Ejemplo n.º 1
0
Config
EarthFileSerializer2::serialize( MapNode* input ) const
{
    Config mapConf("map");
    mapConf.attr("version") = "2";

    if ( !input || !input->getMap() )
        return mapConf;

    Map* map = input->getMap();
    MapFrame mapf( map, Map::ENTIRE_MODEL );

    // the map and node options:
    Config optionsConf = map->getMapOptions().getConfig();
    optionsConf.merge( input->getMapNodeOptions().getConfig() );
    mapConf.add( "options", optionsConf );

    // the layers
    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
    {
        ImageLayer* layer = i->get();
        Config layerConf = layer->getImageLayerOptions().getConfig();
        layerConf.attr("name") = layer->getName();
        layerConf.attr("driver") = layer->getImageLayerOptions().driver()->getDriver();
        mapConf.add( "image", layerConf );
    }

    for( ElevationLayerVector::const_iterator i = mapf.elevationLayers().begin(); i != mapf.elevationLayers().end(); ++i )
    {
        ElevationLayer* layer = i->get();
        Config layerConf = layer->getElevationLayerOptions().getConfig();
        layerConf.attr("name") = layer->getName();
        layerConf.attr("driver") = layer->getElevationLayerOptions().driver()->getDriver();
        mapConf.add( "elevation", layerConf );
    }

    for( ModelLayerVector::const_iterator i = mapf.modelLayers().begin(); i != mapf.modelLayers().end(); ++i )
    {
        ModelLayer* layer = i->get();
        Config layerConf = layer->getModelLayerOptions().getConfig(); //layer->getDriverConfig();
        layerConf.attr("name") = layer->getName();
        //layerConf.attr("driver") = layer->getDriverConfig().value("driver");
        layerConf.attr("driver") = layer->getModelLayerOptions().driver()->getDriver();
        mapConf.add( "model", layerConf );
    }

    Config ext = input->externalConfig();
    if ( !ext.empty() )
    {
        ext.key() = "external";
        mapConf.addChild( ext );
    }

    return mapConf;
}
Ejemplo n.º 2
0
void
TerrainEngineNode::updateImageUniforms()
{
    // don't bother if this is a hurting old card
    if ( !Registry::instance()->getCapabilities().supportsGLSL() )
        return;

    // update the layer uniform arrays:
    osg::StateSet* stateSet = this->getOrCreateStateSet();

    // get a copy of the image layer stack:
    MapFrame mapf( _map.get(), Map::IMAGE_LAYERS );

    _imageLayerController->_layerVisibleUniform.detach();
    _imageLayerController->_layerOpacityUniform.detach();
    _imageLayerController->_layerRangeUniform.detach();
    
    if ( mapf.imageLayers().size() > 0 )
    {
        // the "enabled" uniform is fixed size. this is handy to account for layers that are in flux...i.e., their source
        // layer count has changed, but the shader has not yet caught up. In the future we might use this to disable
        // "ghost" layers that used to exist at a given index, but no longer do.
        
        _imageLayerController->_layerVisibleUniform.attach( "osgearth_ImageLayerVisible", osg::Uniform::BOOL,  stateSet, MAX_IMAGE_LAYERS );
        _imageLayerController->_layerOpacityUniform.attach( "osgearth_ImageLayerOpacity", osg::Uniform::FLOAT, stateSet, mapf.imageLayers().size() );
        _imageLayerController->_layerRangeUniform.attach  ( "osgearth_ImageLayerRange",   osg::Uniform::FLOAT, stateSet, 2 * mapf.imageLayers().size() );

        for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
        {
            ImageLayer* layer = i->get();
            int index = (int)(i - mapf.imageLayers().begin());

            _imageLayerController->_layerVisibleUniform.setElement( index, layer->getVisible() );
            _imageLayerController->_layerOpacityUniform.setElement( index, layer->getOpacity() );
            _imageLayerController->_layerRangeUniform.setElement( (2*index), layer->getImageLayerOptions().minVisibleRange().value() );
            _imageLayerController->_layerRangeUniform.setElement( (2*index)+1, layer->getImageLayerOptions().maxVisibleRange().value() );
        }

        // set the remainder of the layers to disabled 
        for( int j=mapf.imageLayers().size(); j<_imageLayerController->_layerVisibleUniform.getNumElements(); ++j)
        {
            _imageLayerController->_layerVisibleUniform.setElement( j, false );
        }
    }

    dirty();
}
Ejemplo n.º 3
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" );

    // max level to which to generate
    unsigned elevationPixelDepth = 32;
    args.read( "--elevation-pixel-depth", elevationPixelDepth );

    // 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 );
    packager.setElevationPixelDepth( elevationPixelDepth );

    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;
}
Ejemplo n.º 4
0
void CacheSeed::seed( Map* map )
{
    // We must do this to avoid an error message in OpenSceneGraph b/c the findWrapper method doesn't appear to be threadsafe.
    // This really isn't a big deal b/c this only effects data that is already cached.
    osgDB::ObjectWrapper* wrapper = osgDB::Registry::instance()->getObjectWrapperManager()->findWrapper( "osg::Image" );

    osg::Timer_t startTime = osg::Timer::instance()->tick();
    if ( !map->getCache() )
    {
        OE_WARN << LC << "Warning: No cache defined; aborting." << std::endl;
        return;
    }

    std::vector<TileKey> keys;
    map->getProfile()->getRootKeys(keys);

    //Add the map's entire extent if we don't have one specified.
    if (_extents.empty())
    {
        addExtent( map->getProfile()->getExtent() );
    }

    bool hasCaches = false;
    int src_min_level = INT_MAX;
    unsigned int src_max_level = 0;

    MapFrame mapf( map, Map::TERRAIN_LAYERS, "CacheSeed::seed" );

    //Assumes the the TileSource will perform the caching for us when we call createImage
    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); i++ )
    {
        ImageLayer* layer = i->get();
        TileSource* src   = layer->getTileSource();

        const ImageLayerOptions& opt = layer->getImageLayerOptions();

        if ( layer->isCacheOnly() )
        {
            OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" is set to cache-only; skipping." << std::endl;
        }
        else if ( !src )
        {
            OE_WARN << "Warning: Layer \"" << layer->getName() << "\" could not create TileSource; skipping." << std::endl;
        }
        //else if ( src->getCachePolicyHint(0L) == CachePolicy::NO_CACHE )
        //{
        //    OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" does not support seeding; skipping." << std::endl;
        //}
        else if ( !layer->getCache() )
        {
            OE_WARN << LC << "Notice: Layer \"" << layer->getName() << "\" has no cache defined; skipping." << std::endl;
        }
        else
        {
            hasCaches = true;

            if (opt.minLevel().isSet() && (int)opt.minLevel().get() < src_min_level)
                src_min_level = opt.minLevel().get();
            if (opt.maxLevel().isSet() && opt.maxLevel().get() > src_max_level)
                src_max_level = opt.maxLevel().get();
        }
    }

    for( ElevationLayerVector::const_iterator i = mapf.elevationLayers().begin(); i != mapf.elevationLayers().end(); i++ )
    {
        ElevationLayer* layer = i->get();
        TileSource*     src   = layer->getTileSource();
        const ElevationLayerOptions& opt = layer->getElevationLayerOptions();

        if ( layer->isCacheOnly() )
        {
            OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" is set to cache-only; skipping." << std::endl;
        }
        else if (!src)
        {
            OE_WARN << "Warning: Layer \"" << layer->getName() << "\" could not create TileSource; skipping." << std::endl;
        }
        //else if ( src->getCachePolicyHint(0L) == CachePolicy::NO_CACHE )
        //{
        //    OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" does not support seeding; skipping." << std::endl;
        //}
        else if ( !layer->getCache() )
        {
            OE_WARN << LC << "Notice: Layer \"" << layer->getName() << "\" has no cache defined; skipping." << std::endl;
        }
        else
        {
            hasCaches = true;

            if (opt.minLevel().isSet() && (int)opt.minLevel().get() < src_min_level)
                src_min_level = opt.minLevel().get();
            if (opt.maxLevel().isSet() && opt.maxLevel().get() > src_max_level)
                src_max_level = opt.maxLevel().get();
        }
    }

    if ( !hasCaches )
    {
        OE_WARN << LC << "There are either no caches defined in the map, or no sources to cache; aborting." << std::endl;
        return;
    }

    if ( src_max_level > 0 && src_max_level < _maxLevel )
    {
        _maxLevel = src_max_level;
    }

    OE_NOTICE << LC << "Maximum cache level will be " << _maxLevel << std::endl;

    //Estimate the number of tiles
    _total = 0;    
    CacheEstimator est;
    est.setMinLevel( _minLevel );
    est.setMaxLevel( _maxLevel );
    est.setProfile( map->getProfile() ); 
    for (unsigned int i = 0; i < _extents.size(); i++)
    {                
        est.addExtent( _extents[ i ] );
    } 
    _total = est.getNumTiles();

    OE_INFO << "Processing ~" << _total << " tiles" << std::endl;


    // Initialize the operations queue
    _queue = new osg::OperationQueue;

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

    // Start the threads
    std::vector< osg::ref_ptr< osg::OperationsThread > > threads;
    for (unsigned int i = 0; i < _numThreads; i++)
    {        
        osg::OperationsThread* thread = new osg::OperationsThread();
        thread->setOperationQueue(_queue.get());
        thread->start();
        threads.push_back( thread );
    }

    OE_NOTICE << "Startup time " << osg::Timer::instance()->delta_s( startTime, endTime ) << std::endl;

    
    // Add the root keys to the queue
    for (unsigned int i = 0; i < keys.size(); ++i)
    {
        //processKey( mapf, keys[i] );
        _queue.get()->add( new CacheTileOperation( mapf, *this, keys[i]) );
    }    

    bool done = false;
    while (!done)
    {
        OpenThreads::Thread::microSleep(500000); // sleep for half a second
        done = true;
        if (_queue->getNumOperationsInQueue() > 0)
        {
            done = false;
            continue;
        }
        else
        {
            // Make sure no threads are currently working on an operation, which actually might add MORE operations since we are doing a quadtree traversal
            for (unsigned int i = 0; i < threads.size(); i++)
            {
                if (threads[i]->getCurrentOperation())
                {
                    done = false;
                    continue;
                }
            }
        }
    }    

    _total = _completed;

    if ( _progress.valid()) _progress->reportProgress(_completed, _total, 0, 1, "Finished");
}
Ejemplo n.º 5
0
void CacheSeed::seed( Map* map )
{
    if ( !map->getCache() )
    {
        OE_WARN << LC << "Warning: No cache defined; aborting." << std::endl;
        return;
    }

    std::vector<TileKey> keys;
    map->getProfile()->getRootKeys(keys);

    //Add the map's entire extent if we don't have one specified.
    if (_extents.empty())
    {
        addExtent( map->getProfile()->getExtent() );
    }

    bool hasCaches = false;
    int src_min_level = INT_MAX;
    unsigned int src_max_level = 0;

    MapFrame mapf( map, Map::TERRAIN_LAYERS, "CacheSeed::seed" );

    //Assumes the the TileSource will perform the caching for us when we call createImage
    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); i++ )
    {
        ImageLayer* layer = i->get();
        TileSource* src   = layer->getTileSource();

        const ImageLayerOptions& opt = layer->getImageLayerOptions();

        if ( layer->isCacheOnly() )
        {
            OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" is set to cache-only; skipping." << std::endl;
        }
        else if ( !src )
        {
            OE_WARN << "Warning: Layer \"" << layer->getName() << "\" could not create TileSource; skipping." << std::endl;
        }
        //else if ( src->getCachePolicyHint(0L) == CachePolicy::NO_CACHE )
        //{
        //    OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" does not support seeding; skipping." << std::endl;
        //}
        else if ( !layer->getCache() )
        {
            OE_WARN << LC << "Notice: Layer \"" << layer->getName() << "\" has no cache defined; skipping." << std::endl;
        }
        else
        {
            hasCaches = true;

            if (opt.minLevel().isSet() && (int)opt.minLevel().get() < src_min_level)
                src_min_level = opt.minLevel().get();
            if (opt.maxLevel().isSet() && opt.maxLevel().get() > src_max_level)
                src_max_level = opt.maxLevel().get();
        }
    }

    for( ElevationLayerVector::const_iterator i = mapf.elevationLayers().begin(); i != mapf.elevationLayers().end(); i++ )
    {
        ElevationLayer* layer = i->get();
        TileSource*     src   = layer->getTileSource();
        const ElevationLayerOptions& opt = layer->getElevationLayerOptions();

        if ( layer->isCacheOnly() )
        {
            OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" is set to cache-only; skipping." << std::endl;
        }
        else if (!src)
        {
            OE_WARN << "Warning: Layer \"" << layer->getName() << "\" could not create TileSource; skipping." << std::endl;
        }
        //else if ( src->getCachePolicyHint(0L) == CachePolicy::NO_CACHE )
        //{
        //    OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" does not support seeding; skipping." << std::endl;
        //}
        else if ( !layer->getCache() )
        {
            OE_WARN << LC << "Notice: Layer \"" << layer->getName() << "\" has no cache defined; skipping." << std::endl;
        }
        else
        {
            hasCaches = true;

            if (opt.minLevel().isSet() && (int)opt.minLevel().get() < src_min_level)
                src_min_level = opt.minLevel().get();
            if (opt.maxLevel().isSet() && opt.maxLevel().get() > src_max_level)
                src_max_level = opt.maxLevel().get();
        }
    }

    if ( !hasCaches )
    {
        OE_WARN << LC << "There are either no caches defined in the map, or no sources to cache; aborting." << std::endl;
        return;
    }

    if ( src_max_level > 0 && src_max_level < _maxLevel )
    {
        _maxLevel = src_max_level;
    }

    OE_NOTICE << LC << "Maximum cache level will be " << _maxLevel << std::endl;

    //Estimate the number of tiles
    _total = 0;    
    CacheEstimator est;
    est.setMinLevel( _minLevel );
    est.setMaxLevel( _maxLevel );
    est.setProfile( map->getProfile() ); 
    for (unsigned int i = 0; i < _extents.size(); i++)
    {                
        est.addExtent( _extents[ i ] );
    } 
    _total = est.getNumTiles();

    OE_INFO << "Processing ~" << _total << " tiles" << std::endl;

    for (unsigned int i = 0; i < keys.size(); ++i)
    {
        processKey( mapf, keys[i] );
    }

    _total = _completed;

    if ( _progress.valid()) _progress->reportProgress(_completed, _total, 0, 1, "Finished");
}
Ejemplo n.º 6
0
Config
EarthFileSerializer2::serialize(const MapNode* input, const std::string& referrer) const
{
    Config mapConf("map");
    mapConf.set("version", "2");

    if ( !input || !input->getMap() )
        return mapConf; 

    const Map* map = input->getMap();
    MapFrame mapf( map, Map::ENTIRE_MODEL );

    // the map and node options:
    Config optionsConf = map->getInitialMapOptions().getConfig();
    optionsConf.merge( input->getMapNodeOptions().getConfig() );
    mapConf.add( "options", optionsConf );

    // the layers
    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
    {
        ImageLayer* layer = i->get();
        //Config layerConf = layer->getInitialOptions().getConfig();
        Config layerConf = layer->getImageLayerOptions().getConfig();
        layerConf.set("name", layer->getName());
        layerConf.set("driver", layer->getInitialOptions().driver()->getDriver());        
        mapConf.add( "image", layerConf );
    }

    for( ElevationLayerVector::const_iterator i = mapf.elevationLayers().begin(); i != mapf.elevationLayers().end(); ++i )
    {
        ElevationLayer* layer = i->get();
        //Config layerConf = layer->getInitialOptions().getConfig();
        Config layerConf = layer->getElevationLayerOptions().getConfig();
        layerConf.set("name", layer->getName());
        layerConf.set("driver", layer->getInitialOptions().driver()->getDriver());        
        mapConf.add( "elevation", layerConf );
    }

    for( ModelLayerVector::const_iterator i = mapf.modelLayers().begin(); i != mapf.modelLayers().end(); ++i )
    {
        ModelLayer* layer = i->get();
        Config layerConf = layer->getModelLayerOptions().getConfig();
        layerConf.set("name", layer->getName());
        layerConf.set("driver", layer->getModelLayerOptions().driver()->getDriver());
        mapConf.add( "model", layerConf );
    }

    Config ext = input->externalConfig();
    if ( !ext.empty() )
    {
        ext.key() = "extensions";
        mapConf.add( ext );
    }

#if 1 // removed until it can be debugged.
    // Re-write pathnames in the Config so they are relative to the new referrer.
    if ( _rewritePaths && !referrer.empty() )
    {
        RewritePaths rewritePaths( referrer );
        rewritePaths.setRewriteAbsolutePaths( _rewriteAbsolutePaths );
        rewritePaths.apply( mapConf );
    }
#endif

    return mapConf;
}
Ejemplo n.º 7
0
void
TileBuilder::createTile(const TileKey&      key, 
                        bool                parallelize, 
                        osg::ref_ptr<Tile>& out_tile, 
                        bool&               out_hasRealData,
                        bool&               out_hasLodBlendedLayers )
{
    MapFrame mapf( _map, Map::MASKED_TERRAIN_LAYERS );

    SourceRepo repo;

    // init this to false, then search for real data. "Real data" is data corresponding
    // directly to the key, as opposed to fallback data, which is derived from a lower
    // LOD key.
    out_hasRealData = false;
    out_hasLodBlendedLayers = false;

    const MapInfo& mapInfo = mapf.getMapInfo();

    // If we need more than one layer, fetch them in parallel.
    // TODO: change the test based on isKeyValid total.
    if ( parallelize && (mapf.imageLayers().size() + mapf.elevationLayers().size() > 1) )
    {
        // count the valid layers.
        int jobCount = 0;

        for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
        {
            if ( i->get()->isKeyValid( key ) )
                ++jobCount;

            if ( i->get()->getImageLayerOptions().lodBlending() == true )
                out_hasLodBlendedLayers = true;
        }

        if ( mapf.elevationLayers().size() > 0 )
            ++jobCount;

        // A thread job monitoring event:
        Threading::MultiEvent semaphore( jobCount );

        // Start the image layer jobs:
        for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
        {
            ImageLayer* layer = i->get();
            if ( layer->isKeyValid(key) )
            {
                ParallelTask<BuildColorLayer>* j = new ParallelTask<BuildColorLayer>( &semaphore );
                j->init( key, layer, mapInfo, _terrainOptions, repo );
                j->setPriority( -(float)key.getLevelOfDetail() );
                _service->add( j );
            }
        }

        // If we have elevation layers, start an elevation job as well. Otherwise just create an
        // empty one while we're waiting for the images to load.
        if ( mapf.elevationLayers().size() > 0 )
        {
            ParallelTask<BuildElevLayer>* ej = new ParallelTask<BuildElevLayer>( &semaphore );
            ej->init( key, mapf, _terrainOptions, repo );
            ej->setPriority( -(float)key.getLevelOfDetail() );
            _service->add( ej );
        }
        else
        {
            BuildElevLayer build;
            build.init( key, mapf, _terrainOptions, repo );
            build.execute();
        }

        // Wait for all the jobs to finish.
        semaphore.wait();
    }
    
    // Fetch the image data serially:
    else
    {
        // gather all the image layers serially.
        for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
        {
            ImageLayer* layer = i->get();
            //if ( layer->isKeyValid(key) )  // Wrong. no guarantee key is in the same profile.

            if ( layer->getEnabled() )
            {
                BuildColorLayer build;
                build.init( key, layer, mapInfo, _terrainOptions, repo );
                build.execute();

                if ( layer->getImageLayerOptions().lodBlending() == true )
                    out_hasLodBlendedLayers = true;
            }
        }
        
        // make an elevation layer.
        BuildElevLayer build;
        build.init( key, mapf, _terrainOptions, repo );
        build.execute();
    }

    // Bail out now if there's no data to be had.
    if ( repo._colorLayers.size() == 0 && !repo._elevLayer.getHFLayer() )
    {
        return;
    }

    // OK we are making a tile, so if there's no heightfield yet, make an empty one.
    if ( !repo._elevLayer.getHFLayer() )
    {
        osg::HeightField* hf = HeightFieldUtils::createReferenceHeightField( key.getExtent(), 8, 8 );
        //osg::HeightField* hf = key.getProfile()->getVerticalSRS()->createReferenceHeightField( key.getExtent(), 8, 8 );
        osgTerrain::HeightFieldLayer* hfLayer = new osgTerrain::HeightFieldLayer( hf );
        hfLayer->setLocator( GeoLocator::createForKey(key, mapInfo) );
        repo._elevLayer = CustomElevLayer( hfLayer, true );
    }

    // Now, if there are any color layers that did not get built, create them with an empty
    // image so the shaders have something to draw.
    osg::ref_ptr<osg::Image> emptyImage;
    osgTerrain::Locator* locator = repo._elevLayer.getHFLayer()->getLocator();

    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
    {
        ImageLayer* layer = i->get();

        if ( layer->getEnabled() && !layer->isKeyValid(key) )
        {
            if ( !emptyImage.valid() )
                emptyImage = ImageUtils::createEmptyImage();

            repo.add( CustomColorLayer(
                layer,
                emptyImage.get(),
                locator,
                key.getLevelOfDetail(),
                key,
                true ) );
        }
    }

    //osg::Vec3dArray* maskBounds = 0L;
    //osgEarth::MaskLayer* mask = mapf.getTerrainMaskLayer();
    //if (mask)
    //  maskBounds = mask->getOrCreateBoundary();

    // Ready to create the actual tile.
    AssembleTile assemble;
    assemble.init( key, mapInfo, _terrainOptions, repo, mapf.terrainMaskLayers() );
    assemble.execute();

    if (!out_hasRealData)
    {
        // Check the results and see if we have any real data.
        for( ColorLayersByUID::const_iterator i = repo._colorLayers.begin(); i != repo._colorLayers.end(); ++i )
        {
            if ( !i->second.isFallbackData() ) 
            {
                out_hasRealData = true;
                break;
            }
        }
    }

    if ( !out_hasRealData && !repo._elevLayer.isFallbackData() )
    {
        out_hasRealData = true;
    }

    out_tile = assemble._tile;
}
Ejemplo n.º 8
0
void CacheSeed::seed( Map* map )
{
    if ( !map->getCache() )
    {
        OE_WARN << LC << "Warning: No cache defined; aborting." << std::endl;
        return;
    }

    std::vector<TileKey> keys;
    map->getProfile()->getRootKeys(keys);

    //Add the map's entire extent if we don't have one specified.
    if (_extents.empty())
    {
        addExtent( map->getProfile()->getExtent() );
    }

    bool hasCaches = false;
    int src_min_level = INT_MAX;
    unsigned int src_max_level = 0;

    MapFrame mapf( map, Map::TERRAIN_LAYERS, "CacheSeed::seed" );

    //Assumes the the TileSource will perform the caching for us when we call createImage
    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); i++ )
    {
        ImageLayer* layer = i->get();
        TileSource* src   = layer->getTileSource();

        const ImageLayerOptions& opt = layer->getImageLayerOptions();

        if ( layer->isCacheOnly() )
        {
            OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" is set to cache-only; skipping." << std::endl;
        }
        else if ( !src )
        {
            OE_WARN << "Warning: Layer \"" << layer->getName() << "\" could not create TileSource; skipping." << std::endl;
        }
        //else if ( src->getCachePolicyHint(0L) == CachePolicy::NO_CACHE )
        //{
        //    OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" does not support seeding; skipping." << std::endl;
        //}
        else if ( !layer->getCache() )
        {
            OE_WARN << LC << "Notice: Layer \"" << layer->getName() << "\" has no cache defined; skipping." << std::endl;
        }
        else
        {
            hasCaches = true;

            if (opt.minLevel().isSet() && (int)opt.minLevel().get() < src_min_level)
                src_min_level = opt.minLevel().get();
            if (opt.maxLevel().isSet() && opt.maxLevel().get() > src_max_level)
                src_max_level = opt.maxLevel().get();
        }
    }

    for( ElevationLayerVector::const_iterator i = mapf.elevationLayers().begin(); i != mapf.elevationLayers().end(); i++ )
    {
        ElevationLayer* layer = i->get();
        TileSource*     src   = layer->getTileSource();
        const ElevationLayerOptions& opt = layer->getElevationLayerOptions();

        if ( layer->isCacheOnly() )
        {
            OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" is set to cache-only; skipping." << std::endl;
        }
        else if (!src)
        {
            OE_WARN << "Warning: Layer \"" << layer->getName() << "\" could not create TileSource; skipping." << std::endl;
        }
        //else if ( src->getCachePolicyHint(0L) == CachePolicy::NO_CACHE )
        //{
        //    OE_WARN << LC << "Warning: Layer \"" << layer->getName() << "\" does not support seeding; skipping." << std::endl;
        //}
        else if ( !layer->getCache() )
        {
            OE_WARN << LC << "Notice: Layer \"" << layer->getName() << "\" has no cache defined; skipping." << std::endl;
        }
        else
        {
            hasCaches = true;

            if (opt.minLevel().isSet() && (int)opt.minLevel().get() < src_min_level)
                src_min_level = opt.minLevel().get();
            if (opt.maxLevel().isSet() && opt.maxLevel().get() > src_max_level)
                src_max_level = opt.maxLevel().get();
        }
    }

    if ( !hasCaches )
    {
        OE_WARN << LC << "There are either no caches defined in the map, or no sources to cache; aborting." << std::endl;
        return;
    }

    if ( src_max_level > 0 && src_max_level < _maxLevel )
    {
        _maxLevel = src_max_level;
    }

    OE_NOTICE << LC << "Maximum cache level will be " << _maxLevel << std::endl;

    osg::Timer_t startTime = osg::Timer::instance()->tick();
    //Estimate the number of tiles
    _total = 0;    

    for (unsigned int level = _minLevel; level <= _maxLevel; level++)
    {
        double coverageRatio = 0.0;

        if (_extents.empty())
        {
            unsigned int wide, high;
            map->getProfile()->getNumTiles( level, wide, high );
            _total += (wide * high);
        }
        else
        {
            for (std::vector< GeoExtent >::const_iterator itr = _extents.begin(); itr != _extents.end(); itr++)
            {
                const GeoExtent& extent = *itr;
                double boundsArea = extent.area();

                TileKey ll = map->getProfile()->createTileKey(extent.xMin(), extent.yMin(), level);
                TileKey ur = map->getProfile()->createTileKey(extent.xMax(), extent.yMax(), level);

                if (!ll.valid() || !ur.valid()) continue;
                
                int tilesWide = ur.getTileX() - ll.getTileX() + 1;
                int tilesHigh = ll.getTileY() - ur.getTileY() + 1;
                int tilesAtLevel = tilesWide * tilesHigh;
                //OE_NOTICE << "Tiles at level " << level << "=" << tilesAtLevel << std::endl;

                /*
                bool hasData = false;
                
                for (ImageLayerVector::const_iterator itr = mapf.imageLayers().begin(); itr != mapf.imageLayers().end(); itr++)
                {
                    TileSource* src = itr->get()->getTileSource();
                    if (src)
                    {
                        if (src->hasDataAtLOD( level ))
                        {
                            //Compute the percent coverage of this dataset on the current extent
                            if (src->getDataExtents().size() > 0)
                            {
                                double cov = 0.0;
                                for (unsigned int j = 0; j < src->getDataExtents().size(); j++)
                                {
                                    GeoExtent b = src->getDataExtents()[j].transform( extent.getSRS());
                                    GeoExtent intersection = b.intersectionSameSRS( extent );
                                    if (intersection.isValid())
                                    {
                                        double coverage = intersection.area() / boundsArea;
                                        cov += coverage; //Assumes the extents aren't overlapping                            
                                    }
                                }
                                if (coverageRatio < cov) coverageRatio = cov;
                            }
                            else
                            {
                                //We have no way of knowing how much coverage we have
                                coverageRatio = 1.0;
                            }
                            hasData = true;
                            break;
                        }
                    }
                }

                for (ElevationLayerVector::const_iterator itr = mapf.elevationLayers().begin(); itr != mapf.elevationLayers().end(); itr++)
                {
                    TileSource* src = itr->get()->getTileSource();
                    if (src)
                    {
                        if (src->hasDataAtLOD( level ))
                        {
                            //Compute the percent coverage of this dataset on the current extent
                            if (src->getDataExtents().size() > 0)
                            {
                                double cov = 0.0;
                                for (unsigned int j = 0; j < src->getDataExtents().size(); j++)
                                {
                                    GeoExtent b = src->getDataExtents()[j].transform( extent.getSRS());
                                    GeoExtent intersection = b.intersectionSameSRS( extent );
                                    if (intersection.isValid())
                                    {
                                        double coverage = intersection.area() / boundsArea;
                                        cov += coverage; //Assumes the extents aren't overlapping                            
                                    }
                                }
                                if (coverageRatio < cov) coverageRatio = cov;
                            }
                            else
                            {
                                //We have no way of knowing how much coverage we have
                                coverageRatio = 1.0;
                            }
                            hasData = true;
                            break;
                        }
                    }
                }

                //Adjust the coverage ratio by a fudge factor to try to keep it from being too small,
                //tiles are either processed or not and the ratio is exact so will cover tiles partially
                //and potentially be too small
                double adjust = 4.0;
                coverageRatio = osg::clampBetween(coverageRatio * adjust, 0.0, 1.0);                

                //OE_NOTICE << level <<  " CoverageRatio = " << coverageRatio << std::endl;

                if (hasData)
                {
                    _total += (int)ceil(coverageRatio * (double)tilesAtLevel );
                }
                */
                _total += tilesAtLevel;
            }
        }
    }

    osg::Timer_t endTime = osg::Timer::instance()->tick();
    //OE_NOTICE << "Counted tiles in " << osg::Timer::instance()->delta_s(startTime, endTime) << " s" << std::endl;

    OE_INFO << "Processing ~" << _total << " tiles" << std::endl;

    for (unsigned int i = 0; i < keys.size(); ++i)
    {
        processKey( mapf, keys[i] );
    }

    _total = _completed;

    if ( _progress.valid()) _progress->reportProgress(_completed, _total, 0, 1, "Finished");
}
Ejemplo n.º 9
0
void
TileModelFactory::createTileModel(const TileKey&           key, 
                                  osg::ref_ptr<TileModel>& out_model,
                                  bool&                    out_hasRealData,
                                  bool&                    out_hasLodBlendedLayers )
{
    MapFrame mapf( _map, Map::MASKED_TERRAIN_LAYERS );
    
    const MapInfo& mapInfo = mapf.getMapInfo();

    osg::ref_ptr<TileModel> model = new TileModel();
    model->_tileKey = key;
    model->_tileLocator = GeoLocator::createForKey(key, mapInfo);

    // init this to false, then search for real data. "Real data" is data corresponding
    // directly to the key, as opposed to fallback data, which is derived from a lower
    // LOD key.
    out_hasRealData = false;
    out_hasLodBlendedLayers = false;
    
    // Fetch the image data and make color layers.
    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
    {
        ImageLayer* layer = i->get();

        if ( layer->getEnabled() )
        {
            BuildColorData build;
            build.init( key, layer, mapInfo, _terrainOptions, model.get() );
            build.execute();

            if ( layer->getImageLayerOptions().lodBlending() == true )
            {
                out_hasLodBlendedLayers = true;
            }
        }
    }

    // make an elevation layer.
    BuildElevationData build;
    build.init( key, mapf, _terrainOptions, model.get(), _hfCache );
    build.execute();


    // Bail out now if there's no data to be had.
    if ( model->_colorData.size() == 0 && !model->_elevationData.getHFLayer() )
    {
        return;
    }

    // OK we are making a tile, so if there's no heightfield yet, make an empty one.
    if ( !model->_elevationData.getHFLayer() )
    {
        osg::HeightField* hf = HeightFieldUtils::createReferenceHeightField( key.getExtent(), 8, 8 );
        osgTerrain::HeightFieldLayer* hfLayer = new osgTerrain::HeightFieldLayer( hf );
        hfLayer->setLocator( GeoLocator::createForKey(key, mapInfo) );
        model->_elevationData = TileModel::ElevationData( hfLayer, true );
    }

    // Now, if there are any color layers that did not get built, create them with an empty
    // image so the shaders have something to draw.
    osg::ref_ptr<osg::Image> emptyImage;
    osgTerrain::Locator* locator = model->_elevationData.getHFLayer()->getLocator();

    for( ImageLayerVector::const_iterator i = mapf.imageLayers().begin(); i != mapf.imageLayers().end(); ++i )
    {
        ImageLayer* layer = i->get();

        if ( layer->getEnabled() && !layer->isKeyValid(key) )
        {
            if ( !emptyImage.valid() )
                emptyImage = ImageUtils::createEmptyImage();

            model->_colorData[i->get()->getUID()] = TileModel::ColorData(
                layer,
                emptyImage.get(),
                locator,
                key.getLevelOfDetail(),
                key,
                true );
        }
    }

    // Ready to create the actual tile.
    //AssembleTile assemble;
    //assemble.init( key, mapInfo, _terrainOptions, model.get(), mapf.terrainMaskLayers() );
    //assemble.execute();

    // if we're using LOD blending, find and add the parent's state set.
    if ( out_hasLodBlendedLayers && key.getLevelOfDetail() > 0 && _liveTiles.valid() )
    {
        osg::ref_ptr<TileNode> parent;
        if ( _liveTiles->get( key.createParentKey(), parent ) )
        {
            model->_parentStateSet = parent->getPublicStateSet();
        }
    }

    if (!out_hasRealData)
    {
        // Check the results and see if we have any real data.
        for( TileModel::ColorDataByUID::const_iterator i = model->_colorData.begin(); i != model->_colorData.end(); ++i )
        {
            if ( !i->second.isFallbackData() ) 
            {
                out_hasRealData = true;
                break;
            }
        }
    }

    if ( !out_hasRealData && !model->_elevationData.isFallbackData() )
    {
        out_hasRealData = true;
    }

    out_model = model.release();
    //out_tile = assemble._node;
}
Ejemplo n.º 10
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;
}