示例#1
0
void
MGRSGraticule::setUpDefaultStyles()
{
    if (!options().gzdStyle().isSet())
    {
        LineSymbol* line = options().gzdStyle()->getOrCreate<LineSymbol>();
        line->stroke()->color() = Color::Gray;
        line->stroke()->width() = 1.0;
        line->tessellation() = 20;

        TextSymbol* text = options().gzdStyle()->getOrCreate<TextSymbol>();
        text->fill()->color() = Color(Color::White, 0.3f);
        text->halo()->color() = Color(Color::Black, 0.2f);
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
    }

    if (!options().sqidStyle().isSet())
    {
        LineSymbol* line = options().sqidStyle()->getOrCreate<LineSymbol>();
        line->stroke()->color() = Color(Color::White, 0.5f);
        line->stroke()->stipplePattern() = 0x1111;

        TextSymbol* text = options().sqidStyle()->getOrCreate<TextSymbol>();
        text->fill()->color() = Color(Color::White, 0.3f);
        text->halo()->color() = Color(Color::Black, 0.1f);
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
    }
}
示例#2
0
/**
 * Creates a field schema that we'll later use as a labeling template for
 * TrackNode instances.
 */
void
createFieldSchema( TrackNodeFieldSchema& schema )
{
    // draw the track name above the icon:
    TextSymbol* nameSymbol = new TextSymbol();
    nameSymbol->pixelOffset()->set( 0, 2+ICON_SIZE/2 );
    nameSymbol->alignment() = TextSymbol::ALIGN_CENTER_BOTTOM;
    nameSymbol->halo()->color() = Color::Black;
    nameSymbol->size() = nameSymbol->size()->eval() + 2.0f;
    schema[FIELD_NAME] = TrackNodeField(nameSymbol, false); // false => static label (won't change after set)

    // draw the track coordinates below the icon:
    TextSymbol* posSymbol = new TextSymbol();
    posSymbol->pixelOffset()->set( 0, -2-ICON_SIZE/2 );
    posSymbol->alignment() = TextSymbol::ALIGN_CENTER_TOP;
    posSymbol->fill()->color() = Color::Yellow;
    posSymbol->size() = posSymbol->size()->eval() - 2.0f;
    schema[FIELD_POSITION] = TrackNodeField(posSymbol, true); // true => may change at runtime

    // draw some other field to the left:
    TextSymbol* numberSymbol = new TextSymbol();
    numberSymbol->pixelOffset()->set( -2-ICON_SIZE/2, 0 );
    numberSymbol->alignment() = TextSymbol::ALIGN_RIGHT_CENTER;
    schema[FIELD_NUMBER] = TrackNodeField(numberSymbol, false);
}
GraticuleLabelingEngine::GraticuleLabelingEngine(const SpatialReference* srs)
{
    _srs = srs;

    // Set up the symbology for x-axis labels
    TextSymbol* xText = _xLabelStyle.getOrCreate<TextSymbol>();
    xText->alignment() = TextSymbol::ALIGN_CENTER_BOTTOM;
    xText->halo()->color().set(0, 0, 0, 1);
    xText->declutter() = false;

    // Set up the symbology for y-axis labels
    TextSymbol* yText = _yLabelStyle.getOrCreate<TextSymbol>();
    yText->alignment() = TextSymbol::ALIGN_LEFT_BOTTOM;
    yText->halo()->color().set(0, 0, 0, 1);
    yText->declutter() = false;
}
示例#4
0
void createTrackSchema(TrackNodeFieldSchema& schema)
{
    // draw the track name above the icon:
    TextSymbol* nameSymbol = new TextSymbol();
    nameSymbol->pixelOffset()->set( 0, 2+TRACK_ICON_SIZE/2 );
    nameSymbol->alignment() = TextSymbol::ALIGN_CENTER_BOTTOM;
    nameSymbol->halo()->color() = Color::Black;
    schema[TRACK_FIELD_NAME] = TrackNodeField(nameSymbol, false);
}
示例#5
0
MGRSGraticule::MGRSGraticule( MapNode* mapNode ) :
    UTMGraticule( 0L )
{
    _mapNode = mapNode;
    init();

    if ( !_options->secondaryStyle().isSet() )
    {
        LineSymbol* line = _options->secondaryStyle()->getOrCreate<LineSymbol>();
        line->stroke()->color() = Color(Color::White, 0.5f);
        line->stroke()->stipple() = 0x1111;

        TextSymbol* text = _options->secondaryStyle()->getOrCreate<TextSymbol>();
        text->fill()->color() = Color(Color::White, 0.3f);
        text->halo()->color() = Color(Color::Black, 0.1f);
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
    }

    _minDepthOffset = DepthOffsetUtils::createMinOffsetUniform();
    _minDepthOffset->set( 11000.0f );
}
示例#6
0
void
GeodeticGraticule::initLabelPool(CameraData& cdata)
{
    const osgEarth::SpatialReference* srs = osgEarth::SpatialReference::create("wgs84");

    Style style;
    TextSymbol* text = style.getOrCreateSymbol<TextSymbol>();
    text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
    text->fill()->color() = options().labelColor().get();
    AltitudeSymbol* alt = style.getOrCreateSymbol<AltitudeSymbol>();
    alt->clamping() = AltitudeSymbol::CLAMP_TO_TERRAIN;

    unsigned int labelPoolSize = 8 * options().gridLines().get();
    for (unsigned int i = 0; i < labelPoolSize; i++)
    {
        GeoPoint pt(srs, 0,0,0);
        LabelNode* label = new LabelNode(_mapNode.get(), pt, "0,0");
        label->setDynamic(true);
        label->setStyle(style);
        cdata._labelPool.push_back(label);
    }
}
示例#7
0
void
UTMGraticule::rebuild()
{
    if (_root.valid() == false)
        return;

    osg::ref_ptr<const Map> map;
    if (!_map.lock(map))
        return;

    // clear everything out
    _root->removeChildren( 0, _root->getNumChildren() );

    // requires a geocentric map
    if ( !map->isGeocentric() )
    {
        OE_WARN << LC << "Projected map mode is not yet supported" << std::endl;
        return;
    }

    const Profile* mapProfile = map->getProfile();

    _profile = Profile::create(
        mapProfile->getSRS(),
        mapProfile->getExtent().xMin(),
        mapProfile->getExtent().yMin(),
        mapProfile->getExtent().xMax(),
        mapProfile->getExtent().yMax(),
        8, 4 );

    _featureProfile = new FeatureProfile(_profile->getSRS());

    //todo: do this right..
    osg::StateSet* set = this->getOrCreateStateSet();
    GLUtils::setLighting(set, 0);
    set->setMode( GL_BLEND, 1 );
    set->setMode( GL_CLIP_DISTANCE0, 1 );

    // set up default options if the caller did not supply them
    if ( !options().gzdStyle().isSet() )
    {
        options().gzdStyle() = Style();

        LineSymbol* line = options().gzdStyle()->getOrCreate<LineSymbol>();
        line->stroke()->color() = Color::Gray;
        line->stroke()->width() = 1.0;
        line->tessellation() = 20;

        TextSymbol* text = options().gzdStyle()->getOrCreate<TextSymbol>();
        text->fill()->color() = Color(Color::White, 0.3f);
        text->halo()->color() = Color(Color::Black, 0.2f);
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
    }
    
    // initialize the UTM sector tables for this profile.
    _utmData.rebuild(_profile.get());

    // now build the lateral tiles for the GZD level.
    for( UTMData::SectorTable::iterator i = _utmData.sectorTable().begin(); i != _utmData.sectorTable().end(); ++i )
    {
        osg::Node* tile = _utmData.buildGZDTile(i->first, i->second, options().gzdStyle().get(), _featureProfile.get(), map.get());
        if ( tile )
            _root->addChild( tile );
    }
}
示例#8
0
void
UTMGraticule::init()
{
    if ( !_mapNode.valid() )
    {
        OE_WARN << LC << "Illegal NULL map node" << std::endl;
        return;
    }

    if ( !_mapNode->isGeocentric() )
    {
        OE_WARN << LC << "Projected map mode is not yet supported" << std::endl;
        return;
    }

    // safely generate a unique ID for this graticule:
    _id = Registry::instance()->createUID();
    {
        Threading::ScopedMutexLock lock( s_graticuleMutex );
        s_graticuleRegistry[_id] = this;
    }

    const Profile* mapProfile = _mapNode->getMap()->getProfile();

    _profile = Profile::create(
        mapProfile->getSRS(),
        mapProfile->getExtent().xMin(),
        mapProfile->getExtent().yMin(),
        mapProfile->getExtent().xMax(),
        mapProfile->getExtent().yMax(),
        8, 4 );

    _featureProfile = new FeatureProfile(_profile->getSRS());

    //todo: do this right..
    osg::StateSet* set = this->getOrCreateStateSet();
    set->setMode( GL_LIGHTING, 0 );
    set->setMode( GL_BLEND, 1 );

    // set up default options if the caller did not supply them
    if ( !_options.isSet() )
    {
        _options->primaryStyle()= Style();

        LineSymbol* line = _options->primaryStyle()->getOrCreate<LineSymbol>();
        line->stroke()->color() = Color::Gray;
        line->stroke()->width() = 1.0;
        line->tessellation() = 20;

        AltitudeSymbol* alt = _options->primaryStyle()->getOrCreate<AltitudeSymbol>();
        //alt->verticalOffset() = NumericExpression(4900.0);

        TextSymbol* text = _options->primaryStyle()->getOrCreate<TextSymbol>();
        text->fill()->color() = Color(Color::White, 0.3f);
        text->halo()->color() = Color(Color::Black, 0.2f);
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
    }

    // make the shared depth attr:
    _depthAttribute = new osg::Depth(osg::Depth::LEQUAL,0,1,false);

    // this will intialize the graph.
    rebuild();
}
示例#9
0
//
// NOTE: run this sample from the repo/tests directory.
//
int main(int argc, char** argv)
{
    osg::ArgumentParser arguments(&argc,argv);

    if ( arguments.read("--help") )
        return usage( argv[0] );

    bool useRaster  = arguments.read("--rasterize");
    bool useOverlay = arguments.read("--overlay");
    bool useStencil = arguments.read("--stencil");
    bool useMem     = arguments.read("--mem");
    bool useLabels  = arguments.read("--labels");

    if ( useStencil )
        osg::DisplaySettings::instance()->setMinimumNumStencilBits( 8 );

    osgViewer::Viewer viewer(arguments);

    // Start by creating the map:
    Map* map = new Map();

    // Start with a basemap imagery layer; we'll be using the GDAL driver
    // to load a local GeoTIFF file:
    GDALOptions basemapOpt;
    basemapOpt.url() = "../data/world.tif";
    map->addImageLayer( new ImageLayer( ImageLayerOptions("basemap", basemapOpt) ) );

    // Next we add a feature layer. 
    OGRFeatureOptions featureOptions;
    if ( !useMem )
    {
        // Configures the feature driver to load the vectors from a shapefile:
        featureOptions.url() = "../data/world.shp";
    }
    else
    {
        // the --mem options tells us to just make an in-memory geometry:
        Ring* line = new Ring();
        line->push_back( osg::Vec3d(-60, 20, 0) );
        line->push_back( osg::Vec3d(-120, 20, 0) );
        line->push_back( osg::Vec3d(-120, 60, 0) );
        line->push_back( osg::Vec3d(-60, 60, 0) );
        featureOptions.geometry() = line;
    }

    // Define a style for the feature data. Since we are going to render the
    // vectors as lines, configure the line symbolizer:
    Style style;

    LineSymbol* ls = style.getOrCreateSymbol<LineSymbol>();
    ls->stroke()->color() = Color::Yellow;
    ls->stroke()->width() = 2.0f;

    // That's it, the map is ready; now create a MapNode to render the Map:
    MapNodeOptions mapNodeOptions;
    mapNodeOptions.enableLighting() = false;
    MapNode* mapNode = new MapNode( map, mapNodeOptions );

    osg::Group* root = new osg::Group();
    root->addChild( mapNode );
    viewer.setSceneData( root );
    viewer.setCameraManipulator( new EarthManipulator() );

    // Process cmdline args
    MapNodeHelper().parse(mapNode, arguments, &viewer, root, new LabelControl("Features Demo"));
   
    if (useStencil)
    {
        FeatureStencilModelOptions stencilOptions;
        stencilOptions.featureOptions() = featureOptions;
        stencilOptions.styles() = new StyleSheet();
        stencilOptions.styles()->addStyle( style );
        stencilOptions.enableLighting() = false;
        stencilOptions.depthTestEnabled() = false;
        ls->stroke()->width() = 0.1f;
        map->addModelLayer( new ModelLayer("my features", stencilOptions) );
    }
    else if (useRaster)
    {
        AGGLiteOptions rasterOptions;
        rasterOptions.featureOptions() = featureOptions;
        rasterOptions.styles() = new StyleSheet();
        rasterOptions.styles()->addStyle( style );
        map->addImageLayer( new ImageLayer("my features", rasterOptions) );
    }
    else //if (useGeom || useOverlay)
    {
        FeatureGeomModelOptions geomOptions;
        geomOptions.featureOptions() = featureOptions;
        geomOptions.styles() = new StyleSheet();
        geomOptions.styles()->addStyle( style );
        geomOptions.enableLighting() = false;

        ModelLayerOptions layerOptions( "my features", geomOptions );
        map->addModelLayer( new ModelLayer(layerOptions) );
    }

    if ( useLabels )
    {
        // set up symbology for drawing labels. We're pulling the label
        // text from the name attribute, and its draw priority from the
        // population attribute.
        Style labelStyle;

        TextSymbol* text = labelStyle.getOrCreateSymbol<TextSymbol>();
        text->content() = StringExpression( "[cntry_name]" );
        text->priority() = NumericExpression( "[pop_cntry]" );
        text->removeDuplicateLabels() = true;
        text->size() = 16.0f;
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
        text->fill()->color() = Color::White;
        text->halo()->color() = Color::DarkGray;

        // and configure a model layer:
        FeatureGeomModelOptions geomOptions;
        geomOptions.featureOptions() = featureOptions;
        geomOptions.styles() = new StyleSheet();
        geomOptions.styles()->addStyle( labelStyle );

        map->addModelLayer( new ModelLayer("labels", geomOptions) );
    }

    if ( !useStencil )
        viewer.getCamera()->addCullCallback( new osgEarth::Util::AutoClipPlaneCullCallback(mapNode) );

    // add some stock OSG handlers:
    viewer.addEventHandler(new osgViewer::StatsHandler());
    viewer.addEventHandler(new osgViewer::WindowSizeHandler());
    viewer.addEventHandler(new osgGA::StateSetManipulator(viewer.getCamera()->getOrCreateStateSet()));

    return viewer.run();
}
示例#10
0
void
MapInspectorUI::addTerrainLayer(TerrainLayer* layer,
                                MapNode*      mapNode)
{
    const Color colors[6] = {
        Color::White,
        Color::Yellow,
        Color::Cyan,
        Color::Lime,
        Color::Red,
        Color::Magenta
    };
    Color color = colors[(int)layer->getUID()%6];

    osg::ref_ptr<MultiGeometry> collection = new MultiGeometry();

    const DataExtentList& exlist = layer->getDataExtents();
    if (!exlist.empty())
    {
        for(DataExtentList::const_iterator i = exlist.begin(); i != exlist.end(); ++i)
        {
            const DataExtent& e = *i;
            Polygon* p = new Polygon();
            p->push_back( e.xMin(), e.yMin() );
            p->push_back( e.xMax(), e.yMin() );
            p->push_back( e.xMax(), e.yMax() );
            p->push_back( e.xMin(), e.yMax() );
            collection->add( p );
        }

        // poly:
        {
            Style style;
            style.getOrCreate<LineSymbol>()->stroke()->color() = color;
            style.getOrCreate<LineSymbol>()->stroke()->width() = 2;
            style.getOrCreate<AltitudeSymbol>()->clamping() = AltitudeSymbol::CLAMP_TO_TERRAIN;
            style.getOrCreate<AltitudeSymbol>()->technique() = AltitudeSymbol::TECHNIQUE_DRAPE;
            style.getOrCreate<RenderSymbol>()->lighting() = false;

            Feature* feature = new Feature(collection.get(), layer->getProfile()->getSRS(), style);
            FeatureNode* node = new FeatureNode( mapNode, feature );
            _annos->addChild( node );
        }

        // label:
        std::string text = 
            !layer->getName().empty()? layer->getName() :
            Stringify() << "Layer " << layer->getUID();

        {
            Style style;
            TextSymbol* ts = style.getOrCreate<TextSymbol>();
            ts->halo()->color().set(0,0,0,1);
            ts->declutter() = true;
            ts->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
        
            osg::Vec2d center = collection->getBounds().center2d();
            GeoPoint position(layer->getProfile()->getSRS(), center.x(), center.y(), 0.0, ALTMODE_ABSOLUTE);

            LabelNode* label = new LabelNode(mapNode, position, text, style);
            _annos->addChild( label );
        }

        unsigned r = this->getNumRows();
        setControl(0, r, new ui::LabelControl(text, color));
    }
}
示例#11
0
void
PlaceNode::init()
{
    Decluttering::setEnabled( this->getOrCreateStateSet(), true );

    //reset.
    //this->clearDecoration();
    getPositionAttitudeTransform()->removeChildren(0, getPositionAttitudeTransform()->getNumChildren());

    _geode = new osg::Geode();

    // ensure that (0,0,0) is the bounding sphere control/center point.
    // useful for things like horizon culling.
    _geode->setComputeBoundingSphereCallback(new ControlPointCallback());

    osg::Drawable* text = 0L;

    // If there's no explicit text, look to the text symbol for content.
    if ( _text.empty() && _style.has<TextSymbol>() )
    {
        _text = _style.get<TextSymbol>()->content()->eval();
    }

    osg::ref_ptr<const InstanceSymbol> instance = _style.get<InstanceSymbol>();

    // backwards compability, support for deprecated MarkerSymbol
    if ( !instance.valid() && _style.has<MarkerSymbol>() )
    {
        instance = _style.get<MarkerSymbol>()->convertToInstanceSymbol();
    }

    const IconSymbol* icon = instance->asIcon();

    if ( !_image.valid() )
    {
        URI imageURI;

        if ( icon )
        {
            if ( icon->url().isSet() )
            {
                imageURI = icon->url()->evalURI();
            }
            else if (icon->getImage())
            {
                _image = icon->getImage();
            }
        }

        if ( !imageURI.empty() )
        {
            _image = imageURI.getImage( _dbOptions.get() );
        }
    }

    osg::BoundingBox imageBox(0,0,0,0,0,0);

    // found an image; now format it:
    if ( _image.get() )
    {
        // Scale the icon if necessary
        double scale = 1.0;
        if ( icon && icon->scale().isSet() )
        {
            scale = icon->scale()->eval();
        }

        double s = scale * _image->s();
        double t = scale * _image->t();

        // this offset anchors the image at the bottom
        osg::Vec2s offset;
        if ( !icon || !icon->alignment().isSet() )
        {	
            // default to bottom center
            offset.set(0.0, t / 2.0);
        }
        else
        {	// default to bottom center
            switch (icon->alignment().value())
            {
            case IconSymbol::ALIGN_LEFT_TOP:
                offset.set((s / 2.0), -(t / 2.0));
                break;
            case IconSymbol::ALIGN_LEFT_CENTER:
                offset.set((s / 2.0), 0.0);
                break;
            case IconSymbol::ALIGN_LEFT_BOTTOM:
                offset.set((s / 2.0), (t / 2.0));
                break;
            case IconSymbol::ALIGN_CENTER_TOP:
                offset.set(0.0, -(t / 2.0));
                break;
            case IconSymbol::ALIGN_CENTER_CENTER:
                offset.set(0.0, 0.0);
                break;
            case IconSymbol::ALIGN_CENTER_BOTTOM:
            default:
                offset.set(0.0, (t / 2.0));
                break;
            case IconSymbol::ALIGN_RIGHT_TOP:
                offset.set(-(s / 2.0), -(t / 2.0));
                break;
            case IconSymbol::ALIGN_RIGHT_CENTER:
                offset.set(-(s / 2.0), 0.0);
                break;
            case IconSymbol::ALIGN_RIGHT_BOTTOM:
                offset.set(-(s / 2.0), (t / 2.0));
                break;
            }
        }

        // Apply a rotation to the marker if requested:
        double heading = 0.0;
        if ( icon && icon->heading().isSet() )
        {
            heading = osg::DegreesToRadians( icon->heading()->eval() );
        }

        //We must actually rotate the geometry itself and not use a MatrixTransform b/c the 
        //decluttering doesn't respect Transforms above the drawable.
        osg::Geometry* imageGeom = AnnotationUtils::createImageGeometry( _image.get(), offset, 0, heading, scale );
        if ( imageGeom )
        {
            _geode->addDrawable( imageGeom );
            imageBox = imageGeom->getBoundingBox();
        }    
    }

    if ( _image.valid() )
    {
        TextSymbol* textSymbol = _style.getOrCreate<TextSymbol>();
        if ( !textSymbol->alignment().isSet() )
            textSymbol->alignment() = textSymbol->ALIGN_LEFT_CENTER;
    }
    
    text = AnnotationUtils::createTextDrawable(
            _text,
            _style.get<TextSymbol>(),
            imageBox );

    if ( text )
        _geode->addDrawable( text );
    
    osg::StateSet* stateSet = _geode->getOrCreateStateSet();
    stateSet->setAttributeAndModes( new osg::Depth(osg::Depth::ALWAYS, 0, 1, false), 1 );

    getPositionAttitudeTransform()->addChild( _geode );

    // for clamping and occlusion culling    
    //OE_WARN << LC << "PlaceNode::applyStyle: " << _style.getConfig().toJSON(true) << std::endl;
    applyStyle( _style );

    setLightingIfNotSet( false );
    
    // generate shaders:
    Registry::shaderGenerator().run(
        this,
        "osgEarth.PlaceNode",
        Registry::stateSetCache() );

    setPriority(getPriority());

    if ( _dynamic )
        setDynamic( _dynamic );
}
示例#12
0
void
UTMGraticule::rebuild()
{
    // clear everything out
    this->removeChildren( 0, this->getNumChildren() );

    // requires a map node
    if ( !getMapNode() )
    {
        return;
    }

    // requires a geocentric map
    if ( !getMapNode()->isGeocentric() )
    {
        OE_WARN << LC << "Projected map mode is not yet supported" << std::endl;
        return;
    }

    const Profile* mapProfile = getMapNode()->getMap()->getProfile();

    _profile = Profile::create(
        mapProfile->getSRS(),
        mapProfile->getExtent().xMin(),
        mapProfile->getExtent().yMin(),
        mapProfile->getExtent().xMax(),
        mapProfile->getExtent().yMax(),
        8, 4 );

    _featureProfile = new FeatureProfile(_profile->getSRS());

    //todo: do this right..
    osg::StateSet* set = this->getOrCreateStateSet();
    set->setMode( GL_LIGHTING, 0 );
    set->setMode( GL_BLEND, 1 );

    // set up default options if the caller did not supply them
    if ( !_options.isSet() )
    {
        _options->primaryStyle() = Style();

        LineSymbol* line = _options->primaryStyle()->getOrCreate<LineSymbol>();
        line->stroke()->color() = Color::Gray;
        line->stroke()->width() = 1.0;
        line->tessellation() = 20;

        AltitudeSymbol* alt = _options->primaryStyle()->getOrCreate<AltitudeSymbol>();

        TextSymbol* text = _options->primaryStyle()->getOrCreate<TextSymbol>();
        text->fill()->color() = Color(Color::White, 0.3f);
        text->halo()->color() = Color(Color::Black, 0.2f);
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;
    }


    // rebuild the graph:
    _root = new DrapeableNode( getMapNode(), false );
    this->addChild( _root );

#if 0
    // set up depth offsetting.
    osg::StateSet* s = _root->getOrCreateStateSet();
    s->setAttributeAndModes( DepthOffsetUtils::getOrCreateProgram(), 1 );
    s->addUniform( DepthOffsetUtils::getIsNotTextUniform() );
    osg::Uniform* u = DepthOffsetUtils::createMinOffsetUniform();
    u->set( 10000.0f );
    s->addUniform( u );
#endif

    // build the base Grid Zone Designator (GZD) loolup table. This is a table
    // that maps the GZD string to its extent.
    static std::string s_gzdRows( "CDEFGHJKLMNPQRSTUVWX" );
    const SpatialReference* geosrs = _profile->getSRS()->getGeographicSRS();

    // build the lateral zones:
    for( unsigned zone = 0; zone < 60; ++zone )
    {
        for( unsigned row = 0; row < s_gzdRows.size(); ++row )
        {
            double yMaxExtra = row == s_gzdRows.size()-1 ? 4.0 : 0.0; // extra 4 deg for row X

            GeoExtent cellExtent(
                geosrs,
                -180.0 + double(zone)*6.0,
                -80.0  + row*8.0,
                -180.0 + double(zone+1)*6.0,
                -80.0  + double(row+1)*8.0 + yMaxExtra );

            _gzd[ Stringify() << (zone+1) << s_gzdRows[row] ] = cellExtent;
        }        
    }

    // the polar zones (UPS):
    _gzd["1Y"] = GeoExtent( geosrs, -180.0,  84.0,   0.0,  90.0 );
    _gzd["1Z"] = GeoExtent( geosrs,    0.0,  84.0, 180.0,  90.0 );
    _gzd["1A"] = GeoExtent( geosrs, -180.0, -90.0,   0.0, -80.0 );
    _gzd["1B"] = GeoExtent( geosrs,    0.0, -90.0, 180.0, -80.0 );

    // replace the "exception" zones in Norway and Svalbard
    _gzd["31V"] = GeoExtent( geosrs, 0.0, 56.0, 3.0, 64.0 );
    _gzd["32V"] = GeoExtent( geosrs, 3.0, 56.0, 12.0, 64.0 );
    _gzd["31X"] = GeoExtent( geosrs, 0.0, 72.0, 9.0, 84.0 );
    _gzd["33X"] = GeoExtent( geosrs, 9.0, 72.0, 21.0, 84.0 );
    _gzd["35X"] = GeoExtent( geosrs, 21.0, 72.0, 33.0, 84.0 );
    _gzd["37X"] = GeoExtent( geosrs, 33.0, 72.0, 42.0, 84.0 );

    // ..and remove the non-existant zones:
    _gzd.erase( "32X" );
    _gzd.erase( "34X" );
    _gzd.erase( "36X" );

    // now build the lateral tiles for the GZD level.
    for( SectorTable::iterator i = _gzd.begin(); i != _gzd.end(); ++i )
    {
        osg::Node* tile = buildGZDTile( i->first, i->second );
        if ( tile )
            _root->addChild( tile );
    }

    DepthOffsetUtils::prepareGraph( _root );
}
示例#13
0
void
GeodeticGraticule::rebuild()
{
    this->removeChildren( 0, this->getNumChildren() );

    if ( !getMapNode() )
    {
        OE_WARN << LC << "Illegal NULL map node" << std::endl;
        return;
    }

    if ( !getMapNode()->isGeocentric() )
    {
        OE_WARN << LC << "Projected map mode is not yet supported" << std::endl;
        return;
    }

    const Profile* mapProfile = _mapNode->getMap()->getProfile();

    _profile = Profile::create(
                   mapProfile->getSRS(),
                   mapProfile->getExtent().xMin(),
                   mapProfile->getExtent().yMin(),
                   mapProfile->getExtent().xMax(),
                   mapProfile->getExtent().yMax(),
                   8, 4 );

    _featureProfile = new FeatureProfile(_profile->getSRS());

    //todo: do this right..
    osg::StateSet* set = this->getOrCreateStateSet();
    set->setRenderBinDetails( 9999, "RenderBin" );
    set->setMode( GL_LIGHTING, 0 );

    // set up default options if the caller did not supply them
    if ( !_options.isSet() )
    {
        _options->lineStyle() = Style();

        LineSymbol* line = _options->lineStyle()->getOrCreate<LineSymbol>();
        line->stroke()->color() = Color::Gray;
        line->stroke()->width() = 1.0;

        AltitudeSymbol* alt = _options->lineStyle()->getOrCreate<AltitudeSymbol>();
        alt->verticalOffset() = NumericExpression(5000.0);

        _options->textStyle() = Style();
        TextSymbol* text = _options->textStyle()->getOrCreate<TextSymbol>();
        text->alignment() = TextSymbol::ALIGN_CENTER_CENTER;

        if ( _mapNode->isGeocentric() )
        {
            double r = _mapNode->getMapSRS()->getEllipsoid()->getRadiusEquator();
            _options->addLevel( FLT_MAX, 0.0f, 1u );
            double d = 4.5*r;
            for(int i=0; i<3; i++)
            {
                d *= 0.5;
                _options->addLevel( d, d*0.25 );
            }
        }
        else
        {
            //todo?
        }
    }

    _root = new DrapeableNode( _mapNode.get(), false );
    this->addChild( _root );

    // need at least one level
    if ( _options->levels().size() < 1 )
        return;

    const GeodeticGraticuleOptions::Level& level0 = _options->levels()[0];

    // build the top level cell grid.
    unsigned tilesX, tilesY;
    _profile->getNumTiles( 0, tilesX, tilesY );

    for( unsigned tx = 0; tx < tilesX; ++tx )
    {
        for( unsigned ty = 0; ty < tilesY; ++ty )
        {
            TileKey key( 0, tx, ty, _profile.get() );
            osg::Node* tile = buildTile( key, getMapNode()->getMap() );
            if ( tile )
                _root->addChild( tile );
        }
    }
}