void
TerrainEngineNode::preInitialize( const Map* map, const TerrainOptions& options )
{
    _map = map;
    
    // fire up a terrain utility interface
    _terrainInterface = new Terrain( this, map->getProfile(), map->isGeocentric(), options );

    // set up the CSN values   
    _map->getProfile()->getSRS()->populateCoordinateSystemNode( this );
    
    // OSG's CSN likes a NULL ellipsoid to represent projected mode.
    if ( !_map->isGeocentric() )
        this->setEllipsoidModel( NULL );
    
    // install the proper layer composition technique:
    _texCompositor = new TextureCompositor();

    // then register the callback so we can process further map model changes
    _map->addMapCallback( new TerrainEngineNodeCallbackProxy( this ) );

    // enable backface culling
    osg::StateSet* set = getOrCreateStateSet();
    set->setMode( GL_CULL_FACE, 1 );

    if ( options.enableMercatorFastPath().isSet() )
    {
        OE_INFO 
            << LC << "Mercator fast path " 
            << (options.enableMercatorFastPath()==true? "enabled" : "DISABLED") << std::endl;
    }

    _initStage = INIT_PREINIT_COMPLETE;
}
Esempio n. 2
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void
TerrainEngineNode::preInitialize( const Map* map, const TerrainOptions& options )
{
    _map = map;
    
    // fire up a terrain utility interface
    _terrainInterface = new Terrain( this, map->getProfile(), map->isGeocentric(), options );

    // set up the CSN values   
    _map->getProfile()->getSRS()->populateCoordinateSystemNode( this );
    
    // OSG's CSN likes a NULL ellipsoid to represent projected mode.
    if ( !_map->isGeocentric() )
        this->setEllipsoidModel( NULL );
    
    // install the proper layer composition technique:
    _texCompositor = new TextureCompositor( options );

    // prime the compositor with pre-existing image layers:
    MapFrame mapf(map, Map::IMAGE_LAYERS);
    for( unsigned i=0; i<mapf.imageLayers().size(); ++i )
    {
        _texCompositor->applyMapModelChange( MapModelChange(
            MapModelChange::ADD_IMAGE_LAYER,
            mapf.getRevision(),
            mapf.getImageLayerAt(i),
            i ) );
    }

    // then register the callback so we can process further map model changes
    _map->addMapCallback( new TerrainEngineNodeCallbackProxy( this ) );

    // enable backface culling
    osg::StateSet* set = getOrCreateStateSet();
    //set->setAttributeAndModes( new osg::CullFace( osg::CullFace::BACK ), osg::StateAttribute::ON );
    set->setMode( GL_CULL_FACE, 1 );

    // elevation uniform
    // NOTE: wrong...this should be per-CullVisitor...consider putting in the Culling::CullUserData
    _cameraElevationUniform = new osg::Uniform( osg::Uniform::FLOAT, "osgearth_CameraElevation" );
    _cameraElevationUniform->set( 0.0f );
    set->addUniform( _cameraElevationUniform.get() );
    
    set->getOrCreateUniform( "osgearth_ImageLayerAttenuation", osg::Uniform::FLOAT )->set(
        *options.attentuationDistance() );

    if ( options.enableMercatorFastPath().isSet() )
    {
        OE_INFO 
            << LC << "Mercator fast path " 
            << (options.enableMercatorFastPath()==true? "enabled" : "DISABLED") << std::endl;
    }

    _initStage = INIT_PREINIT_COMPLETE;
}
Esempio n. 3
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void
RexTerrainEngineNode::preInitialize( const Map* map, const TerrainOptions& options )
{
    // Force the mercator fast path off, since REX does not support it yet.
    TerrainOptions myOptions = options;
    myOptions.enableMercatorFastPath() = false;

    TerrainEngineNode::preInitialize( map, myOptions );
}
void
TerrainEngineNode::preInitialize( const Map* map, const TerrainOptions& options )
{
    _map = map;
    
    // fire up a terrain utility interface
    _terrainInterface = new Terrain( this, map->getProfile(), map->isGeocentric(), options );

    // set up the CSN values   
    _map->getProfile()->getSRS()->populateCoordinateSystemNode( this );
    
    // OSG's CSN likes a NULL ellipsoid to represent projected mode.
    if ( !_map->isGeocentric() )
        this->setEllipsoidModel( NULL );
    
    // install an object to manage texture image unit usage:
    _texCompositor = new TextureCompositor();
    std::set<int> offLimits = osgEarth::Registry::instance()->getOffLimitsTextureImageUnits();
    for(std::set<int>::const_iterator i = offLimits.begin(); i != offLimits.end(); ++i)
        _texCompositor->setTextureImageUnitOffLimits( *i );

    // then register the callback so we can process further map model changes
    _map->addMapCallback( new TerrainEngineNodeCallbackProxy( this ) );

    // apply render bin if necessary
    if ( options.binNumber().isSet() )
    {
        osg::StateSet* set = getOrCreateStateSet();
        set->setRenderBinDetails( options.binNumber().get(), "RenderBin" );
    }

    if ( options.enableMercatorFastPath().isSet() )
    {
        OE_INFO 
            << LC << "Mercator fast path " 
            << (options.enableMercatorFastPath()==true? "enabled" : "DISABLED") << std::endl;
    }
    
    // a default factory - this is the object that creates the data model for
    // each terrain tile.
    _tileModelFactory = new TerrainTileModelFactory(options);

    _initStage = INIT_PREINIT_COMPLETE;
}
Esempio n. 5
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void
RexTerrainEngineNode::postInitialize( const Map* map, const TerrainOptions& options )
{
    // Force the mercator fast path off, since REX does not support it yet.
    TerrainOptions myOptions = options;
    myOptions.enableMercatorFastPath() = false;

    TerrainEngineNode::postInitialize( map, myOptions );

    // Initialize the map frames. We need one for the update thread and one for the
    // cull thread. Someday we can detect whether these are actually the same thread
    // (depends on the viewer's threading mode).
    _update_mapf = new MapFrame( map, Map::ENTIRE_MODEL );

    // A callback for overriding bounding boxes for tiles
    _modifyBBoxCallback = new ModifyBoundingBoxCallback(*_update_mapf);

    // merge in the custom options:
    _terrainOptions.merge( myOptions );

    // morphing imagery LODs requires we bind parent textures to their own unit.
    if ( _terrainOptions.morphImagery() == true )
    {
        _requireParentTextures = true;
    }

    // Terrain morphing doesn't work in projected maps:
    if (map->getSRS()->isProjected())
    {
        _terrainOptions.morphTerrain() = false;
    }

    // if the envvar for tile expiration is set, overide the options setting
    const char* val = ::getenv("OSGEARTH_EXPIRATION_THRESHOLD");
    if ( val )
    {
        _terrainOptions.expirationThreshold() = as<unsigned>(val, _terrainOptions.expirationThreshold().get());
        OE_INFO << LC << "Expiration threshold set by env var = " << _terrainOptions.expirationThreshold().get() << "\n";
    }

    // if the envvar for hires prioritization is set, override the options setting
    const char* hiresFirst = ::getenv("OSGEARTH_HIGH_RES_FIRST");
    if ( hiresFirst )
    {
        _terrainOptions.highResolutionFirst() = true;
    }

    // check for normal map generation (required for lighting).
    if ( _terrainOptions.normalMaps() == true )
    {
        this->_requireNormalTextures = true;
    }

    // A shared registry for tile nodes in the scene graph. Enable revision tracking
    // if requested in the options. Revision tracking lets the registry notify all
    // live tiles of the current map revision so they can inrementally update
    // themselves if necessary.
    _liveTiles = new TileNodeRegistry("live");
    _liveTiles->setMapRevision( _update_mapf->getRevision() );

    // A resource releaser that will call releaseGLObjects() on expired objects.
    _releaser = new ResourceReleaser();
    this->addChild(_releaser.get());

    // A shared geometry pool.
    _geometryPool = new GeometryPool( _terrainOptions );
    _geometryPool->setReleaser( _releaser.get());
    this->addChild( _geometryPool.get() );

    // Make a tile loader
    PagerLoader* loader = new PagerLoader( this );
    loader->setNumLODs(_terrainOptions.maxLOD().getOrUse(DEFAULT_MAX_LOD));
    loader->setMergesPerFrame( _terrainOptions.mergesPerFrame().get() );
    for (std::vector<RexTerrainEngineOptions::LODOptions>::const_iterator i = _terrainOptions.lods().begin(); i != _terrainOptions.lods().end(); ++i) {
        if (i->_lod.isSet()) {
            loader->setLODPriorityScale(i->_lod.get(), i->_priorityScale.getOrUse(1.0f));
            loader->setLODPriorityOffset(i->_lod.get(), i->_priorityOffset.getOrUse(0.0f));
        }
    }

    _loader = loader;
    this->addChild( _loader.get() );

    // Make a tile unloader
    _unloader = new UnloaderGroup( _liveTiles.get() );
    _unloader->setThreshold( _terrainOptions.expirationThreshold().get() );
    _unloader->setReleaser(_releaser.get());
    this->addChild( _unloader.get() );
    
    // handle an already-established map profile:
    MapInfo mapInfo( map );
    if ( _update_mapf->getProfile() )
    {
        // NOTE: this will initialize the map with the startup layers
        onMapInfoEstablished( mapInfo );
    }

    // install a layer callback for processing further map actions:
    map->addMapCallback( new RexTerrainEngineNodeMapCallbackProxy(this) );

    // Prime with existing layers:
    _batchUpdateInProgress = true;

    ElevationLayerVector elevationLayers;
    map->getLayers( elevationLayers );
    for( ElevationLayerVector::const_iterator i = elevationLayers.begin(); i != elevationLayers.end(); ++i )
        addElevationLayer( i->get() );

    ImageLayerVector imageLayers;
    map->getLayers( imageLayers );
    for( ImageLayerVector::iterator i = imageLayers.begin(); i != imageLayers.end(); ++i )
        addTileLayer( i->get() );

    _batchUpdateInProgress = false;

    // set up the initial shaders
    updateState();

    // register this instance to the osgDB plugin can find it.
    registerEngine( this );

    // now that we have a map, set up to recompute the bounds
    dirtyBound();
}