コード例 #1
0
ファイル: AltitudeFilter.cpp プロジェクト: wlhm1984/osgEarthX
void
AltitudeFilter::pushAndDontClamp( FeatureList& features, FilterContext& cx )
{
    NumericExpression scaleExpr;
    if ( _altitude.valid() && _altitude->verticalScale().isSet() )
        scaleExpr = *_altitude->verticalScale();

    NumericExpression offsetExpr;
    if ( _altitude.valid() && _altitude->verticalOffset().isSet() )
        offsetExpr = *_altitude->verticalOffset();

    for( FeatureList::iterator i = features.begin(); i != features.end(); ++i )
    {
        Feature* feature = i->get();

        // run a symbol script if present.
        if ( _altitude.valid() && _altitude->script().isSet() )
        {
            StringExpression temp( _altitude->script().get() );
            feature->eval( temp, &cx );
        }

        double minHAT       =  DBL_MAX;
        double maxHAT       = -DBL_MAX;

        double scaleZ = 1.0;
        if ( _altitude.valid() && _altitude->verticalScale().isSet() )
            scaleZ = feature->eval( scaleExpr, &cx );

        double offsetZ = 0.0;
        if ( _altitude.valid() && _altitude->verticalOffset().isSet() )
            offsetZ = feature->eval( offsetExpr, &cx );

        GeometryIterator gi( feature->getGeometry() );
        while( gi.hasMore() )
        {
            Geometry* geom = gi.next();
            for( Geometry::iterator g = geom->begin(); g != geom->end(); ++g )
            {
                g->z() *= scaleZ;
                g->z() += offsetZ;

                if ( g->z() < minHAT )
                    minHAT = g->z();
                if ( g->z() > maxHAT )
                    maxHAT = g->z();
            }
        }

        if ( minHAT != DBL_MAX )
        {
            feature->set( "__min_hat", minHAT );
            feature->set( "__max_hat", maxHAT );
        }
    }
}
コード例 #2
0
ファイル: AltitudeFilter.cpp プロジェクト: 3dcl/osgearth
void
AltitudeFilter::pushAndClamp( FeatureList& features, FilterContext& cx )
{
    const Session* session = cx.getSession();

    // the map against which we'll be doing elevation clamping
    //MapFrame mapf = session->createMapFrame( Map::ELEVATION_LAYERS );
    MapFrame mapf = session->createMapFrame( 
        (Map::ModelParts)(Map::TERRAIN_LAYERS | Map::MODEL_LAYERS) );

    const SpatialReference* mapSRS = mapf.getProfile()->getSRS();
    osg::ref_ptr<const SpatialReference> featureSRS = cx.profile()->getSRS();

    // establish an elevation query interface based on the features' SRS.
    ElevationQuery eq( mapf );

    // want a result even if it's low res
    eq.setFallBackOnNoData( true );

    NumericExpression scaleExpr;
    if ( _altitude->verticalScale().isSet() )
        scaleExpr = *_altitude->verticalScale();

    NumericExpression offsetExpr;
    if ( _altitude->verticalOffset().isSet() )
        offsetExpr = *_altitude->verticalOffset();

    // whether to record the min/max height-above-terrain values.
    bool collectHATs =
        _altitude->clamping() == AltitudeSymbol::CLAMP_RELATIVE_TO_TERRAIN ||
        _altitude->clamping() == AltitudeSymbol::CLAMP_ABSOLUTE;

    // whether to clamp every vertex (or just the centroid)
    bool perVertex =
        _altitude->binding() == AltitudeSymbol::BINDING_VERTEX;

    // whether the SRS's have a compatible vertical datum.
    bool vertEquiv =
        featureSRS->isVertEquivalentTo( mapSRS );



    for( FeatureList::iterator i = features.begin(); i != features.end(); ++i )
    {
        Feature* feature = i->get();
        
        // run a symbol script if present.
        if ( _altitude.valid() && _altitude->script().isSet() )
        {
            StringExpression temp( _altitude->script().get() );
            feature->eval( temp, &cx );
        }

        double maxTerrainZ  = -DBL_MAX;
        double minTerrainZ  =  DBL_MAX;
        double minHAT       =  DBL_MAX;
        double maxHAT       = -DBL_MAX;

        double scaleZ = 1.0;
        if ( _altitude.valid() && _altitude->verticalScale().isSet() )
            scaleZ = feature->eval( scaleExpr, &cx );

        double offsetZ = 0.0;
        if ( _altitude.valid() && _altitude->verticalOffset().isSet() )
            offsetZ = feature->eval( offsetExpr, &cx );
        
        GeometryIterator gi( feature->getGeometry() );
        while( gi.hasMore() )
        {
            Geometry* geom = gi.next();

            // Absolute heights in Z. Only need to collect the HATs; the geometry
            // remains unchanged.
            if ( _altitude->clamping() == AltitudeSymbol::CLAMP_ABSOLUTE )
            {
                if ( perVertex )
                {
                    std::vector<double> elevations;
                    elevations.reserve( geom->size() );

                    if ( eq.getElevations( geom->asVector(), featureSRS, elevations, _maxRes ) )
                    {
                        for( unsigned i=0; i<geom->size(); ++i )
                        {
                            osg::Vec3d& p = (*geom)[i];

                            p.z() *= scaleZ;
                            p.z() += offsetZ;

                            double z = p.z();

                            if ( !vertEquiv )
                            {
                                osg::Vec3d tempgeo;
                                if ( !featureSRS->transform(p, mapSRS->getGeographicSRS(), tempgeo) )
                                    z = tempgeo.z();
                            }

                            double hat = z - elevations[i];

                            if ( hat > maxHAT )
                                maxHAT = hat;
                            if ( hat < minHAT )
                                minHAT = hat;

                            if ( elevations[i] > maxTerrainZ )
                                maxTerrainZ = elevations[i];
                            if ( elevations[i] < minTerrainZ )
                                minTerrainZ = elevations[i];
                        }
                    }
                }
                else // per centroid
                {
                    osgEarth::Bounds bounds = geom->getBounds();
                    const osg::Vec2d& center = bounds.center2d();
                    GeoPoint centroid(featureSRS, center.x(), center.y());
                    double   centroidElevation;

                    if ( eq.getElevation( centroid, centroidElevation, _maxRes ) )
                    {
                        for( unsigned i=0; i<geom->size(); ++i )
                        {
                            osg::Vec3d& p = (*geom)[i];
                            p.z() *= scaleZ;
                            p.z() += offsetZ;

                            double z = p.z();
                            if ( !vertEquiv )
                            {
                                osg::Vec3d tempgeo;
                                if ( !featureSRS->transform(p, mapSRS->getGeographicSRS(), tempgeo) )
                                    z = tempgeo.z();
                            }

                            double hat = z - centroidElevation;

                            if ( hat > maxHAT )
                                maxHAT = hat;
                            if ( hat < minHAT )
                                minHAT = hat;
                        }

                        if ( centroidElevation > maxTerrainZ )
                            maxTerrainZ = centroidElevation;
                        if ( centroidElevation < minTerrainZ )
                            minTerrainZ = centroidElevation;
                    }
                }
            }

            // Heights-above-ground in Z. Need to resolve this to an absolute number
            // and record HATs along the way.
            else if ( _altitude->clamping() == AltitudeSymbol::CLAMP_RELATIVE_TO_TERRAIN )
            {
                osg::ref_ptr<const SpatialReference> featureSRSwithMapVertDatum = !vertEquiv ?
                    SpatialReference::create(featureSRS->getHorizInitString(), mapSRS->getVertInitString()) : 0L;

                if ( perVertex )
                {
                    std::vector<double> elevations;
                    elevations.reserve( geom->size() );

                    if ( eq.getElevations( geom->asVector(), featureSRS, elevations, _maxRes ) )
                    {
                        for( unsigned i=0; i<geom->size(); ++i )
                        {
                            osg::Vec3d& p = (*geom)[i];

                            p.z() *= scaleZ;
                            p.z() += offsetZ;

                            double hat = p.z();
                            p.z() = elevations[i] + p.z();

                            // if necessary, convert the Z value (which is now in the map's SRS) back to
                            // the feature's SRS.
                            if ( !vertEquiv )
                            {
                                featureSRSwithMapVertDatum->transform(p, featureSRS, p);
                            }

                            if ( hat > maxHAT )
                                maxHAT = hat;
                            if ( hat < minHAT )
                                minHAT = hat;

                            if ( elevations[i] > maxTerrainZ )
                                maxTerrainZ = elevations[i];
                            if ( elevations[i] < minTerrainZ )
                                minTerrainZ = elevations[i];
                        }
                    }
                }
                else // per-centroid
                {
                    osgEarth::Bounds bounds = geom->getBounds();
                    const osg::Vec2d& center = bounds.center2d();
                    GeoPoint centroid(featureSRS, center.x(), center.y());
                    double   centroidElevation;

                    if ( eq.getElevation( centroid, centroidElevation, _maxRes ) )
                    {
                        for( unsigned i=0; i<geom->size(); ++i )
                        {
                            osg::Vec3d& p = (*geom)[i];
                            p.z() *= scaleZ;
                            p.z() += offsetZ;

                            double hat = p.z();
                            p.z() = centroidElevation + p.z();

                            // if necessary, convert the Z value (which is now in the map's SRS) back to
                            // the feature's SRS.
                            if ( !vertEquiv )
                            {
                                featureSRSwithMapVertDatum->transform(p, featureSRS, p);
                            }

                            if ( hat > maxHAT )
                                maxHAT = hat;
                            if ( hat < minHAT )
                                minHAT = hat;
                        }

                        if ( centroidElevation > maxTerrainZ )
                            maxTerrainZ = centroidElevation;
                        if ( centroidElevation < minTerrainZ )
                            minTerrainZ = centroidElevation;
                    }
                }
            }

            // Clamp - replace the geometry's Z with the terrain height.
            else // CLAMP_TO_TERRAIN
            {
                if ( perVertex )
                {
                    eq.getElevations( geom->asVector(), featureSRS, true, _maxRes );
                    
                    // if necessary, transform the Z values (which are now in the map SRS) back
                    // into the feature's SRS.
                    if ( !vertEquiv )
                    {
                        osg::ref_ptr<const SpatialReference> featureSRSwithMapVertDatum =
                            SpatialReference::create(featureSRS->getHorizInitString(), mapSRS->getVertInitString());

                        osg::Vec3d tempgeo;
                        for( unsigned i=0; i<geom->size(); ++i )
                        {
                            osg::Vec3d& p = (*geom)[i];
                            featureSRSwithMapVertDatum->transform(p, featureSRS, p);
                        }
                    }
                }
                else // per-centroid
                {
                    osgEarth::Bounds bounds = geom->getBounds();
                    const osg::Vec2d& center = bounds.center2d();
                    GeoPoint centroid(featureSRS, center.x(), center.y());
                    double   centroidElevation;

                    osg::ref_ptr<const SpatialReference> featureSRSWithMapVertDatum;
                    if ( !vertEquiv )
                        featureSRSWithMapVertDatum = SpatialReference::create(featureSRS->getHorizInitString(), mapSRS->getVertInitString());

                    if ( eq.getElevation( centroid, centroidElevation, _maxRes ) )
                    {
                        for( unsigned i=0; i<geom->size(); ++i )
                        {
                            osg::Vec3d& p = (*geom)[i];
                            p.z() = centroidElevation;
                            if ( !vertEquiv )
                            {
                                featureSRSWithMapVertDatum->transform(p, featureSRS, p);
                            }
                        }
                    }
                }
            }

            if ( !collectHATs )
            {
                for( Geometry::iterator i = geom->begin(); i != geom->end(); ++i )
                {
                    i->z() *= scaleZ;
                    i->z() += offsetZ;
                }
            }
        }

        if ( minHAT != DBL_MAX )
        {
            feature->set( "__min_hat", minHAT );
            feature->set( "__max_hat", maxHAT );
        }

        if ( minTerrainZ != DBL_MAX )
        {
            feature->set( "__min_terrain_z", minTerrainZ );
            feature->set( "__max_terrain_z", maxTerrainZ );
        }
    }
}
コード例 #3
0
ファイル: AltitudeFilter.cpp プロジェクト: filnet/osgearth
void
AltitudeFilter::pushAndDontClamp( FeatureList& features, FilterContext& cx )
{
    NumericExpression scaleExpr;
    if ( _altitude.valid() && _altitude->verticalScale().isSet() )
        scaleExpr = *_altitude->verticalScale();

    NumericExpression offsetExpr;
    if ( _altitude.valid() && _altitude->verticalOffset().isSet() )
        offsetExpr = *_altitude->verticalOffset();

    bool gpuClamping =
        _altitude.valid() &&
        _altitude->technique() == _altitude->TECHNIQUE_GPU;

    bool ignoreZ =
        gpuClamping && 
        _altitude->clamping() == _altitude->CLAMP_TO_TERRAIN;

    for( FeatureList::iterator i = features.begin(); i != features.end(); ++i )
    {
        Feature* feature = i->get();
        
        // run a symbol script if present.
        if ( _altitude.valid() && _altitude->script().isSet() )
        {
            StringExpression temp( _altitude->script().get() );
            feature->eval( temp, &cx );
        }

        double minHAT       =  DBL_MAX;
        double maxHAT       = -DBL_MAX;

        double scaleZ = 1.0;
        if ( _altitude.valid() && _altitude->verticalScale().isSet() )
            scaleZ = feature->eval( scaleExpr, &cx );

        optional<double> offsetZ( 0.0 );
        if ( _altitude.valid() && _altitude->verticalOffset().isSet() )
            offsetZ = feature->eval( offsetExpr, &cx );       
        
        GeometryIterator gi( feature->getGeometry() );
        while( gi.hasMore() )
        {
            Geometry* geom = gi.next();
            for( Geometry::iterator g = geom->begin(); g != geom->end(); ++g )
            {
                if ( ignoreZ )
                {
                    g->z() = 0.0;
                }

                if ( !gpuClamping )
                {
                    g->z() *= scaleZ;
                    g->z() += offsetZ.get();
                }

                if ( g->z() < minHAT )
                    minHAT = g->z();
                if ( g->z() > maxHAT )
                    maxHAT = g->z();
            }
        }

        if ( minHAT != DBL_MAX )
        {
            feature->set( "__min_hat", minHAT );
            feature->set( "__max_hat", maxHAT );
        }

        // encode the Z offset if
        if ( gpuClamping )
        {
            feature->set("__oe_verticalScale",  scaleZ);
            feature->set("__oe_verticalOffset", offsetZ.get());
        }
    }
}