int
main(int argc, char** argv)
{
    osg::ArgumentParser arguments(&argc,argv);
    osgViewer::Viewer viewer(arguments);
    viewer.setCameraManipulator( new EarthManipulator(arguments) );

    osg::Node* node = MapNodeHelper().load(arguments, &viewer);
    if ( node )
    {
        MapNode* mapNode = MapNode::get(node);
        if (!mapNode)
            return -1;

        MyCallback* myCallback = new MyCallback();

        // Install a callback on each loaded layer.
        LayerVector layers;
        mapNode->getMap()->getLayers(layers);
        for (LayerVector::iterator layer = layers.begin(); layer != layers.end(); ++layer)
        {
            layer->get()->getSceneGraphCallbacks()->add( myCallback );
        }

        viewer.setSceneData( node );
        return viewer.run();
    }
    else
    {
        return usage(argv[0]);
    }

    return 0;
}
示例#2
0
void
MapCallback::invokeOnLayerRemoved(const Map* map)
{
    LayerVector layers;
    map->getLayers(layers);
    unsigned index = 0;
    if (layers.size() > 0)
    {
        onBeginUpdate();
        for (LayerVector::iterator i = layers.begin(); i != layers.end(); ++i)
            onLayerRemoved(i->get(), index++);
        onEndUpdate();
    }
}
bool
ElevationQuery::getElevationImpl(const GeoPoint& point,
                                 float&          out_elevation,
                                 double          desiredResolution,
                                 double*         out_actualResolution)
{
    // assertion.
    if ( !point.isAbsolute() )
    {
        OE_WARN << LC << "Assertion failure; input must be absolute" << std::endl;
        return false;
    }

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

    // first try the terrain patches.
    if ( _terrainModelLayers.size() > 0 )
    {
        osgUtil::IntersectionVisitor iv;

        if ( _ivrc.valid() )
            iv.setReadCallback(_ivrc.get());

        for(LayerVector::iterator i = _terrainModelLayers.begin(); i != _terrainModelLayers.end(); ++i)
        {
            // find the scene graph for this layer:
            Layer* layer = i->get();
            osg::Node* node = layer->getNode();
            if ( node )
            {
                // configure for intersection:
                osg::Vec3d surface;
                point.toWorld( surface );

                // trivial bounds check:
                if ( node->getBound().contains(surface) )
                {
                    osg::Vec3d nvector;
                    point.createWorldUpVector(nvector);

                    osg::Vec3d start( surface + nvector*5e5 );
                    osg::Vec3d end  ( surface - nvector*5e5 );

                    // first time through, set up the intersector on demand
                    if ( !_lsi.valid() )
                    {
                        _lsi = new osgUtil::LineSegmentIntersector(start, end);
                        _lsi->setIntersectionLimit( _lsi->LIMIT_NEAREST );
                    }
                    else
                    {
                        _lsi->reset();
                        _lsi->setStart( start );
                        _lsi->setEnd  ( end );
                    }

                    // try it.
                    iv.setIntersector( _lsi.get() );
                    node->accept( iv );

                    // check for a result!!
                    if ( _lsi->containsIntersections() )
                    {
                        osg::Vec3d isect = _lsi->getIntersections().begin()->getWorldIntersectPoint();

                        // transform back to input SRS:
                        GeoPoint output;
                        output.fromWorld( point.getSRS(), isect );
                        out_elevation = (float)output.z();
                        if ( out_actualResolution )
                            *out_actualResolution = 0.0;

                        return true;
                    }
                }
                else
                {
                    //OE_INFO << LC << "Trivial rejection (bounds check)" << std::endl;
                }
            }
        }
    } 

    if (_elevationLayers.empty())
    {
        // this means there are no heightfields.
        out_elevation = NO_DATA_VALUE;
        return true;
    }

    // secure map pointer:
    osg::ref_ptr<const Map> map;
    if (!_map.lock(map))
    {
        return false;
    }    

    // tile size (resolution of elevation tiles)
    unsigned tileSize = 257; // yes?

    // default LOD:
    unsigned lod = 23u;

    // attempt to map the requested resolution to an LOD:
    if (desiredResolution > 0.0)
    {
        int level = map->getProfile()->getLevelOfDetailForHorizResolution(desiredResolution, tileSize);
        if ( level > 0 )
            lod = level;
    }

    // do we need a new ElevationEnvelope?
    if (!_envelope.valid() ||
        !point.getSRS()->isHorizEquivalentTo(_envelope->getSRS()) ||
        lod != _envelope->getLOD())
    {        
        _envelope = map->getElevationPool()->createEnvelope(point.getSRS(), lod);
    }

    // sample the elevation, and if requested, the resolution as well:
    if (out_actualResolution)
    {
        std::pair<float, float> result = _envelope->getElevationAndResolution(point.x(), point.y());
        out_elevation = result.first;
        *out_actualResolution = result.second;
    }
    else
    {
        out_elevation = _envelope->getElevation(point.x(), point.y());
    }

    return out_elevation != NO_DATA_VALUE;
}