コード例 #1
0
ファイル: GeomCompiler.cpp プロジェクト: korash/osgearth
osg::Node*
GeomCompiler::compile(FeatureCursor*        cursor,
                      const Style&          style,
                      const FilterContext&  context)

{
    if ( !context.profile() ) {
        OE_WARN << LC << "Valid feature profile required" << std::endl;
        return 0L;
    }

    if ( style.empty() ) {
        OE_WARN << LC << "Non-empty style required" << std::endl;
        return 0L;
    }

    osg::ref_ptr<osg::Group> resultGroup = new osg::Group();

    // start by making a working copy of the feature set
    FeatureList workingSet;
    cursor->fill( workingSet );

    // create a filter context that will track feature data through the process
    FilterContext cx = context;
    if ( !cx.extent().isSet() )
        cx.extent() = cx.profile()->getExtent();

    // only localize coordinates if the map if geocentric AND the extent is
    // less than 180 degrees.
    const MapInfo& mi = cx.getSession()->getMapInfo();
    GeoExtent workingExtent = cx.extent()->transform( cx.profile()->getSRS()->getGeographicSRS() );
    bool localize = mi.isGeocentric() && workingExtent.width() < 180.0;

    // go through the Style and figure out which filters to use.
    const MarkerSymbol*    marker    = style.get<MarkerSymbol>();
    const PointSymbol*     point     = style.get<PointSymbol>();
    const LineSymbol*      line      = style.get<LineSymbol>();
    const PolygonSymbol*   polygon   = style.get<PolygonSymbol>();
    const ExtrusionSymbol* extrusion = style.get<ExtrusionSymbol>();
    const AltitudeSymbol*  altitude  = style.get<AltitudeSymbol>();
    const TextSymbol*      text      = style.get<TextSymbol>();
    
    // transform the features into the map profile
    TransformFilter xform( mi.getProfile()->getSRS(), mi.isGeocentric() );   
    xform.setLocalizeCoordinates( localize );
    if ( altitude && altitude->verticalOffset().isSet() )
        xform.setMatrix( osg::Matrixd::translate(0, 0, *altitude->verticalOffset()) );
    cx = xform.push( workingSet, cx );

    bool clampRequired =
        altitude && altitude->clamping() != AltitudeSymbol::CLAMP_NONE;

    // model substitution
    if ( marker )
    {
        if ( marker->placement() == MarkerSymbol::PLACEMENT_RANDOM   ||
             marker->placement() == MarkerSymbol::PLACEMENT_INTERVAL )
        {
            ScatterFilter scatter;
            scatter.setDensity( *marker->density() );
            scatter.setRandom( marker->placement() == MarkerSymbol::PLACEMENT_RANDOM );
            scatter.setRandomSeed( *marker->randomSeed() );
            cx = scatter.push( workingSet, cx );
        }

        if ( clampRequired )
        {
            ClampFilter clamp;
            clamp.setIgnoreZ( altitude->clamping() == AltitudeSymbol::CLAMP_TO_TERRAIN );
            cx = clamp.push( workingSet, cx );
            clampRequired = false;
        }

        SubstituteModelFilter sub( style );
        sub.setClustering( *_options.clustering() );
        if ( marker->scale().isSet() )
            sub.setModelMatrix( osg::Matrixd::scale( *marker->scale() ) );

        cx = sub.push( workingSet, cx );

        osg::Node* node = sub.getNode();
        if ( node )
            resultGroup->addChild( node );
    }

    // extruded geometry
    if ( extrusion && ( line || polygon ) )
    {
        if ( clampRequired )
        {
            ClampFilter clamp;
            clamp.setIgnoreZ( altitude->clamping() == AltitudeSymbol::CLAMP_TO_TERRAIN );
            if ( extrusion->heightReference() == ExtrusionSymbol::HEIGHT_REFERENCE_MSL )
                clamp.setMaxZAttributeName( "__max_z");
            cx = clamp.push( workingSet, cx );
            clampRequired = false;
        }

        ExtrudeGeometryFilter extrude;
        if ( extrusion )
        {
            if ( extrusion->height().isSet() )
                extrude.setExtrusionHeight( *extrusion->height() );
            if ( extrusion->heightExpression().isSet() )
                extrude.setExtrusionExpr( *extrusion->heightExpression() );
            
            //extrude.setHeightReferenceFrame( *extrusion->heightReference() );
            if ( extrusion->heightReference() == ExtrusionSymbol::HEIGHT_REFERENCE_MSL )
                extrude.setHeightOffsetExpression( NumericExpression("[__max_z]") );
            extrude.setFlatten( *extrusion->flatten() );
        }
        if ( polygon )
        {
            extrude.setColor( polygon->fill()->color() );
        }

        osg::Node* node = extrude.push( workingSet, cx );
        if ( node )
            resultGroup->addChild( node );
    }

    // simple geometry
    else if ( point || line || polygon )
    {
        if ( clampRequired )
        {
            ClampFilter clamp;
            clamp.setIgnoreZ( altitude->clamping() == AltitudeSymbol::CLAMP_TO_TERRAIN );
            cx = clamp.push( workingSet, cx );
            clampRequired = false;
        }

        BuildGeometryFilter filter( style );
        if ( _options.maxGranularity().isSet() )
            filter.maxGranularity() = *_options.maxGranularity();
        if ( _options.mergeGeometry().isSet() )
            filter.mergeGeometry() = *_options.mergeGeometry();
        if ( _options.featureName().isSet() )
            filter.featureName() = *_options.featureName();
        cx = filter.push( workingSet, cx );

        osg::Node* node = filter.getNode();
        if ( node )
            resultGroup->addChild( node );
    }

    if ( text )
    {
        if ( clampRequired )
        {
            ClampFilter clamp;
            clamp.setIgnoreZ( altitude->clamping() == AltitudeSymbol::CLAMP_TO_TERRAIN );
            cx = clamp.push( workingSet, cx );
            clampRequired = false;
        }

        BuildTextFilter filter( style );
        cx = filter.push( workingSet, cx );

        osg::Node* node = filter.takeNode();
        if ( node )
            resultGroup->addChild( node );
    }

    //else // insufficient symbology
    //{
    //    OE_WARN << LC << "Insufficient symbology; no geometry created" << std::endl;
    //}

    // install the localization transform if necessary.
    if ( cx.hasReferenceFrame() )
    {
        osg::MatrixTransform* delocalizer = new osg::MatrixTransform( cx.inverseReferenceFrame() );
        delocalizer->addChild( resultGroup.get() );
        resultGroup = delocalizer;
    }

    resultGroup->getOrCreateStateSet()->setMode( GL_BLEND, 1 );

    //osgDB::writeNodeFile( *(resultGroup.get()), "out.osg" );

    return resultGroup.release();
}
コード例 #2
0
osg::Node*
GeometryCompiler::compile(FeatureList&          workingSet,
                          const Style&          style,
                          const FilterContext&  context)
{
#ifdef PROFILING
    osg::Timer_t p_start = osg::Timer::instance()->tick();
    unsigned p_features = workingSet.size();
#endif

    // for debugging/validation.
    std::vector<std::string> history;
    bool trackHistory = (_options.validate() == true);

    osg::ref_ptr<osg::Group> resultGroup = new osg::Group();

    // create a filter context that will track feature data through the process
    FilterContext sharedCX = context;

    if ( !sharedCX.extent().isSet() && sharedCX.profile() )
    {
        sharedCX.extent() = sharedCX.profile()->getExtent();
    }

    // ref_ptr's to hold defaults in case we need them.
    osg::ref_ptr<PointSymbol>   defaultPoint;
    osg::ref_ptr<LineSymbol>    defaultLine;
    osg::ref_ptr<PolygonSymbol> defaultPolygon;

    // go through the Style and figure out which filters to use.
    const PointSymbol*     point     = style.get<PointSymbol>();
    const LineSymbol*      line      = style.get<LineSymbol>();
    const PolygonSymbol*   polygon   = style.get<PolygonSymbol>();
    const ExtrusionSymbol* extrusion = style.get<ExtrusionSymbol>();
    const AltitudeSymbol*  altitude  = style.get<AltitudeSymbol>();
    const TextSymbol*      text      = style.get<TextSymbol>();
    const MarkerSymbol*    marker    = style.get<MarkerSymbol>();    // to be deprecated
    const IconSymbol*      icon      = style.get<IconSymbol>();
    const ModelSymbol*     model     = style.get<ModelSymbol>();

    // Perform tessellation first.
    if ( line )
    {
        if ( line->tessellation().isSet() )
        {
            TemplateFeatureFilter<TessellateOperator> filter;
            filter.setNumPartitions( *line->tessellation() );
            filter.setDefaultGeoInterp( _options.geoInterp().get() );
            sharedCX = filter.push( workingSet, sharedCX );
            if ( trackHistory ) history.push_back( "tessellation" );
        }
        else if ( line->tessellationSize().isSet() )
        {
            TemplateFeatureFilter<TessellateOperator> filter;
            filter.setMaxPartitionSize( *line->tessellationSize() );
            filter.setDefaultGeoInterp( _options.geoInterp().get() );
            sharedCX = filter.push( workingSet, sharedCX );
            if ( trackHistory ) history.push_back( "tessellationSize" );
        }
    }

    // if the style was empty, use some defaults based on the geometry type of the
    // first feature.
    if ( !point && !line && !polygon && !marker && !extrusion && !text && !model && !icon && workingSet.size() > 0 )
    {
        Feature* first = workingSet.begin()->get();
        Geometry* geom = first->getGeometry();
        if ( geom )
        {
            switch( geom->getComponentType() )
            {
            case Geometry::TYPE_LINESTRING:
            case Geometry::TYPE_RING:
                defaultLine = new LineSymbol();
                line = defaultLine.get();
                break;
            case Geometry::TYPE_POINTSET:
                defaultPoint = new PointSymbol();
                point = defaultPoint.get();
                break;
            case Geometry::TYPE_POLYGON:
                defaultPolygon = new PolygonSymbol();
                polygon = defaultPolygon.get();
                break;
            case Geometry::TYPE_MULTI:
            case Geometry::TYPE_UNKNOWN:
                break;
            }
        }
    }

    // resample the geometry if necessary:
    if (_options.resampleMode().isSet())
    {
        ResampleFilter resample;
        resample.resampleMode() = *_options.resampleMode();        
        if (_options.resampleMaxLength().isSet())
        {
            resample.maxLength() = *_options.resampleMaxLength();
        }                   
        sharedCX = resample.push( workingSet, sharedCX ); 
        if ( trackHistory ) history.push_back( "resample" );
    }    
    
    // check whether we need to do elevation clamping:
    bool altRequired =
        _options.ignoreAltitudeSymbol() != true &&
        altitude && (
            altitude->clamping() != AltitudeSymbol::CLAMP_NONE ||
            altitude->verticalOffset().isSet() ||
            altitude->verticalScale().isSet() ||
            altitude->script().isSet() );

    // marker substitution -- to be deprecated in favor of model/icon
    if ( marker )
    {
        if ( trackHistory ) history.push_back( "marker" );

        // use a separate filter context since we'll be munging the data
        FilterContext markerCX = sharedCX;

        if ( marker->placement() == MarkerSymbol::PLACEMENT_RANDOM   ||
             marker->placement() == MarkerSymbol::PLACEMENT_INTERVAL )
        {
            ScatterFilter scatter;
            scatter.setDensity( *marker->density() );
            scatter.setRandom( marker->placement() == MarkerSymbol::PLACEMENT_RANDOM );
            scatter.setRandomSeed( *marker->randomSeed() );
            markerCX = scatter.push( workingSet, markerCX );
            if ( trackHistory ) history.push_back( "scatter" );
        }
        else if ( marker->placement() == MarkerSymbol::PLACEMENT_CENTROID )
        {
            CentroidFilter centroid;
            markerCX = centroid.push( workingSet, markerCX );  
            if ( trackHistory ) history.push_back( "centroid" );
        }

        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            markerCX = clamp.push( workingSet, markerCX );
            if ( trackHistory ) history.push_back( "altitude" );

            // don't set this; we changed the input data.
            //altRequired = false;
        }

        SubstituteModelFilter sub( style );

        sub.setClustering( *_options.clustering() );

        sub.setUseDrawInstanced( *_options.instancing() );

        if ( _options.featureName().isSet() )
            sub.setFeatureNameExpr( *_options.featureName() );

        osg::Node* node = sub.push( workingSet, markerCX );
        if ( node )
        {
            if ( trackHistory ) history.push_back( "substitute" );
            resultGroup->addChild( node );
        }
    }

    // instance substitution (replaces marker)
    else if ( model )
    {
        const InstanceSymbol* instance = model ? (const InstanceSymbol*)model : (const InstanceSymbol*)icon;

        // use a separate filter context since we'll be munging the data
        FilterContext localCX = sharedCX;
        
        if ( trackHistory ) history.push_back( "model");

        if ( instance->placement() == InstanceSymbol::PLACEMENT_RANDOM   ||
             instance->placement() == InstanceSymbol::PLACEMENT_INTERVAL )
        {
            ScatterFilter scatter;
            scatter.setDensity( *instance->density() );
            scatter.setRandom( instance->placement() == InstanceSymbol::PLACEMENT_RANDOM );
            scatter.setRandomSeed( *instance->randomSeed() );
            localCX = scatter.push( workingSet, localCX );
            if ( trackHistory ) history.push_back( "scatter" );
        }
        else if ( instance->placement() == InstanceSymbol::PLACEMENT_CENTROID )
        {
            CentroidFilter centroid;
            localCX = centroid.push( workingSet, localCX );
            if ( trackHistory ) history.push_back( "centroid" );
        }

        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            localCX = clamp.push( workingSet, localCX );
            if ( trackHistory ) history.push_back( "altitude" );
        }

        SubstituteModelFilter sub( style );

        // activate clustering
        sub.setClustering( *_options.clustering() );

        // activate draw-instancing
        sub.setUseDrawInstanced( *_options.instancing() );

        // activate feature naming
        if ( _options.featureName().isSet() )
            sub.setFeatureNameExpr( *_options.featureName() );
        

        osg::Node* node = sub.push( workingSet, localCX );
        if ( node )
        {
            if ( trackHistory ) history.push_back( "substitute" );

            resultGroup->addChild( node );

            // enable auto scaling on the group?
            if ( model && model->autoScale() == true )
            {
                resultGroup->getOrCreateStateSet()->setRenderBinDetails(0, osgEarth::AUTO_SCALE_BIN );
            }
        }
    }

    // extruded geometry
    if ( extrusion )
    {
        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            sharedCX = clamp.push( workingSet, sharedCX );
            if ( trackHistory ) history.push_back( "altitude" );
            altRequired = false;
        }

        ExtrudeGeometryFilter extrude;
        extrude.setStyle( style );

        // apply per-feature naming if requested.
        if ( _options.featureName().isSet() )
            extrude.setFeatureNameExpr( *_options.featureName() );

        if ( _options.mergeGeometry().isSet() )
            extrude.setMergeGeometry( *_options.mergeGeometry() );

        osg::Node* node = extrude.push( workingSet, sharedCX );
        if ( node )
        {
            if ( trackHistory ) history.push_back( "extrude" );
            resultGroup->addChild( node );
        }
        
    }

    // simple geometry
    else if ( point || line || polygon )
    {
        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            sharedCX = clamp.push( workingSet, sharedCX );
            if ( trackHistory ) history.push_back( "altitude" );
            altRequired = false;
        }

        BuildGeometryFilter filter( style );
        filter.maxGranularity() = *_options.maxGranularity();
        filter.geoInterp()      = *_options.geoInterp();

        if ( _options.featureName().isSet() )
            filter.featureName() = *_options.featureName();

        osg::Node* node = filter.push( workingSet, sharedCX );
        if ( node )
        {
            if ( trackHistory ) history.push_back( "geometry" );
            resultGroup->addChild( node );
        }
    }

    if ( text || icon )
    {
        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            sharedCX = clamp.push( workingSet, sharedCX );
            if ( trackHistory ) history.push_back( "altitude" );
            altRequired = false;
        }

        BuildTextFilter filter( style );
        osg::Node* node = filter.push( workingSet, sharedCX );
        if ( node )
        {
            if ( trackHistory ) history.push_back( "text" );
            resultGroup->addChild( node );
        }
    }

    if (Registry::capabilities().supportsGLSL())
    {
        if ( _options.shaderPolicy() == SHADERPOLICY_GENERATE )
        {
            // no ss cache because we will optimize later.
            Registry::shaderGenerator().run( 
                resultGroup.get(),
                "osgEarth.GeomCompiler" );
        }
        else if ( _options.shaderPolicy() == SHADERPOLICY_DISABLE )
        {
            resultGroup->getOrCreateStateSet()->setAttributeAndModes(
                new osg::Program(),
                osg::StateAttribute::OFF | osg::StateAttribute::OVERRIDE );
        
            if ( trackHistory ) history.push_back( "no shaders" );
        }
    }

    // Optimize stateset sharing.
    if ( _options.optimizeStateSharing() == true )
    {
        // Common state set cache?
        osg::ref_ptr<StateSetCache> sscache;
        if ( sharedCX.getSession() )
        {
            // with a shared cache, don't combine statesets. They may be
            // in the live graph
            sscache = sharedCX.getSession()->getStateSetCache();
            sscache->consolidateStateAttributes( resultGroup.get() );
        }
        else 
        {
            // isolated: perform full optimization
            sscache = new StateSetCache();
            sscache->optimize( resultGroup.get() );
        }
        
        if ( trackHistory ) history.push_back( "share state" );
    }

    if ( _options.optimize() == true )
    {
        OE_DEBUG << LC << "optimize begin" << std::endl;

        // Run the optimizer on the resulting graph
        int optimizations =
            osgUtil::Optimizer::FLATTEN_STATIC_TRANSFORMS |
            osgUtil::Optimizer::REMOVE_REDUNDANT_NODES |
            osgUtil::Optimizer::COMBINE_ADJACENT_LODS |
            osgUtil::Optimizer::SHARE_DUPLICATE_STATE |
            osgUtil::Optimizer::MERGE_GEOMETRY |
            osgUtil::Optimizer::CHECK_GEOMETRY |
            osgUtil::Optimizer::MERGE_GEODES |
            osgUtil::Optimizer::STATIC_OBJECT_DETECTION;

        osgUtil::Optimizer opt;
        opt.optimize(resultGroup.get(), optimizations);
        OE_DEBUG << LC << "optimize complete" << std::endl;

        if ( trackHistory ) history.push_back( "optimize" );
    }
    

    //test: dump the tile to disk
    //osgDB::writeNodeFile( *(resultGroup.get()), "out.osg" );

#ifdef PROFILING
    static double totalTime = 0.0;
    static Threading::Mutex totalTimeMutex;
    osg::Timer_t p_end = osg::Timer::instance()->tick();
    double t = osg::Timer::instance()->delta_s(p_start, p_end);
    totalTimeMutex.lock();
    totalTime += t;
    totalTimeMutex.unlock();
    OE_INFO << LC
        << "features = " << p_features
        << ", time = " << t << " s.  cummulative = " 
        << totalTime << " s."
        << std::endl;
#endif


    if ( _options.validate() == true )
    {
        OE_NOTICE << LC << "-- Start Debugging --\n";
        std::stringstream buf;
        buf << "HISTORY ";
        for(std::vector<std::string>::iterator h = history.begin(); h != history.end(); ++h)
            buf << ".. " << *h;
        OE_NOTICE << LC << buf.str() << "\n";
        osgEarth::GeometryValidator validator;
        resultGroup->accept(validator);
        OE_NOTICE << LC << "-- End Debugging --\n";
    }

    return resultGroup.release();
}
コード例 #3
0
ファイル: GeometryCompiler.cpp プロジェクト: Vantica/osgearth
osg::Node*
GeometryCompiler::compile(FeatureList&          workingSet,
                          const Style&          style,
                          const FilterContext&  context)
{
#ifdef PROFILING
    osg::Timer_t p_start = osg::Timer::instance()->tick();
    unsigned p_features = workingSet.size();
#endif

    osg::ref_ptr<osg::Group> resultGroup = new osg::Group();

    // create a filter context that will track feature data through the process
    FilterContext sharedCX = context;
    if ( !sharedCX.extent().isSet() && sharedCX.profile() )
    {
        sharedCX.extent() = sharedCX.profile()->getExtent();
    }

    // ref_ptr's to hold defaults in case we need them.
    osg::ref_ptr<PointSymbol>   defaultPoint;
    osg::ref_ptr<LineSymbol>    defaultLine;
    osg::ref_ptr<PolygonSymbol> defaultPolygon;

    // go through the Style and figure out which filters to use.
    const PointSymbol*     point     = style.get<PointSymbol>();
    const LineSymbol*      line      = style.get<LineSymbol>();
    const PolygonSymbol*   polygon   = style.get<PolygonSymbol>();
    const ExtrusionSymbol* extrusion = style.get<ExtrusionSymbol>();
    const AltitudeSymbol*  altitude  = style.get<AltitudeSymbol>();
    const TextSymbol*      text      = style.get<TextSymbol>();
    const MarkerSymbol*    marker    = style.get<MarkerSymbol>();    // to be deprecated
    const IconSymbol*      icon      = style.get<IconSymbol>();
    const ModelSymbol*     model     = style.get<ModelSymbol>();

    // check whether we need tessellation:
    if ( line && line->tessellation().isSet() )
    {
        TemplateFeatureFilter<TessellateOperator> filter;
        filter.setNumPartitions( *line->tessellation() );
        sharedCX = filter.push( workingSet, sharedCX );
    }

    // if the style was empty, use some defaults based on the geometry type of the
    // first feature.
    if ( !point && !line && !polygon && !marker && !extrusion && !text && !model && !icon && workingSet.size() > 0 )
    {
        Feature* first = workingSet.begin()->get();
        Geometry* geom = first->getGeometry();
        if ( geom )
        {
            switch( geom->getComponentType() )
            {
            case Geometry::TYPE_LINESTRING:
            case Geometry::TYPE_RING:
                defaultLine = new LineSymbol();
                line = defaultLine.get();
                break;
            case Geometry::TYPE_POINTSET:
                defaultPoint = new PointSymbol();
                point = defaultPoint.get();
                break;
            case Geometry::TYPE_POLYGON:
                defaultPolygon = new PolygonSymbol();
                polygon = defaultPolygon.get();
                break;
            case Geometry::TYPE_MULTI:
            case Geometry::TYPE_UNKNOWN:
                break;
            }
        }
    }

    // resample the geometry if necessary:
    if (_options.resampleMode().isSet())
    {
        ResampleFilter resample;
        resample.resampleMode() = *_options.resampleMode();        
        if (_options.resampleMaxLength().isSet())
        {
            resample.maxLength() = *_options.resampleMaxLength();
        }                   
        sharedCX = resample.push( workingSet, sharedCX );        
    }    
    
    // check whether we need to do elevation clamping:
    bool altRequired =
        _options.ignoreAltitudeSymbol() != true &&
        altitude && (
            altitude->clamping() != AltitudeSymbol::CLAMP_NONE ||
            altitude->verticalOffset().isSet() ||
            altitude->verticalScale().isSet() ||
            altitude->script().isSet() );

    // marker substitution -- to be deprecated in favor of model/icon
    if ( marker )
    {
        // use a separate filter context since we'll be munging the data
        FilterContext markerCX = sharedCX;

        if ( marker->placement() == MarkerSymbol::PLACEMENT_RANDOM   ||
             marker->placement() == MarkerSymbol::PLACEMENT_INTERVAL )
        {
            ScatterFilter scatter;
            scatter.setDensity( *marker->density() );
            scatter.setRandom( marker->placement() == MarkerSymbol::PLACEMENT_RANDOM );
            scatter.setRandomSeed( *marker->randomSeed() );
            markerCX = scatter.push( workingSet, markerCX );
        }
        else if ( marker->placement() == MarkerSymbol::PLACEMENT_CENTROID )
        {
            CentroidFilter centroid;
            centroid.push( workingSet, markerCX );
        }

        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            markerCX = clamp.push( workingSet, markerCX );

            // don't set this; we changed the input data.
            //altRequired = false;
        }

        SubstituteModelFilter sub( style );

        sub.setClustering( *_options.clustering() );

        sub.setUseDrawInstanced( *_options.instancing() );

        if ( _options.featureName().isSet() )
            sub.setFeatureNameExpr( *_options.featureName() );

        osg::Node* node = sub.push( workingSet, markerCX );
        if ( node )
        {
            resultGroup->addChild( node );
        }
    }

    // instance substitution (replaces marker)
    else if ( model )
    {
        const InstanceSymbol* instance = model ? (const InstanceSymbol*)model : (const InstanceSymbol*)icon;

        // use a separate filter context since we'll be munging the data
        FilterContext localCX = sharedCX;

        if ( instance->placement() == InstanceSymbol::PLACEMENT_RANDOM   ||
             instance->placement() == InstanceSymbol::PLACEMENT_INTERVAL )
        {
            ScatterFilter scatter;
            scatter.setDensity( *instance->density() );
            scatter.setRandom( instance->placement() == InstanceSymbol::PLACEMENT_RANDOM );
            scatter.setRandomSeed( *instance->randomSeed() );
            localCX = scatter.push( workingSet, localCX );
        }
        else if ( instance->placement() == InstanceSymbol::PLACEMENT_CENTROID )
        {
            CentroidFilter centroid;
            centroid.push( workingSet, localCX );
        }

        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            localCX = clamp.push( workingSet, localCX );
        }

        SubstituteModelFilter sub( style );

        // activate clustering
        sub.setClustering( *_options.clustering() );

        // activate draw-instancing
        sub.setUseDrawInstanced( *_options.instancing() );

        // activate feature naming
        if ( _options.featureName().isSet() )
            sub.setFeatureNameExpr( *_options.featureName() );

        osg::Node* node = sub.push( workingSet, localCX );
        if ( node )
        {
            resultGroup->addChild( node );

            // enable auto scaling on the group?
            if ( model && model->autoScale() == true )
            {
                resultGroup->getOrCreateStateSet()->setRenderBinDetails(0, osgEarth::AUTO_SCALE_BIN );
            }
        }
    }

    // extruded geometry
    if ( extrusion )
    {
        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            sharedCX = clamp.push( workingSet, sharedCX );
            altRequired = false;
        }

        ExtrudeGeometryFilter extrude;
        extrude.setStyle( style );

        // Activate texture arrays if the GPU supports them and if the user
        // hasn't disabled them.        
        extrude.useTextureArrays() =
            Registry::capabilities().supportsTextureArrays() &&
            _options.useTextureArrays() == true;

        // apply per-feature naming if requested.
        if ( _options.featureName().isSet() )
            extrude.setFeatureNameExpr( *_options.featureName() );
        if ( _options.useVertexBufferObjects().isSet())
            extrude.useVertexBufferObjects() = *_options.useVertexBufferObjects();

        osg::Node* node = extrude.push( workingSet, sharedCX );
        if ( node )
        {
            resultGroup->addChild( node );
        }
        
    }

    // simple geometry
    else if ( point || line || polygon )
    {
        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            sharedCX = clamp.push( workingSet, sharedCX );
            altRequired = false;
        }

        BuildGeometryFilter filter( style );
        if ( _options.maxGranularity().isSet() )
            filter.maxGranularity() = *_options.maxGranularity();
        if ( _options.geoInterp().isSet() )
            filter.geoInterp() = *_options.geoInterp();
        if ( _options.featureName().isSet() )
            filter.featureName() = *_options.featureName();

        osg::Node* node = filter.push( workingSet, sharedCX );
        if ( node )
        {
            resultGroup->addChild( node );
        }
    }

    if ( text || icon )
    {
        if ( altRequired )
        {
            AltitudeFilter clamp;
            clamp.setPropertiesFromStyle( style );
            sharedCX = clamp.push( workingSet, sharedCX );
            altRequired = false;
        }

        BuildTextFilter filter( style );
        osg::Node* node = filter.push( workingSet, sharedCX );
        if ( node )
        {
            resultGroup->addChild( node );
        }
    }

    if (Registry::capabilities().supportsGLSL())
    {
        if ( _options.shaderPolicy() == SHADERPOLICY_GENERATE )
        {
            // no ss cache because we will optimize later.
            Registry::shaderGenerator().run( 
                resultGroup.get(),
                "osgEarth.GeomCompiler" );
        }
        else if ( _options.shaderPolicy() == SHADERPOLICY_DISABLE )
        {
            resultGroup->getOrCreateStateSet()->setAttributeAndModes(
                new osg::Program(),
                osg::StateAttribute::OFF | osg::StateAttribute::OVERRIDE );
        }
    }

    // Optimize stateset sharing.
    if ( _options.optimizeStateSharing() == true )
    {
        // Common state set cache?
        osg::ref_ptr<StateSetCache> sscache;
        if ( sharedCX.getSession() )
        {
            // with a shared cache, don't combine statesets. They may be
            // in the live graph
            sscache = sharedCX.getSession()->getStateSetCache();
            sscache->consolidateStateAttributes( resultGroup.get() );
        }
        else 
        {
            // isolated: perform full optimization
            sscache = new StateSetCache();
            sscache->optimize( resultGroup.get() );
        }
    }

    //test: dump the tile to disk
    //osgDB::writeNodeFile( *(resultGroup.get()), "out.osg" );

#ifdef PROFILING
    osg::Timer_t p_end = osg::Timer::instance()->tick();
    OE_INFO << LC
        << "features = " << p_features
        << ", time = " << osg::Timer::instance()->delta_s(p_start, p_end) << " s." << std::endl;
#endif

    return resultGroup.release();
}