig(true) );
                    layerOptions.cachePolicy() = CachePolicy::NO_CACHE;

                    outMap->addElevationLayer( new ElevationLayer(layerOptions) );
                }
            }
            else
            {
                OE_WARN << LC << r.message << std::endl;
            }
        }
        else if ( verbose )
        {
            OE_NOTICE << LC << "Skipping disabled layer \"" << layer->getName() << "\"" << std::endl;
        }
    }

    // Finally, write an earth file if requested:
    if ( outMap.valid() )
    {
        MapNodeOptions outNodeOptions = mapNode->getMapNodeOptions();
        osg::ref_ptr<MapNode> outMapNode = new MapNode(outMap.get(), outNodeOptions);
        if ( !osgDB::writeNodeFile(*outMapNode.get(), outEarthFile) )
        {
            OE_WARN << LC << "Error writing earth file to \"" << outEarthFile << "\"" << std::endl;
        }
        else if ( verbose )
        {
            OE_NOTICE << LC << "Wrote earth file to \"" << outEarthFile << "\"" << std::endl;
        }
    }

    return 0;
}
Example #10
0
Viewer::Viewer(osg::ArgumentParser& arguments)
{
    _viewerBase = this;

    constructorInit();

    // Add help for command-line options read here
    arguments.getApplicationUsage()->addCommandLineOption("--SingleThreaded","Select SingleThreaded threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--CullDrawThreadPerContext","Select CullDrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--DrawThreadPerContext","Select DrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--CullThreadPerCameraDrawThreadPerContext","Select CullThreadPerCameraDrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--clear-color <color>","Set the background color of the viewer in the form \"r,g,b[,a]\".");
    arguments.getApplicationUsage()->addCommandLineOption("--screen <num>","Set the screen to use when multiple screens are present.");
    arguments.getApplicationUsage()->addCommandLineOption("--window <x y w h>","Set the position (x,y) and size (w,h) of the viewer window.");
    // FIXME: Uncomment these lines when the options have been documented properly
    //arguments.getApplicationUsage()->addCommandLineOption("--3d-sd","");
    //arguments.getApplicationUsage()->addCommandLineOption("--panoramic-sd","");
    //arguments.getApplicationUsage()->addCommandLineOption("--radius","");
    //arguments.getApplicationUsage()->addCommandLineOption("--collar","");
    //arguments.getApplicationUsage()->addCommandLineOption("--im","");
    
    std::string filename;
    bool readConfig = false;
    while (arguments.read("-c",filename))
    {
        readConfig = readConfiguration(filename) || readConfig;
    }

    while (arguments.read("--SingleThreaded")) setThreadingModel(SingleThreaded);
    while (arguments.read("--CullDrawThreadPerContext")) setThreadingModel(CullDrawThreadPerContext);
    while (arguments.read("--DrawThreadPerContext")) setThreadingModel(DrawThreadPerContext);
    while (arguments.read("--CullThreadPerCameraDrawThreadPerContext")) setThreadingModel(CullThreadPerCameraDrawThreadPerContext);

    osg::DisplaySettings::instance()->readCommandLine(arguments);
    osgDB::readCommandLine(arguments);

    std::string colorStr;
    while (arguments.read("--clear-color",colorStr))
    {
        float r, g, b;
        float a = 1.0f;
        int cnt = sscanf( colorStr.c_str(), "%f,%f,%f,%f", &r, &g, &b, &a );
        if( cnt==3 || cnt==4 ) getCamera()->setClearColor( osg::Vec4(r,g,b,a) );
        else osg::notify(osg::WARN)<<"Invalid clear color \""<<colorStr<<"\""<<std::endl;
    }
    
    int screenNum = -1;
    while (arguments.read("--screen",screenNum)) {}
    
    int x = -1, y = -1, width = -1, height = -1;
    while (arguments.read("--window",x,y,width,height)) {}
    
    bool ss3d = false;
    bool wowvx20 = false;
    bool wowvx42 = false;
    if ((wowvx20=arguments.read("--wowvx-20")) || (wowvx42=arguments.read("--wowvx-42")) || arguments.read("--wowvx"))
    {
        int wow_content=0x02, wow_factor=0x40, wow_offset=0x80;
        float wow_Zd, wow_vz, wow_M, wow_C;
        if (wowvx20){
            wow_Zd = 0.459813f;
            wow_vz = 6.180772f;
            wow_M = -1586.34f;
            wow_C = 127.5f;
        }
        else if (wowvx42){
            wow_Zd = 0.467481f;
            wow_vz = 7.655192f;
            wow_M = -1960.37f;
            wow_C = 127.5f;
        }

        while (arguments.read("--wow-content",wow_content)) {}
        while (arguments.read("--wow-factor",wow_factor)) {}
        while (arguments.read("--wow-offset",wow_offset)) {}
        while (arguments.read("--wow-zd",wow_Zd)) {}
        while (arguments.read("--wow-vz",wow_vz)) {}
        while (arguments.read("--wow-M",wow_M)) {}
        while (arguments.read("--wow-C",wow_C)) {}
            
        if (screenNum<0) screenNum = 0;
        
        setUpViewForWoWVxDisplay( screenNum, wow_content, wow_factor, wow_offset, wow_Zd, wow_vz, wow_M, wow_C );
    }
    else if ((ss3d=arguments.read("--3d-sd")) || arguments.read("--panoramic-sd"))
    {
        double radius = 1.0;
        while (arguments.read("--radius",radius)) {}

        double collar = 0.45;
        while (arguments.read("--collar",collar)) {}

        std::string intensityMapFilename;
        while (arguments.read("--im",intensityMapFilename)) {}

        osg::ref_ptr<osg::Image> intensityMap = intensityMapFilename.empty() ? 0 : osgDB::readImageFile(intensityMapFilename);

        if (screenNum<0) screenNum = 0;

        if (ss3d)
        {
            setThreadingModel(SingleThreaded);
            setUpViewFor3DSphericalDisplay(radius, collar, screenNum, intensityMap.get());
        }
        else
        {
            setThreadingModel(SingleThreaded);
            setUpViewForPanoramicSphericalDisplay(radius, collar, screenNum, intensityMap.get());
        }
    }
    else if (width>0 && height>0)
    {
        if (screenNum>=0) setUpViewInWindow(x, y, width, height, screenNum);
        else setUpViewInWindow(x,y,width,height);
        
    }
    else if (screenNum>=0)
    {
        setUpViewOnSingleScreen(screenNum);
    }

}
Example #11
0
/** Packages an image layer as a TMS folder. */
int
makeTMS( osg::ArgumentParser& args )
{
    // see if the user wants to override the type extension (imagery only)
    std::string extension = "png";
    args.read( "--ext", extension );

    // verbosity?
    bool verbose = !args.read( "--quiet" );

    // find a .earth file on the command line
    std::string earthFile = findArgumentWithExtension(args, ".earth");
    if ( earthFile.empty() )
        return usage( "Missing required .earth file" );

    // folder to which to write the TMS archive.
    std::string rootFolder;
    if ( !args.read( "--out", rootFolder ) )
        rootFolder = Stringify() << earthFile << ".tms_repo";

    // max level to which to generate
    unsigned maxLevel = ~0;
    args.read( "--max-level", maxLevel );

    // load up the map
    osg::ref_ptr<MapNode> mapNode = MapNode::load( args );
    if ( !mapNode.valid() )
        return usage( "Failed to load a valid .earth file" );

    // create a folder for the output
    osgDB::makeDirectory(rootFolder);
    if ( !osgDB::fileExists(rootFolder) )
        return usage("Failed to create root output folder" );

    Map* map = mapNode->getMap();

    // fire up a packager:
    TMSPackager packager( map->getProfile() );
    packager.setVerbose( verbose );
    if ( maxLevel != ~0 )
        packager.setMaxLevel( maxLevel );
    

    // package any image layers that are enabled:
    ImageLayerVector imageLayers;
    map->getImageLayers( imageLayers );

    unsigned counter = 0;
    
    for( ImageLayerVector::iterator i = imageLayers.begin(); i != imageLayers.end(); ++i, ++counter )
    {
        ImageLayer* layer = i->get();
        if ( layer->getImageLayerOptions().enabled() == true )
        {
            std::string layerFolder = toLegalFileName( layer->getName() );
            if ( layerFolder.empty() )
                layerFolder = Stringify() << "image_layer_" << counter;

            if ( verbose )
            {
                OE_NOTICE << LC << "Packaging image layer \"" << layerFolder << "\"" << std::endl;
            }

            std::string layerRoot = osgDB::concatPaths( rootFolder, layerFolder );
            TMSPackager::Result r = packager.package( layer, layerRoot, extension );
            if ( !r.ok )
            {
                OE_WARN << LC << r.message << std::endl;
            }
        }
        else if ( verbose )
        {
            OE_NOTICE << LC << "Skipping disabled layer \"" << layer->getName() << "\"" << std::endl;
        }
    }

    // package any elevation layers that are enabled:
    counter = 0;
    ElevationLayerVector elevationLayers;
    map->getElevationLayers( elevationLayers );

    for( ElevationLayerVector::iterator i = elevationLayers.begin(); i != elevationLayers.end(); ++i, ++counter )
    {
        ElevationLayer* layer = i->get();
        if ( layer->getElevationLayerOptions().enabled() == true )
        {
            std::string layerFolder = toLegalFileName( layer->getName() );
            if ( layerFolder.empty() )
                layerFolder = Stringify() << "elevation_layer_" << counter;

            if ( verbose )
            {
                OE_NOTICE << LC << "Packaging elevation layer \"" << layerFolder << "\"" << std::endl;
            }

            std::string layerRoot = osgDB::concatPaths( rootFolder, layerFolder );
            packager.package( layer, layerRoot );
        }
        else if ( verbose )
        {
            OE_NOTICE << LC << "Skipping disabled layer \"" << layer->getName() << "\"" << std::endl;
        }
    }

    return 0;
}
Example #12
0
void
MapNodeHelper::parse(MapNode*             mapNode,
                     osg::ArgumentParser& args,
                     osgViewer::View*     view,
                     osg::Group*          root,
                     Container*           userContainer ) const
{
    if ( !root )
        root = mapNode;

    // options to use for the load
    osg::ref_ptr<osgDB::Options> dbOptions = Registry::instance()->cloneOrCreateOptions();

    // parse out custom example arguments first:
    bool useMGRS       = args.read("--mgrs");
    bool useDMS        = args.read("--dms");
    bool useDD         = args.read("--dd");
    bool useCoords     = args.read("--coords") || useMGRS || useDMS || useDD;

    bool useAutoClip   = args.read("--autoclip");
    bool showActivity  = args.read("--activity");
    bool useLogDepth   = args.read("--logdepth");
    bool useLogDepth2  = args.read("--logdepth2");
    bool kmlUI         = args.read("--kmlui");

    std::string kmlFile;
    args.read( "--kml", kmlFile );

    std::string imageFolder;
    args.read( "--images", imageFolder );

    std::string imageExtensions;
    args.read("--image-extensions", imageExtensions);
    
    // animation path:
    std::string animpath;
    if ( args.read("--path", animpath) )
    {
        view->setCameraManipulator( new osgGA::AnimationPathManipulator(animpath) );
    }

    // Install a new Canvas for our UI controls, or use one that already exists.
    ControlCanvas* canvas = ControlCanvas::getOrCreate( view );

    Container* mainContainer;
    if ( userContainer )
    {
        mainContainer = userContainer;
    }
    else
    {
        mainContainer = new VBox();
        mainContainer->setAbsorbEvents( true );
        mainContainer->setBackColor( Color(Color::Black, 0.8) );
        mainContainer->setHorizAlign( Control::ALIGN_LEFT );
        mainContainer->setVertAlign( Control::ALIGN_BOTTOM );
    }
    canvas->addControl( mainContainer );

    // Add an event handler to toggle the canvas with a key press;
    view->addEventHandler(new ToggleCanvasEventHandler(canvas, 'y'));

    // look for external data in the map node:
    const Config& externals = mapNode->externalConfig();

    // some terrain effects.
    // TODO: Most of these are likely to move into extensions.
    const Config& vertScaleConf   = externals.child("vertical_scale");

    // Loading KML from the command line:
    if ( !kmlFile.empty() )
    {
        KMLOptions kml_options;
        kml_options.declutter() = true;

        // set up a default icon for point placemarks:
        IconSymbol* defaultIcon = new IconSymbol();
        defaultIcon->url()->setLiteral(KML_PUSHPIN_URL);
        kml_options.defaultIconSymbol() = defaultIcon;

        TextSymbol* defaultText = new TextSymbol();
        defaultText->halo() = Stroke(0.3,0.3,0.3,1.0);
        kml_options.defaultTextSymbol() = defaultText;

        osg::Node* kml = KML::load( URI(kmlFile), mapNode, kml_options );
        if ( kml )
        {
            if (kmlUI)
            {
                Control* c = AnnotationGraphControlFactory().create(kml, view);
                if ( c )
                {
                    c->setVertAlign( Control::ALIGN_TOP );
                    canvas->addControl( c );
                }
            }
            root->addChild( kml );
        }
        else
        {
            OE_NOTICE << "Failed to load " << kmlFile << std::endl;
        }
    }

    //// Configure the de-cluttering engine for labels and annotations:
    //if ( !screenSpaceLayoutConf.empty() )
    //{
    //    ScreenSpaceLayout::setOptions( ScreenSpaceLayoutOptions(screenSpaceLayoutConf) );
    //}

    // Configure the mouse coordinate readout:
    if ( useCoords )
    { 
        LabelControl* readout = new LabelControl();
        readout->setBackColor( Color(Color::Black, 0.8) );
        readout->setHorizAlign( Control::ALIGN_RIGHT );
        readout->setVertAlign( Control::ALIGN_BOTTOM );

        Formatter* formatter = 
            useMGRS ? (Formatter*)new MGRSFormatter(MGRSFormatter::PRECISION_1M, 0L, MGRSFormatter::USE_SPACES) :
            useDMS  ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DEGREES_MINUTES_SECONDS) :
            useDD   ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DECIMAL_DEGREES) :
            0L;

        MouseCoordsTool* mcTool = new MouseCoordsTool( mapNode );
        mcTool->addCallback( new MouseCoordsLabelCallback(readout, formatter) );
        view->addEventHandler( mcTool );

        canvas->addControl( readout );
    }

    // Configure for an ortho camera:
    if ( args.read("--ortho") )
    {
        view->getCamera()->setProjectionMatrixAsOrtho(-1, 1, -1, 1, 0, 1);
    }

    // activity monitor (debugging)
    if ( showActivity )
    {
        VBox* vbox = new VBox();
        vbox->setBackColor( Color(Color::Black, 0.8) );
        vbox->setHorizAlign( Control::ALIGN_RIGHT );
        vbox->setVertAlign( Control::ALIGN_BOTTOM );
        view->addEventHandler( new ActivityMonitorTool(vbox) );
        canvas->addControl( vbox );
    }

    // Install an auto clip plane clamper
    if ( useAutoClip )
    {
        mapNode->addCullCallback( new AutoClipPlaneCullCallback(mapNode) );
    }

    // Install logarithmic depth buffer on main camera
    if ( useLogDepth )
    {
        OE_INFO << LC << "Activating logarithmic depth buffer (vertex-only) on main camera" << std::endl;
        osgEarth::Util::LogarithmicDepthBuffer logDepth;
        logDepth.setUseFragDepth( false );
        logDepth.install( view->getCamera() );
    }

    else if ( useLogDepth2 )
    {
        OE_INFO << LC << "Activating logarithmic depth buffer (precise) on main camera" << std::endl;
        osgEarth::Util::LogarithmicDepthBuffer logDepth;
        logDepth.setUseFragDepth( true );
        logDepth.install( view->getCamera() );
    }

    // Scan for images if necessary.
    if ( !imageFolder.empty() )
    {
        std::vector<std::string> extensions;
        if ( !imageExtensions.empty() )
            StringTokenizer( imageExtensions, extensions, ",;", "", false, true );
        if ( extensions.empty() )
            extensions.push_back( "tif" );

        OE_INFO << LC << "Loading images from " << imageFolder << "..." << std::endl;
        ImageLayerVector imageLayers;
        DataScanner scanner;
        scanner.findImageLayers( imageFolder, extensions, imageLayers );

        if ( imageLayers.size() > 0 )
        {
            mapNode->getMap()->beginUpdate();
            for( ImageLayerVector::iterator i = imageLayers.begin(); i != imageLayers.end(); ++i )
            {
                mapNode->getMap()->addImageLayer( i->get() );
            }
            mapNode->getMap()->endUpdate();
        }
        OE_INFO << LC << "...found " << imageLayers.size() << " image layers." << std::endl;
    }

    // Install vertical scaler.
    // TODO: deprecate this, or move it to an extension.
    if ( !vertScaleConf.empty() )
    {
        mapNode->getTerrainEngine()->addEffect( new VerticalScale(vertScaleConf) );
    }

    // Generic named value uniform with min/max.
    VBox* uniformBox = 0L;
    while( args.find( "--uniform" ) >= 0 )
    {
        std::string name;
        float minval, maxval;
        if ( args.read( "--uniform", name, minval, maxval ) )
        {
            if ( uniformBox == 0L )
            {
                uniformBox = new VBox();
                uniformBox->setBackColor(0,0,0,0.5);
                uniformBox->setAbsorbEvents( true );
                canvas->addControl( uniformBox );
            }
            osg::Uniform* uniform = new osg::Uniform(osg::Uniform::FLOAT, name);
            uniform->set( minval );
            root->getOrCreateStateSet()->addUniform( uniform, osg::StateAttribute::OVERRIDE );
            HBox* box = new HBox();
            box->addControl( new LabelControl(name) );
            HSliderControl* hs = box->addControl( new HSliderControl(minval, maxval, minval, new ApplyValueUniform(uniform)));
            hs->setHorizFill(true, 200);
            box->addControl( new LabelControl(hs) );
            uniformBox->addControl( box );
            OE_INFO << LC << "Installed uniform controller for " << name << std::endl;
        }
    }

    // Map inspector:
    if (args.read("--inspect"))
    {
        mapNode->addExtension( Extension::create("mapinspector", ConfigOptions()) );
    }

    // Memory monitor:
    if (args.read("--monitor"))
    {
        mapNode->addExtension(Extension::create("monitor", ConfigOptions()) );
    }

    // Simple sky model:
    if (args.read("--sky"))
    {
        mapNode->addExtension(Extension::create("sky_simple", ConfigOptions()) );
    }

    // Simple ocean model:
    if (args.read("--ocean"))
    {
        mapNode->addExtension(Extension::create("ocean_simple", ConfigOptions()));
    }

    // Arbitrary extension:
    std::string extname;
    if (args.read("--extension", extname))
    {
        Extension* ext = Extension::create(extname, ConfigOptions());
        if (ext)
            mapNode->addExtension(ext);
    }
    

    // Hook up the extensions!
    for(std::vector<osg::ref_ptr<Extension> >::const_iterator eiter = mapNode->getExtensions().begin();
        eiter != mapNode->getExtensions().end();
        ++eiter)
    {
        Extension* e = eiter->get();

        // Check for a View interface:
        ExtensionInterface<osg::View>* viewIF = ExtensionInterface<osg::View>::get( e );
        if ( viewIF )
            viewIF->connect( view );

        // Check for a Control interface:
        ExtensionInterface<Control>* controlIF = ExtensionInterface<Control>::get( e );
        if ( controlIF )
            controlIF->connect( mainContainer );
    }


    // Shadowing. This is last because it needs access to a light which may be provided
    // by one of the Sky extensions.
    if (args.read("--shadows"))
    {
        int unit;
        if ( mapNode->getTerrainEngine()->getResources()->reserveTextureImageUnit(unit, "ShadowCaster") )
        {
            ShadowCaster* caster = new ShadowCaster();
            caster->setTextureImageUnit( unit );
            caster->setLight( view->getLight() );
            caster->getShadowCastingGroup()->addChild( mapNode->getModelLayerGroup() );
            //insertParent(caster, mapNode);
            //root = findTopOfGraph(caster)->asGroup();
            if ( mapNode->getNumParents() > 0 )
            {
                insertGroup(caster, mapNode->getParent(0));
            }
            else
            {
                caster->addChild(mapNode);
                root = caster;
            }
        }
    }

    root->addChild( canvas );
}
Example #13
0
void
MapNodeHelper::parse(MapNode*             mapNode,
                     osg::ArgumentParser& args,
                     osgViewer::View*     view,
                     osg::Group*          root,
                     Control*             userControl ) const
{
    // this is a dubious move.
    if ( !root )
        root = mapNode;

    // options to use for the load
    osg::ref_ptr<osgDB::Options> dbOptions = Registry::instance()->cloneOrCreateOptions();

    // parse out custom example arguments first:

    bool useSky        = args.read("--sky");
    bool useOcean      = args.read("--ocean");
    bool useMGRS       = args.read("--mgrs");
    bool useDMS        = args.read("--dms");
    bool useDD         = args.read("--dd");
    bool useCoords     = args.read("--coords") || useMGRS || useDMS || useDD;
    bool useOrtho      = args.read("--ortho");
    bool useAutoClip   = args.read("--autoclip");

    float ambientBrightness = 0.4f;
    args.read("--ambientBrightness", ambientBrightness);

    std::string kmlFile;
    args.read( "--kml", kmlFile );

    // install a canvas for any UI controls we plan to create:
    ControlCanvas* canvas = ControlCanvas::get(view, false);

    Container* mainContainer = canvas->addControl( new VBox() );
    mainContainer->setBackColor( Color(Color::Black, 0.8) );
    mainContainer->setHorizAlign( Control::ALIGN_LEFT );
    mainContainer->setVertAlign( Control::ALIGN_BOTTOM );

    // install the user control:
    if ( userControl )
        mainContainer->addControl( userControl );

    // look for external data in the map node:
    const Config& externals = mapNode->externalConfig();

    const Config& skyConf         = externals.child("sky");
    const Config& oceanConf       = externals.child("ocean");
    const Config& annoConf        = externals.child("annotations");
    const Config& declutterConf   = externals.child("decluttering");
    Config        viewpointsConf  = externals.child("viewpoints");

    // backwards-compatibility: read viewpoints at the top level:
    const ConfigSet& old_viewpoints = externals.children("viewpoint");
    for( ConfigSet::const_iterator i = old_viewpoints.begin(); i != old_viewpoints.end(); ++i )
        viewpointsConf.add( *i );

    // Loading a viewpoint list from the earth file:
    if ( !viewpointsConf.empty() )
    {
        std::vector<Viewpoint> viewpoints;

        const ConfigSet& children = viewpointsConf.children();
        if ( children.size() > 0 )
        {
            for( ConfigSet::const_iterator i = children.begin(); i != children.end(); ++i )
            {
                viewpoints.push_back( Viewpoint(*i) );
            }
        }

        if ( viewpoints.size() > 0 )
        {
            Control* c = ViewpointControlFactory().create(viewpoints, view);
            if ( c )
                mainContainer->addControl( c );
        }
    }

    // Adding a sky model:
    if ( useSky || !skyConf.empty() )
    {
        double hours = skyConf.value( "hours", 12.0 );
        SkyNode* sky = new SkyNode( mapNode->getMap() );
        sky->setAmbientBrightness( ambientBrightness );
        sky->setDateTime( 2011, 3, 6, hours );
        sky->attach( view );
        root->addChild( sky );
        Control* c = SkyControlFactory().create(sky, view);
        if ( c )
            mainContainer->addControl( c );
    }

    // Adding an ocean model:
    if ( useOcean || !oceanConf.empty() )
    {
        OceanSurfaceNode* ocean = new OceanSurfaceNode( mapNode, oceanConf );
        if ( ocean )
        {
            root->addChild( ocean );
            Control* c = OceanControlFactory().create(ocean, view);
            if ( c )
                mainContainer->addControl(c);
        }
    }

    // Loading KML from the command line:
    if ( !kmlFile.empty() )
    {
        KMLOptions kml_options;
        kml_options.declutter() = true;

        // set up a default icon for point placemarks:
        IconSymbol* defaultIcon = new IconSymbol();
        defaultIcon->url()->setLiteral(KML_PUSHPIN_URL);
        kml_options.defaultIconSymbol() = defaultIcon;

        osg::Node* kml = KML::load( URI(kmlFile), mapNode, kml_options );
        if ( kml )
        {
            Control* c = AnnotationGraphControlFactory().create(kml, view);
            if ( c )
            {
                c->setVertAlign( Control::ALIGN_TOP );
                canvas->addControl( c );
            }
            root->addChild( kml );
        }
    }

    // Annotations in the map node externals:
    if ( !annoConf.empty() )
    {
        osg::Group* annotations = 0L;
        AnnotationRegistry::instance()->create( mapNode, annoConf, dbOptions.get(), annotations );
        if ( annotations )
        {
            root->addChild( annotations );
        }
    }

    // Configure the de-cluttering engine for labels and annotations:
    if ( !declutterConf.empty() )
    {
        Decluttering::setOptions( DeclutteringOptions(declutterConf) );
    }

    // Configure the mouse coordinate readout:
    if ( useCoords )
    { 
        LabelControl* readout = new LabelControl();
        readout->setBackColor( Color(Color::Black, 0.8) );
        readout->setHorizAlign( Control::ALIGN_RIGHT );
        readout->setVertAlign( Control::ALIGN_BOTTOM );

        Formatter* formatter = 
            useMGRS ? (Formatter*)new MGRSFormatter(MGRSFormatter::PRECISION_1M, 0L, MGRSFormatter::USE_SPACES) :
            useDMS  ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DEGREES_MINUTES_SECONDS) :
            useDD   ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DECIMAL_DEGREES) :
            0L;

        MouseCoordsTool* mcTool = new MouseCoordsTool( mapNode );
        mcTool->addCallback( new MouseCoordsLabelCallback(readout, formatter) );
        view->addEventHandler( mcTool );

        canvas->addControl( readout );
    }

    // Configure for an ortho camera:
    if ( useOrtho )
    {
        EarthManipulator* manip = dynamic_cast<EarthManipulator*>(view->getCameraManipulator());
        if ( manip )
        {
            manip->getSettings()->setCameraProjection( EarthManipulator::PROJ_ORTHOGRAPHIC );
        }
    }

    // Install an auto clip plane clamper
    if ( useAutoClip )
    {
#if 0
        HorizonClipNode* hcn = new HorizonClipNode( mapNode );
        if ( mapNode->getNumParents() == 1 )
        {
            osg::Group* parent = mapNode->getParent(0);
            hcn->addChild( mapNode );
            parent->replaceChild( mapNode, hcn );
        }
#else
        mapNode->addCullCallback( new AutoClipPlaneCullCallback(mapNode) );
#endif
    }

    root->addChild( canvas );
}
Example #14
0
Viewer::Viewer(osg::ArgumentParser& arguments)
{
    _viewerBase = this;

    constructorInit();

    // Add help for command-line options read here
    arguments.getApplicationUsage()->addCommandLineOption("--SingleThreaded","Select SingleThreaded threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--CullDrawThreadPerContext","Select CullDrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--DrawThreadPerContext","Select DrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--CullThreadPerCameraDrawThreadPerContext","Select CullThreadPerCameraDrawThreadPerContext threading model for viewer.");
    arguments.getApplicationUsage()->addCommandLineOption("--clear-color <color>","Set the background color of the viewer in the form \"r,g,b[,a]\".");
    arguments.getApplicationUsage()->addCommandLineOption("--screen <num>","Set the screen to use when multiple screens are present.");
    arguments.getApplicationUsage()->addCommandLineOption("--window <x y w h>","Set the position (x,y) and size (w,h) of the viewer window.");

    arguments.getApplicationUsage()->addCommandLineOption("--run-on-demand","Set the run methods frame rate management to only rendering frames when required.");
    arguments.getApplicationUsage()->addCommandLineOption("--run-continuous","Set the run methods frame rate management to rendering frames continuously.");
    arguments.getApplicationUsage()->addCommandLineOption("--run-max-frame-rate","Set the run methods maximum permissable frame rate, 0.0 is default and switching off frame rate capping.");
    arguments.getApplicationUsage()->addCommandLineOption("--enable-object-cache","Enable caching of objects, images, etc.");

    // FIXME: Uncomment these lines when the options have been documented properly
    //arguments.getApplicationUsage()->addCommandLineOption("--3d-sd","");
    //arguments.getApplicationUsage()->addCommandLineOption("--panoramic-sd","");
    //arguments.getApplicationUsage()->addCommandLineOption("--radius","");
    //arguments.getApplicationUsage()->addCommandLineOption("--collar","");
    //arguments.getApplicationUsage()->addCommandLineOption("--im","");

    if (arguments.read("--ico"))
    {
        setIncrementalCompileOperation(new osgUtil::IncrementalCompileOperation());
    }

    std::string filename;
    bool readConfig = false;
    while (arguments.read("-c",filename))
    {
        readConfig = readConfiguration(filename) || readConfig;
    }

    // Enable caching?
    while (arguments.read("--enable-object-cache"))
    {
        if (osgDB::Registry::instance()->getOptions()==0) osgDB::Registry::instance()->setOptions(new osgDB::Options());
        osgDB::Registry::instance()->getOptions()->setObjectCacheHint(osgDB::Options::CACHE_ALL);
    }

    while (arguments.read("--SingleThreaded")) setThreadingModel(SingleThreaded);
    while (arguments.read("--CullDrawThreadPerContext")) setThreadingModel(CullDrawThreadPerContext);
    while (arguments.read("--DrawThreadPerContext")) setThreadingModel(DrawThreadPerContext);
    while (arguments.read("--CullThreadPerCameraDrawThreadPerContext")) setThreadingModel(CullThreadPerCameraDrawThreadPerContext);

    osg::DisplaySettings::instance()->readCommandLine(arguments);
    osgDB::readCommandLine(arguments);

    std::string colorStr;
    while (arguments.read("--clear-color",colorStr))
    {
        float r, g, b;
        float a = 1.0f;
        int cnt = sscanf( colorStr.c_str(), "%f,%f,%f,%f", &r, &g, &b, &a );
        if( cnt==3 || cnt==4 )
        {
            getCamera()->setClearColor( osg::Vec4(r,g,b,a) );
        }
        else
        {
            OSG_WARN<<"Invalid clear color \""<<colorStr<<"\""<<std::endl;
        }
    }


    while(arguments.read("--run-on-demand")) { setRunFrameScheme(ON_DEMAND); }
    while(arguments.read("--run-continuous")) { setRunFrameScheme(CONTINUOUS); }

    double runMaxFrameRate;
    while(arguments.read("--run-max-frame-rate", runMaxFrameRate)) { setRunMaxFrameRate(runMaxFrameRate); }


    int screenNum = -1;
    while (arguments.read("--screen",screenNum)) {}

    int x = -1, y = -1, width = -1, height = -1;
    while (arguments.read("--window",x,y,width,height)) {}

    bool ss3d = false;
    bool wowvx20 = false;
    bool wowvx42 = false;
    if ((wowvx20=arguments.read("--wowvx-20")) || (wowvx42=arguments.read("--wowvx-42")) || arguments.read("--wowvx"))
    {
        int wow_content=0x02, wow_factor=0x40, wow_offset=0x80;
        float wow_Zd, wow_vz, wow_M, wow_C;
        if (wowvx20){
            wow_Zd = 0.459813f;
            wow_vz = 6.180772f;
            wow_M = -1586.34f;
            wow_C = 127.5f;
        }
        else if (wowvx42){
            wow_Zd = 0.467481f;
            wow_vz = 7.655192f;
            wow_M = -1960.37f;
            wow_C = 127.5f;
        }

        while (arguments.read("--wow-content",wow_content)) {}
        while (arguments.read("--wow-factor",wow_factor)) {}
        while (arguments.read("--wow-offset",wow_offset)) {}
        while (arguments.read("--wow-zd",wow_Zd)) {}
        while (arguments.read("--wow-vz",wow_vz)) {}
        while (arguments.read("--wow-M",wow_M)) {}
        while (arguments.read("--wow-C",wow_C)) {}

        if (screenNum<0) screenNum = 0;

        setUpViewForWoWVxDisplay( screenNum, wow_content, wow_factor, wow_offset, wow_Zd, wow_vz, wow_M, wow_C );
    }
    else if ((ss3d=arguments.read("--3d-sd")) || arguments.read("--panoramic-sd"))
    {
        double radius = 1.0;
        while (arguments.read("--radius",radius)) {}

        double collar = 0.45;
        while (arguments.read("--collar",collar)) {}

        std::string intensityMapFilename;
        while (arguments.read("--im",intensityMapFilename)) {}

        osg::ref_ptr<osg::Image> intensityMap = intensityMapFilename.empty() ? 0 : osgDB::readImageFile(intensityMapFilename);

        if (screenNum<0) screenNum = 0;

        if (ss3d)
        {
            setThreadingModel(SingleThreaded);
            setUpViewFor3DSphericalDisplay(radius, collar, screenNum, intensityMap.get());
        }
        else
        {
            setThreadingModel(SingleThreaded);
            setUpViewForPanoramicSphericalDisplay(radius, collar, screenNum, intensityMap.get());
        }
    }
    else if (width>0 && height>0)
    {
        if (screenNum>=0) setUpViewInWindow(x, y, width, height, screenNum);
        else setUpViewInWindow(x,y,width,height);

    }
    else if (screenNum>=0)
    {
        setUpViewOnSingleScreen(screenNum);
    }

}
Example #15
0
void
MapNodeHelper::parse(MapNode*             mapNode,
                     osg::ArgumentParser& args,
                     osgViewer::View*     view,
                     osg::Group*          root,
                     Container*           userContainer ) const
{
    if ( !root )
        root = mapNode;

    // options to use for the load
    osg::ref_ptr<osgDB::Options> dbOptions = Registry::instance()->cloneOrCreateOptions();

    // parse out custom example arguments first:
    bool useSky        = args.read("--sky");
    bool useOcean      = args.read("--ocean");
    bool useMGRS       = args.read("--mgrs");
    bool useDMS        = args.read("--dms");
    bool useDD         = args.read("--dd");
    bool useCoords     = args.read("--coords") || useMGRS || useDMS || useDD;
    bool useOrtho      = args.read("--ortho");
    bool useAutoClip   = args.read("--autoclip");
    bool useShadows    = args.read("--shadows");
    bool animateSky    = args.read("--animate-sky");
    bool showActivity  = args.read("--activity");
    bool useLogDepth   = args.read("--logdepth");
    bool useLogDepth2  = args.read("--logdepth2");
    bool kmlUI         = args.read("--kmlui");
    bool inspect       = args.read("--inspect");
    bool useContourMap = args.read("--contourmap");

    if (args.read("--verbose"))
        osgEarth::setNotifyLevel(osg::INFO);
    
    if (args.read("--quiet"))
        osgEarth::setNotifyLevel(osg::FATAL);

    float ambientBrightness = 0.2f;
    args.read("--ambientBrightness", ambientBrightness);

    std::string kmlFile;
    args.read( "--kml", kmlFile );

    std::string imageFolder;
    args.read( "--images", imageFolder );

    std::string imageExtensions;
    args.read("--image-extensions", imageExtensions);
    
    // animation path:
    std::string animpath;
    if ( args.read("--path", animpath) )
    {
        view->setCameraManipulator( new osgGA::AnimationPathManipulator(animpath) );
    }

    // Install a new Canvas for our UI controls, or use one that already exists.
    ControlCanvas* canvas = ControlCanvas::getOrCreate( view );

    Container* mainContainer;
    if ( userContainer )
    {
        mainContainer = userContainer;
    }
    else
    {
        mainContainer = new VBox();
        mainContainer->setAbsorbEvents( true );
        mainContainer->setBackColor( Color(Color::Black, 0.8) );
        mainContainer->setHorizAlign( Control::ALIGN_LEFT );
        mainContainer->setVertAlign( Control::ALIGN_BOTTOM );
    }
    canvas->addControl( mainContainer );

    // Add an event handler to toggle the canvas with a key press;
    view->addEventHandler(new ToggleCanvasEventHandler(canvas) );




    // look for external data in the map node:
    const Config& externals = mapNode->externalConfig();

    const Config& skyConf         = externals.child("sky");
    const Config& oceanConf       = externals.child("ocean");

    const Config& screenSpaceLayoutConf = 
        externals.hasChild("screen_space_layout") ? externals.child("screen_space_layout") :
        externals.child("decluttering"); // backwards-compatibility


    // some terrain effects.
    // TODO: Most of these are likely to move into extensions.
    const Config& lodBlendingConf = externals.child("lod_blending");
    const Config& vertScaleConf   = externals.child("vertical_scale");
    const Config& contourMapConf  = externals.child("contour_map");

    // Adding a sky model:
    if ( useSky || !skyConf.empty() )
    {
        SkyOptions options(skyConf);
        if ( options.getDriver().empty() )
        {
            if ( mapNode->getMapSRS()->isGeographic() )
                options.setDriver("simple");
            else
                options.setDriver("gl");
        }

        SkyNode* sky = SkyNode::create(options, mapNode);
        if ( sky )
        {
            sky->attach( view, 0 );
            if ( mapNode->getNumParents() > 0 )
            {
                osgEarth::insertGroup(sky, mapNode->getParent(0));
            }
            else
            {
                sky->addChild( mapNode );
                root = sky;
            }
                
            Control* c = SkyControlFactory().create(sky, view);
            if ( c )
                mainContainer->addControl( c );

            if (animateSky)
            {
                sky->setUpdateCallback( new AnimateSkyUpdateCallback() );
            }

        }
    }

    // Adding an ocean model:
    if ( useOcean || !oceanConf.empty() )
    {
        OceanNode* ocean = OceanNode::create(OceanOptions(oceanConf), mapNode);
        if ( ocean )
        {
            // if there's a sky, we want to ocean under it
            osg::Group* parent = osgEarth::findTopMostNodeOfType<SkyNode>(root);
            if ( !parent ) parent = root;
            parent->addChild( ocean );

            Control* c = OceanControlFactory().create(ocean);
            if ( c )
                mainContainer->addControl(c);
        }
    }

    // Shadowing.
    if ( useShadows )
    {
        int unit;
        if ( mapNode->getTerrainEngine()->getResources()->reserveTextureImageUnit(unit, "ShadowCaster") )
        {
            ShadowCaster* caster = new ShadowCaster();
            caster->setTextureImageUnit( unit );
            caster->setLight( view->getLight() );
            caster->getShadowCastingGroup()->addChild( mapNode ); //->getModelLayerGroup() );
            if ( mapNode->getNumParents() > 0 )
            {
                insertGroup(caster, mapNode->getParent(0));
            }
            else
            {
                caster->addChild(mapNode);
                root = caster;
            }
        }
    }

    // Loading KML from the command line:
    if ( !kmlFile.empty() )
    {
        KMLOptions kml_options;
        kml_options.declutter() = true;

        // set up a default icon for point placemarks:
        IconSymbol* defaultIcon = new IconSymbol();
        defaultIcon->url()->setLiteral(KML_PUSHPIN_URL);
        kml_options.defaultIconSymbol() = defaultIcon;

        TextSymbol* defaultText = new TextSymbol();
        defaultText->halo() = Stroke(0.3,0.3,0.3,1.0);
        kml_options.defaultTextSymbol() = defaultText;

        osg::Node* kml = KML::load( URI(kmlFile), mapNode, kml_options );
        if ( kml )
        {
            if (kmlUI)
            {
                Control* c = AnnotationGraphControlFactory().create(kml, view);
                if ( c )
                {
                    c->setVertAlign( Control::ALIGN_TOP );
                    canvas->addControl( c );
                }
            }
            root->addChild( kml );
        }
        else
        {
            OE_NOTICE << "Failed to load " << kmlFile << std::endl;
        }
    }

    // Configure the de-cluttering engine for labels and annotations:
    if ( !screenSpaceLayoutConf.empty() )
    {
        ScreenSpaceLayout::setOptions( ScreenSpaceLayoutOptions(screenSpaceLayoutConf) );
    }

    // Configure the mouse coordinate readout:
    if ( useCoords )
    { 
        LabelControl* readout = new LabelControl();
        readout->setBackColor( Color(Color::Black, 0.8) );
        readout->setHorizAlign( Control::ALIGN_RIGHT );
        readout->setVertAlign( Control::ALIGN_BOTTOM );

        Formatter* formatter = 
            useMGRS ? (Formatter*)new MGRSFormatter(MGRSFormatter::PRECISION_1M, 0L, MGRSFormatter::USE_SPACES) :
            useDMS  ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DEGREES_MINUTES_SECONDS) :
            useDD   ? (Formatter*)new LatLongFormatter(LatLongFormatter::FORMAT_DECIMAL_DEGREES) :
            0L;

        MouseCoordsTool* mcTool = new MouseCoordsTool( mapNode );
        mcTool->addCallback( new MouseCoordsLabelCallback(readout, formatter) );
        view->addEventHandler( mcTool );

        canvas->addControl( readout );
    }

    // Configure for an ortho camera:
    if ( useOrtho )
    {
        view->getCamera()->setProjectionMatrixAsOrtho(-1, 1, -1, 1, 0, 1);
    }

    // activity monitor (debugging)
    if ( showActivity )
    {
        VBox* vbox = new VBox();
        vbox->setBackColor( Color(Color::Black, 0.8) );
        vbox->setHorizAlign( Control::ALIGN_RIGHT );
        vbox->setVertAlign( Control::ALIGN_BOTTOM );
        view->addEventHandler( new ActivityMonitorTool(vbox) );
        canvas->addControl( vbox );
    }

    // Install an auto clip plane clamper
    if ( useAutoClip )
    {
        mapNode->addCullCallback( new AutoClipPlaneCullCallback(mapNode) );
    }

    // Install logarithmic depth buffer on main camera
    if ( useLogDepth )
    {
        OE_INFO << LC << "Activating logarithmic depth buffer (vertex-only) on main camera" << std::endl;
        osgEarth::Util::LogarithmicDepthBuffer logDepth;
        logDepth.setUseFragDepth( false );
        logDepth.install( view->getCamera() );
    }

    else if ( useLogDepth2 )
    {
        OE_INFO << LC << "Activating logarithmic depth buffer (precise) on main camera" << std::endl;
        osgEarth::Util::LogarithmicDepthBuffer logDepth;
        logDepth.setUseFragDepth( true );
        logDepth.install( view->getCamera() );
    }

    // Scan for images if necessary.
    if ( !imageFolder.empty() )
    {
        std::vector<std::string> extensions;
        if ( !imageExtensions.empty() )
            StringTokenizer( imageExtensions, extensions, ",;", "", false, true );
        if ( extensions.empty() )
            extensions.push_back( "tif" );

        OE_INFO << LC << "Loading images from " << imageFolder << "..." << std::endl;
        ImageLayerVector imageLayers;
        DataScanner scanner;
        scanner.findImageLayers( imageFolder, extensions, imageLayers );

        if ( imageLayers.size() > 0 )
        {
            mapNode->getMap()->beginUpdate();
            for( ImageLayerVector::iterator i = imageLayers.begin(); i != imageLayers.end(); ++i )
            {
                mapNode->getMap()->addImageLayer( i->get() );
            }
            mapNode->getMap()->endUpdate();
        }
        OE_INFO << LC << "...found " << imageLayers.size() << " image layers." << std::endl;
    }

    // Install elevation morphing
    if ( !lodBlendingConf.empty() )
    {
        mapNode->getTerrainEngine()->addEffect( new LODBlending(lodBlendingConf) );
    }

    // Install vertical scaler
    if ( !vertScaleConf.empty() )
    {
        mapNode->getTerrainEngine()->addEffect( new VerticalScale(vertScaleConf) );
    }

    // Install a contour map effect.
    if ( !contourMapConf.empty() || useContourMap )
    {
        mapNode->getTerrainEngine()->addEffect( new ContourMap(contourMapConf) );

        // with the cmdline switch, hids all the image layer so we can see the contour map.
        if (useContourMap) {
            for (unsigned i = 0; i < mapNode->getMap()->getNumImageLayers(); ++i) {
                mapNode->getMap()->getImageLayerAt(i)->setVisible(false);
            }
        }
    }

    // Generic named value uniform with min/max.
    VBox* uniformBox = 0L;
    while( args.find( "--uniform" ) >= 0 )
    {
        std::string name;
        float minval, maxval;
        if ( args.read( "--uniform", name, minval, maxval ) )
        {
            if ( uniformBox == 0L )
            {
                uniformBox = new VBox();
                uniformBox->setBackColor(0,0,0,0.5);
                uniformBox->setAbsorbEvents( true );
                canvas->addControl( uniformBox );
            }
            osg::Uniform* uniform = new osg::Uniform(osg::Uniform::FLOAT, name);
            uniform->set( minval );
            root->getOrCreateStateSet()->addUniform( uniform, osg::StateAttribute::OVERRIDE );
            HBox* box = new HBox();
            box->addControl( new LabelControl(name) );
            HSliderControl* hs = box->addControl( new HSliderControl(minval, maxval, minval, new ApplyValueUniform(uniform)));
            hs->setHorizFill(true, 200);
            box->addControl( new LabelControl(hs) );
            uniformBox->addControl( box );
            OE_INFO << LC << "Installed uniform controller for " << name << std::endl;
        }
    }

    if ( inspect )
    {
        mapNode->addExtension( Extension::create("mapinspector", ConfigOptions()) );
    }
    

    // Process extensions.
    for(std::vector<osg::ref_ptr<Extension> >::const_iterator eiter = mapNode->getExtensions().begin();
        eiter != mapNode->getExtensions().end();
        ++eiter)
    {
        Extension* e = eiter->get();

        // Check for a View interface:
        ExtensionInterface<osg::View>* viewIF = ExtensionInterface<osg::View>::get( e );
        if ( viewIF )
            viewIF->connect( view );

        // Check for a Control interface:
        ExtensionInterface<Control>* controlIF = ExtensionInterface<Control>::get( e );
        if ( controlIF )
            controlIF->connect( mainContainer );
    }

    root->addChild( canvas );
}
Example #16
0
int
show(osg::ArgumentParser& arguments)
{
    // find the resource library file:
    std::string inCatalogFile;
    if ( !arguments.read("--show", inCatalogFile) )
        return usage("Missing required catalog file name");

    int layer = 0;
    arguments.read("--layer", layer);

    bool drawLabels;
    drawLabels = arguments.read("--labels");

    std::string auxPattern;
    arguments.read("--aux", auxPattern);

    // open the resource library:
    osg::ref_ptr<osgEarth::Symbology::ResourceLibrary> lib =
        new osgEarth::Symbology::ResourceLibrary("temp", osgEarth::URI(inCatalogFile) );
    if ( lib->initialize(0L) == false )
        return usage("Failed to load resource catalog");

    // the atlas name is the library name without the extension. Not strictly true
    // but true if you didn't rename it :)
    std::string atlasFile = osgDB::getNameLessExtension(inCatalogFile);

    // check for an auxiliary pattern:
    if ( !auxPattern.empty() )
    {
        atlasFile =
            osgDB::getNameLessExtension(atlasFile) +
            "_" + auxPattern + "." +
            osgDB::getFileExtension(atlasFile);
    }

    osg::Image* image = osgDB::readImageFile(atlasFile);
    if ( !image )
        return usage("Failed to load atlas image");

    if ( layer > image->r()-1 )
        return usage("Specified layer does not exist");

    // geometry for the image layer:
    std::vector<osg::ref_ptr<osg::Image> > images;
    osgEarth::ImageUtils::flattenImage(image, images);
    osg::Geode* geode = osg::createGeodeForImage(images[layer].get());

    // geometry for the skins in that layer:
    osg::Geode* geode2 = new osg::Geode();
    osg::Geometry* geom = new osg::Geometry();
    geode2->addDrawable(geom);
    osg::Vec3Array* v = new osg::Vec3Array();
    geom->setVertexArray( v );
    osg::Vec4Array* c = new osg::Vec4Array(1);
    (*c)[0].set(1,1,0,1);
    geom->setColorArray(c);
    geom->setColorBinding(geom->BIND_OVERALL);
    osgEarth::Symbology::SkinResourceVector skins;
    lib->getSkins(skins);
    for(unsigned k=0; k<skins.size(); ++k)
    {
        if (skins[k]->imageLayer() == layer &&
            skins[k]->isTiled() == false)
        {
            float x = -1.0f + 2.0*skins[k]->imageBiasS().value();
            float y = -1.0f + 2.0*skins[k]->imageBiasT().value();
            float s = 2.0*skins[k]->imageScaleS().value();
            float t = 2.0*skins[k]->imageScaleT().value();

            v->push_back(osg::Vec3(x,     -0.01f, y    ));
            v->push_back(osg::Vec3(x + s, -0.01f, y    ));
            v->push_back(osg::Vec3(x + s, -0.01f, y + t));
            v->push_back(osg::Vec3(x,     -0.01f, y + t));

            geom->addPrimitiveSet(new osg::DrawArrays(GL_LINE_LOOP, v->size()-4, 4));

            if (drawLabels)
            {
                osgText::Text* label = new osgText::Text();
                label->setText(skins[k]->name());
                label->setPosition(osg::Vec3(x+0.5*s, -0.005f, y+0.5*t));
                label->setAlignment(label->CENTER_CENTER);
                label->setAutoRotateToScreen(true);
                label->setCharacterSizeMode(label->SCREEN_COORDS);
                label->setCharacterSize(20.0f);
                label->setFont("arialbd.ttf");
                geode2->addDrawable(label);
            }
        }
    }

    osg::Group* root = new osg::Group();
    root->addChild( geode );
    root->addChild( geode2 );

    root->getOrCreateStateSet()->setMode(GL_LIGHTING, 0);
    root->getOrCreateStateSet()->setMode(GL_CULL_FACE, 0);

    osgViewer::Viewer viewer;
    viewer.setSceneData( root );
    viewer.addEventHandler(new osgViewer::StatsHandler());
    viewer.run();
    return 0;
}
Example #17
0
CefRefPtr<BrowserClient> CefHelper::load(osg::ArgumentParser& args, const std::string& htmlFile)
{
    // Initialize CEF
    CefMainArgs cef_args;
    CefRefPtr<CefApp> cef_app = new OECefApp();

    int exitCode = CefExecuteProcess(cef_args, cef_app, 0L);
    if (exitCode >= 0)
    {
        return 0L;
    }

    {
        CefSettings settings;

        if (getenv("CEF_RESOURCES_DIR") != 0)
            CefString(&settings.resources_dir_path) = getenv("CEF_RESOURCES_DIR");
        
        if (getenv("CEF_LOCALES_DIR") != 0)
            CefString(&settings.locales_dir_path) = getenv("CEF_LOCALES_DIR");

        settings.windowless_rendering_enabled = true;

        bool result = CefInitialize(cef_args, settings, cef_app, 0L);
        if (!result)
        {
            OE_WARN << LC << "CefInitialize failed." << std::endl;
            return 0L;
        }
    }


    // Read in the html file if needed
    std::string url = "";
    if (htmlFile.length() > 0)
    {
      url = htmlFile;
    }
    else
    {
        if (!args.read("--url", url))
        {
            for( int i=0; i<args.argc(); ++i )
            {
                if ( osgDB::getLowerCaseFileExtension(args[i]) == "html" )
                {
                    url = args[i];
                    args.remove(i);
                    break;
                }
            }
        }
    }
    // No file specified, try the default index.html
    if (url.length() == 0)
        url = osgDB::getRealPath("index.html");

    // No file specified and index.html does not exist so exit
    if (url.length() == 0)
    {
        OE_WARN << LC << "No html file specified, exiting..." << std::endl;
        return 0L;
    }

    // A file or url was specified so get the full address
    std::string fullPath = osgDB::containsServerAddress(url) ? url : osgDB::getRealPath(url);


    // Setup a CompositeViewer
    osg::ref_ptr<osgViewer::CompositeViewer> viewer = new osgViewer::CompositeViewer(args);
    viewer->setThreadingModel(osgViewer::Viewer::SingleThreaded);

    // prevents "ESC" from killing the application
    viewer->setKeyEventSetsDone( 0 );
    viewer->setQuitEventSetsDone( false );
    

    // Create the BrowserClient
    CefRefPtr<BrowserClient> browserClient = new BrowserClient(viewer.get(), fullPath, 1024, 768);


    return browserClient;
}
osg::ref_ptr<osg::Node> p3d::readShowFiles(osg::ArgumentParser& arguments,const osgDB::ReaderWriter::Options* options)
{
    osg::ref_ptr<osgDB::Options> local_options = createOptions(options);
    local_options->setOptionString("main");

    typedef std::vector< osg::ref_ptr<osg::Node> > NodeList;
    NodeList nodeList;

    std::string filename;
    while (arguments.read("--image",filename))
    {
        osg::ref_ptr<osg::Image> image = readImageFile(filename.c_str(), local_options.get());
        if (image.valid()) nodeList.push_back(osg::createGeodeForImage(image.get()));
    }

    while (arguments.read("--movie",filename))
    {
        osg::ref_ptr<osg::Image> image = readImageFile(filename.c_str(), local_options.get());
        osg::ref_ptr<osg::ImageStream> imageStream = dynamic_cast<osg::ImageStream*>(image.get());
        if (image.valid())
        {
            imageStream->play();
            nodeList.push_back(osg::createGeodeForImage(imageStream.get()));
        }
    }

    while (arguments.read("--dem",filename))
    {
        osg::HeightField* hf = readHeightFieldFile(filename.c_str(), local_options.get());
        if (hf)
        {
            osg::Geode* geode = new osg::Geode;
            geode->addDrawable(new osg::ShapeDrawable(hf));
            nodeList.push_back(geode);
        }
    }

    // note currently doesn't delete the loaded file entries from the command line yet...
    for(int pos=1;pos<arguments.argc();++pos)
    {
        if (!arguments.isOption(pos))
        {
            // not an option so assume string is a filename.
            osg::Node *node = osgDB::readNodeFile( arguments[pos], local_options.get());

            if(node)
            {
                if (node->getName().empty()) node->setName( arguments[pos] );
                nodeList.push_back(node);
            }
        }
    }
    
    if (nodeList.empty())
    {
        return NULL;
    }
    
    osg::ref_ptr<osg::Node> root;

    if (nodeList.size()==1)
    {
        root = nodeList.front().get();
    }
    else  // size >1
    {
        
        osg::Switch* sw = new osg::Switch;
        for(NodeList::iterator itr=nodeList.begin();
            itr!=nodeList.end();
            ++itr)
        {
            sw->addChild((*itr).get());
        }
        sw->setSingleChildOn(0);
        
        sw->setEventCallback(new p3d::ShowEventHandler());

        root = sw;
    }

    if (root.valid())
    {
        osg::notify(osg::INFO)<<"Got node now adding callback"<<std::endl;
    
        AddVolumeEditingCallbackVisitor avecv;
        root->accept(avecv);
    }

    return root;
}
void ossimPlanetQtApplication::addCommandLineOptions(osg::ArgumentParser& args)
{
   args.getApplicationUsage()->setApplicationName(args.getApplicationName());
   args.getApplicationUsage()->setDescription(args.getApplicationName()+" is the test application for accessing wms servers.");
   args.getApplicationUsage()->setCommandLineUsage(args.getApplicationName()+" [options] ...");
   args.getApplicationUsage()->addCommandLineOption("-h or --help","Display this information");
   args.getApplicationUsage()->addCommandLineOption("--enable-flatland", "Uses the flat land model");
   args.getApplicationUsage()->addCommandLineOption("--disable-elevation", "Uses elevation");
   args.getApplicationUsage()->addCommandLineOption("--elev-estimation", "number of levels to estimate.  A value of 4 will say 2^4 or 16 number of rows and cols.");
   args.getApplicationUsage()->addCommandLineOption("--split-metric", "set Split Metric Ratio.  Default is 3.0");
   args.getApplicationUsage()->addCommandLineOption("--elev-patchsize", "number of points in each chunk.");
   args.getApplicationUsage()->addCommandLineOption("--elev-exag", "Multiplier for the height values");
   args.getApplicationUsage()->addCommandLineOption("--elev-cache", "Cache directory for elevation");
   args.getApplicationUsage()->addCommandLineOption("--level-detail", "Maximum level of detail to split to.  Default is 16 levels");
   args.getApplicationUsage()->addCommandLineOption("--enable-hud", "Enables the lat lon read outs");
   args.getApplicationUsage()->addCommandLineOption("--disable-hud", "Disable the lat lon read outs");
   args.getApplicationUsage()->addCommandLineOption("--disable-mipmap", "Doesn't use  MipMapping");
   args.getApplicationUsage()->addCommandLineOption("--enable-mipmap", "Use  MipMapping");
   args.getApplicationUsage()->addCommandLineOption("--wms-timeout", "Time out for WMS get Capabiltites for the WmsDialog specified in seconds");
}