Ejemplo n.º 1
0
void wxGISSimpleCircleSymbol::Draw(const wxGISGeometry &Geometry, int nLevel)
{
    if (!Geometry.IsOk() || !m_pDisplay)
        return;

    OGRwkbGeometryType eGeomType = wkbFlatten(Geometry.GetType());
    if (eGeomType != wkbMultiPoint)
        return;

    OGREnvelope Env;
    OGRGeometry *pGeom = Geometry;

    OGRMultiPoint* pMPT = (OGRMultiPoint*)pGeom;
    OGRPoint* pCenterPt = (OGRPoint*)pMPT->getGeometryRef(0);
    OGRPoint* pOriginPt = (OGRPoint*)pMPT->getGeometryRef(1);
    double dfRadius = sqrt((pCenterPt->getX() - pOriginPt->getX())*(pCenterPt->getX() - pOriginPt->getX()) + (pCenterPt->getY() - pOriginPt->getY())*(pCenterPt->getY() - pOriginPt->getY()));
    Env.MaxX = pCenterPt->getX() + dfRadius;
    Env.MinX = pCenterPt->getX() - dfRadius;
    Env.MaxY = pCenterPt->getY() + dfRadius;
    Env.MinY = pCenterPt->getY() - dfRadius;

    if (!m_pDisplay->CanDraw(Env))
        return;

    wxCriticalSectionLocker lock(m_pDisplay->GetLock());

    if (!m_pDisplay->CheckDrawAsPoint(Env, m_pLineSymbol->GetWidth()))
    {
        if (!m_pDisplay->DrawCircle(pCenterPt->getX(), pCenterPt->getY(), 0, 0, dfRadius))
        {
            return;
        }

        if (m_Color.Alpha() > 0)
        {
            switch (m_eFillRule)
            {
            case enumGISFillRuleWinding:
                m_pDisplay->SetFillRule(CAIRO_FILL_RULE_WINDING);
                break;
            case enumGISFillRuleOdd:
                m_pDisplay->SetFillRule(CAIRO_FILL_RULE_EVEN_ODD);
                break;
            }
            m_pDisplay->SetColor(m_Color);
            m_pDisplay->FillPreserve();
        }

    }

    m_pLineSymbol->SetStyleToDisplay();

    m_pDisplay->Stroke();
}
Ejemplo n.º 2
0
OGREnvelope wxGISShape::GetBounds() const
{
    OGREnvelope oReturnBounds;

    switch (m_eType)
    {
    case enumGISShapeTypeRectangle:
    case enumGISShapeTypePolygon:
    case enumGISShapeTypeLine:
    case enumGISShapeTypeEllipse:
    case enumGISShapeTypeMarker:
        oReturnBounds = m_oGeom.GetEnvelope();
        break;
    case enumGISShapeTypeCircle:
    {
        OGRGeometry *pGeom = m_oGeom;

        OGRMultiPoint* pMPT = (OGRMultiPoint*)pGeom;
        OGRPoint* pCenterPt = (OGRPoint*)pMPT->getGeometryRef(0);
        OGRPoint* pOriginPt = (OGRPoint*)pMPT->getGeometryRef(1);
        double dfRadius = sqrt((pCenterPt->getX() - pOriginPt->getX())*(pCenterPt->getX() - pOriginPt->getX()) + (pCenterPt->getY() - pOriginPt->getY())*(pCenterPt->getY() - pOriginPt->getY()));
        oReturnBounds.MaxX = pCenterPt->getX() + dfRadius;
        oReturnBounds.MinX = pCenterPt->getX() - dfRadius;
        oReturnBounds.MaxY = pCenterPt->getY() + dfRadius;
        oReturnBounds.MinY = pCenterPt->getY() - dfRadius;
        break;
    }
#ifdef wxGIS_USE_SPLINE
    case enumGISShapeTypeCurve://TODO:
    case enumGISShapeTypeFreeHand:
        break;
#endif //wxGIS_USE_SPLINE
    case enumGISShapeTypeFreeHand:
        oReturnBounds = m_oGeom.GetEnvelope();
        break;
    };

    return oReturnBounds;
}
Ejemplo n.º 3
0
bool ShpReader::Open(std::wstring fullPath, StudyControllerPtr studyController,
                     VectorMapControllerPtr vectorMapController, ProgressDlgPtr progressDlg) 
{
	// Registers all format drivers built into GDAL/OGR.
	OGRRegisterAll();

	OGRDataSource *OGRDataset;

	// Open vector file path
	std::string tempStr( fullPath.begin(), fullPath.end() );
	OGRDataset = OGRSFDriverRegistrar::Open( tempStr.c_str(), FALSE );

	// Return if no vector files are found
	if( OGRDataset == NULL )
	{
		Log::Inst().Warning("(Warning) Failed to open file at " + tempStr + ".");
		return false;
	}
	if ( App::Inst().GetLayerTreeController()->GetNumMapLayers() >0 )

		MapControllerPtr mapController= App::Inst().GetLayerTreeController()->GetLayerTreeModel()->GetStudy(0)->GetMapLayer(0)->GetMapController();

	// It appears that shapefiles (*.SHP) only support up to one layer per file
	// This will need to be further investigated for other vector filetypes (e.g., KML)
	// For now just grab layer at position 0
	
	OGRLayer *poLayer = OGRDataset->GetLayer( 0 );
	
	// Determine the XY boundaries for the entire vector dataset
	OGREnvelope psEnvelope;

	VectorMapModelPtr vectorMapModel = vectorMapController->GetVectorMapModel();
	poLayer->GetExtent( &psEnvelope );
	vectorMapModel->SetVectorBoundary(psEnvelope);

	if(!SetupVectorProjection(OGRDataset,studyController,poLayer,vectorMapController ))
	{
		OGRDataset->DestroyDataSource(OGRDataset);
		return false;
	}
	
	if(progressDlg)
	{
			if(!progressDlg->Update(0, _T("Reading Vector Map Information...")))
			{
				OGRDataset->DestroyDataSource(OGRDataset);
				return false;
			}
	}	
	GLdouble minX, minY, maxX, maxY;
	minX = minY = std::numeric_limits<float>::max();
	maxX = maxY = -std::numeric_limits<float>::max();

	// Retrieve features from the dataset
	OGRFeature *poFeature;
	poLayer->ResetReading();
	int numFeatures = poLayer->GetFeatureCount();
	int count=0;
    //Log::Inst().Write("Loading shapefile with the following meta data:");

	while ( ( poFeature = poLayer->GetNextFeature() ) != NULL )
	{
		/////////////////////////////////////////////////
		// PHASE 1: Retrieve METADATA from the dataset //
		/////////////////////////////////////////////////
		OGRFeatureDefn *poFDefn = poLayer->GetLayerDefn();
		int iField;

		for( iField = 0; iField < poFDefn->GetFieldCount(); iField++ )
		{
			OGRFieldDefn *poFieldDefn = poFDefn->GetFieldDefn( iField );

			//if( poFieldDefn->GetType() == OFTInteger )
			//    printf( "%d,", poFeature->GetFieldAsInteger( iField ) );
			//else if( poFieldDefn->GetType() == OFTReal )
			//    printf( "%.3f,", poFeature->GetFieldAsDouble(iField) );
			//else if( poFieldDefn->GetType() == OFTString )
			//    printf( "%s,", poFeature->GetFieldAsString(iField) );
			//else
			//    printf( "%s,", poFeature->GetFieldAsString(iField) );

			//ofs << poFeature->GetFieldAsString(iField) << ",";

			std::string metaData = poFeature->GetFieldAsString(iField);
			// do something with the meta data...
			//Log::Inst().Write(metaData);
		}
		count++;
		if(progressDlg)
		{
			if(!progressDlg->Update(int(50 + (float(count)/numFeatures)*50)))
				return false;
		}

		///////////////////////////////////////////////////
		// PHASE 2: Retrieve GEOMETRIES from the dataset //
		///////////////////////////////////////////////////
		OGRGeometry *poGeometry;
		poGeometry = poFeature->GetGeometryRef();

		// Move to the next feature in the set if no geometry present
		if( poGeometry == NULL )
		{
			OGRFeature::DestroyFeature( poFeature );
			continue;
		}

		OGRwkbGeometryType whatisit = poGeometry->getGeometryType();

		// Handle POINTS
		if ( wkbFlatten( poGeometry->getGeometryType() ) == wkbPoint )
		{
			GeoVector* geoVector = new GeoVector();
			OGRPoint *poPoint = (OGRPoint *) poGeometry;

			geoVector->SetGeometryType( wkbPoint );
			geoVector->SetNumberOfPoints( 1 );
			if(needProjection)
			{
				double x,y;
				x= poPoint->getX();
				y= poPoint->getY();
				if(!poTransform->Transform(1, &x, &y))
				{
					Log::Inst().Warning("(Warning) Failed to project vector map.");
					OGRDataset->DestroyDataSource(OGRDataset);
					return false;
				}
				
				// project and store the points
				geoVector->pointX[0] = x;
				geoVector->pointY[0] = y;

				if(x < minX) minX=x;
				if(y < minY) minY=y;
				if(x > maxX) maxX=x;
				if(y > maxY) maxY=y;
			}
			else 			
			{
				geoVector->pointX[0] = poPoint->getX();
				geoVector->pointY[0] = poPoint->getY();

			}
			vectorMapController->GetVectorMapModel()->AddGeoVector( geoVector );
			
		}
		//Handle MultiPoint
		else if ( wkbFlatten( poGeometry->getGeometryType() ) == wkbMultiPoint )
		{
			OGRMultiPoint *poMultiPoint = (OGRMultiPoint *) poGeometry;

			for ( int currGeometry = 0; currGeometry < poMultiPoint->getNumGeometries(); currGeometry++ )
			{
				GeoVector* geoVector = new GeoVector();				
				OGRPoint *poPoint = ( OGRPoint* )poMultiPoint->getGeometryRef( currGeometry );			
				geoVector->SetGeometryType( wkbPoint );
				geoVector->SetNumberOfPoints( 1 );
				if(needProjection)
				{
					double x,y;
					x= poPoint->getX();
					y= poPoint->getY();
					if(!poTransform->Transform(1, &x, &y))
					{
						Log::Inst().Warning("(Warning) Failed to project vector map.");
						OGRDataset->DestroyDataSource(OGRDataset);
						return false;
					}
					
					// project and store the points
					geoVector->pointX[0] = x;
					geoVector->pointY[0] = y;

					if(x < minX) minX=x;
					if(y < minY) minY=y;
					if(x > maxX) maxX=x;
					if(y > maxY) maxY=y;
				}
				else 			
				{
					geoVector->pointX[0] = poPoint->getX();
					geoVector->pointY[0] = poPoint->getY();

				}
				vectorMapController->GetVectorMapModel()->AddGeoVector( geoVector );
			}
			
		}

		//Handle Polylines
		else if ( wkbFlatten( poGeometry->getGeometryType() ) == wkbLineString )
		{
			GeoVector* geoVector = new GeoVector();
			OGRLineString  *poLine = (OGRLineString  *) poGeometry;

			geoVector->SetGeometryType( wkbLineString );
			geoVector->SetNumberOfPoints( poLine->getNumPoints() );

			// Convert and store the points

			for ( int currentPoint = 0; currentPoint < poLine->getNumPoints(); currentPoint++ )
			{
				// Convert and store the points

				if(needProjection)
				{
					double x,y;
					x= poLine->getX( currentPoint );
					y= poLine->getY( currentPoint );
					if(!poTransform->Transform(1, &x, &y))
					{
						Log::Inst().Warning("(Warning) Failed to project vector map.");
						OGRDataset->DestroyDataSource(OGRDataset);
						return false;
					}
				
					// project and store the points
					geoVector->pointX[currentPoint] = x;
					geoVector->pointY[currentPoint] = y;

					if(x < minX) minX=x;
					if(y < minY) minY=y;
					if(x > maxX) maxX=x;
					if(y > maxY) maxY=y;
				}
				else			
				{
					geoVector->pointX[currentPoint] = poLine->getX( currentPoint );
					geoVector->pointY[currentPoint] = poLine->getY( currentPoint );

				}

			}

			vectorMapController->GetVectorMapModel()->AddGeoVector( geoVector );			
		}
		
		// Handle MultiPolyLine
		else if ( wkbFlatten( poGeometry->getGeometryType() ) == wkbMultiLineString )
		{
			OGRMultiLineString *poMultiLine = (OGRMultiLineString *) poGeometry;

			for ( int currGeometry = 0; currGeometry < poMultiLine->getNumGeometries(); currGeometry++ )
			{
				GeoVector* geoVector = new GeoVector();
				
				OGRLineString *poLine = ( OGRLineString* )poMultiLine->getGeometryRef( currGeometry );

				geoVector->SetGeometryType( wkbLineString );
				geoVector->SetNumberOfPoints( poLine->getNumPoints() );				

				for ( int currentPoint = 0; currentPoint < poLine ->getNumPoints(); currentPoint++ )
				{

					 if(needProjection)
					{
						double x,y;
						x= poLine->getX( currentPoint );
						y= poLine->getY( currentPoint );
						if(!poTransform->Transform(1, &x, &y))
						{
							Log::Inst().Warning("(Warning) Failed to project vector map.");
							OGRDataset->DestroyDataSource(OGRDataset);
							return false;
						}
				
					// project and store the points
						geoVector->pointX[currentPoint] = x;
						geoVector->pointY[currentPoint] = y;

						if(x < minX) minX=x;
						if(y < minY) minY=y;
						if(x > maxX) maxX=x;
						if(y > maxY) maxY=y;
					}
					else			
					{
						geoVector->pointX[currentPoint] = poLine->getX( currentPoint );
						geoVector->pointY[currentPoint] = poLine->getY( currentPoint );

					}				
					
				}
				vectorMapController->GetVectorMapModel()->AddGeoVector( geoVector );				
				
			}
		}

		// Handle POLYGONS
		else if ( wkbFlatten( poGeometry->getGeometryType() ) == wkbPolygon )
		{
			GeoVector* geoVector = new GeoVector();

			OGRPolygon    *poPolygon    = ( OGRPolygon* )poGeometry;
			OGRLinearRing *poLinearRing = poPolygon->getExteriorRing();

			geoVector->SetGeometryType( wkbLinearRing );
			geoVector->SetNumberOfPoints( poLinearRing->getNumPoints() );

			for ( int currentPoint = 0; currentPoint < poLinearRing->getNumPoints(); currentPoint++ )
			{
				if(needProjection)
				{
					double x,y;
					x= poLinearRing->getX( currentPoint );
					y= poLinearRing->getY( currentPoint );
					if(!poTransform->Transform(1, &x, &y))
					{
						Log::Inst().Warning("(Warning) Failed to project vector map.");
						OGRDataset->DestroyDataSource(OGRDataset);
						return false;
					}
				
					// project and store the points
					geoVector->pointX[currentPoint] = x;
					geoVector->pointY[currentPoint] = y;

					if(x < minX) minX=x;
					if(y < minY) minY=y;
					if(x > maxX) maxX=x;
					if(y > maxY) maxY=y;
				}
				else 			
				{
					geoVector->pointX[currentPoint] = poLinearRing->getX( currentPoint );
					geoVector->pointY[currentPoint] = poLinearRing->getY( currentPoint );

				}
			}

			vectorMapController->GetVectorMapModel()->AddGeoVector( geoVector );			
		}

		// Handle MULTIPOLYGONS
		else if ( wkbFlatten( poGeometry->getGeometryType() ) == wkbMultiPolygon )
		{
			OGRMultiPolygon *poMultiPolygon = (OGRMultiPolygon *) poGeometry;

			for ( int currGeometry = 0; currGeometry < poMultiPolygon->getNumGeometries(); currGeometry++ )
			{
				GeoVector* geoVector = new GeoVector();

				// OGRPolygon http://www.gdal.org/ogr/classOGRPolygon.html
				OGRPolygon *poPolygon = ( OGRPolygon* )poMultiPolygon->getGeometryRef( currGeometry );

				// Retrieve the EXTERNAL ring of the multipolygon
				OGRLinearRing *poLinearRing = poPolygon->getExteriorRing();

				geoVector->SetGeometryType( wkbLinearRing );
				geoVector->SetNumberOfPoints( poLinearRing->getNumPoints() );

				for ( int currentPoint = 0; currentPoint < poLinearRing->getNumPoints(); currentPoint++ )
				{

					 if(needProjection)
					{
						double x,y;
						x= poLinearRing->getX( currentPoint );
						y= poLinearRing->getY( currentPoint );
						if(!poTransform->Transform(1, &x, &y))
						{
							Log::Inst().Warning("(Warning) Failed to project vector map.");
							OGRDataset->DestroyDataSource(OGRDataset);
							return false;
						}
				
					// project and store the points
						geoVector->pointX[currentPoint] = x;
						geoVector->pointY[currentPoint] = y;

						if(x < minX) minX=x;
						if(y < minY) minY=y;
						if(x > maxX) maxX=x;
						if(y > maxY) maxY=y;
					}
					else			
					{
						geoVector->pointX[currentPoint] = poLinearRing->getX( currentPoint );
						geoVector->pointY[currentPoint] = poLinearRing->getY( currentPoint );

					}				
					
				}
				vectorMapController->GetVectorMapModel()->AddGeoVector( geoVector );				
				
				// Retrieve all the INTERNAL rings of the multipolygon
				for ( int currentRing = 0; currentRing < poPolygon->getNumInteriorRings(); currentRing++ )
				{
					GeoVector* geoVector2 = new GeoVector();

					poLinearRing = poPolygon->getInteriorRing( currentRing );

					geoVector2->SetGeometryType( wkbLinearRing );
					geoVector2->SetNumberOfPoints( poLinearRing->getNumPoints() );

					for ( int currentPoint = 0; currentPoint < poLinearRing->getNumPoints(); currentPoint++ )
					{
						
						 if(needProjection)
						{
							double x,y;
							x= poLinearRing->getX( currentPoint );
							y= poLinearRing->getY( currentPoint );
							if(!poTransform->Transform(1, &x, &y))
							{
								Log::Inst().Warning("(Warning) Failed to project vector map.");
								OGRDataset->DestroyDataSource(OGRDataset);
								return false;
							}
				
						// project and store the points
							geoVector2->pointX[currentPoint] = x;
							geoVector2->pointY[currentPoint] = y;

							if(x < minX) minX=x;
							if(y < minY) minY=y;
							if(x > maxX) maxX=x;
							if(y > maxY) maxY=y;
						}
						else 		
						{
							geoVector2->pointX[currentPoint] = poLinearRing->getX( currentPoint );
							geoVector2->pointY[currentPoint] = poLinearRing->getY( currentPoint );

						}		
					}

					vectorMapController->GetVectorMapModel()->AddGeoVector( geoVector2 );
				}
			}
		}


		// Report a warning message for unhandled geometries
		else
		{
			Log::Inst().Warning("(Warning) Could not load vector data: unsupported geometry.");
		}
		OGRFeature::DestroyFeature( poFeature );
	}

	if (float(minX) == float(maxX) && float(minY) == float(maxY))
	{
		Log::Inst().Warning("(Warning) Failed to project vector map.");
		OGRDataset->DestroyDataSource(OGRDataset);
		return false;
	}

	if(needProjection)
	{
		vectorMapModel->SetVectorBoundary_MinX(minX);
		vectorMapModel->SetVectorBoundary_MaxX(maxX);
		vectorMapModel->SetVectorBoundary_MinY(minY);
		vectorMapModel->SetVectorBoundary_MaxY(maxY);
	}	
	
	if(!SetupVectorScaling(vectorMapModel,progressDlg))
	{ 
		OGRDataset->DestroyDataSource(OGRDataset);
		return false;
	}

	VectorMetaDataInfo(OGRDataset, studyController, vectorMapController);
	OGRDataSource::DestroyDataSource( OGRDataset );
	return true;
}
void
PCLoaderArcView::load(const std::string& file, OptionsCont& oc, PCPolyContainer& toFill,
                      PCTypeMap&) {
#ifdef HAVE_GDAL
    GeoConvHelper& geoConvHelper = GeoConvHelper::getProcessing();
    // get defaults
    std::string prefix = oc.getString("prefix");
    std::string type = oc.getString("type");
    RGBColor color = RGBColor::parseColor(oc.getString("color"));
    int layer = oc.getInt("layer");
    std::string idField = oc.getString("shapefile.id-column");
    bool useRunningID = oc.getBool("shapefile.use-running-id");
    // start parsing
    std::string shpName = file + ".shp";
    OGRRegisterAll();
    OGRDataSource* poDS = OGRSFDriverRegistrar::Open(shpName.c_str(), FALSE);
    if (poDS == NULL) {
        throw ProcessError("Could not open shape description '" + shpName + "'.");
    }

    // begin file parsing
    OGRLayer*  poLayer = poDS->GetLayer(0);
    poLayer->ResetReading();

    // build coordinate transformation
    OGRSpatialReference* origTransf = poLayer->GetSpatialRef();
    OGRSpatialReference destTransf;
    // use wgs84 as destination
    destTransf.SetWellKnownGeogCS("WGS84");
    OGRCoordinateTransformation* poCT = OGRCreateCoordinateTransformation(origTransf, &destTransf);
    if (poCT == NULL) {
        if (oc.isSet("shapefile.guess-projection")) {
            OGRSpatialReference origTransf2;
            origTransf2.SetWellKnownGeogCS("WGS84");
            poCT = OGRCreateCoordinateTransformation(&origTransf2, &destTransf);
        }
        if (poCT == 0) {
            WRITE_WARNING("Could not create geocoordinates converter; check whether proj.4 is installed.");
        }
    }

    OGRFeature* poFeature;
    poLayer->ResetReading();
    unsigned int runningID = 0;
    while ((poFeature = poLayer->GetNextFeature()) != NULL) {
        // read in edge attributes
        std::string id = useRunningID ? toString(runningID) : poFeature->GetFieldAsString(idField.c_str());
        ++runningID;
        id = StringUtils::prune(id);
        if (id == "") {
            throw ProcessError("Missing id under '" + idField + "'");
        }
        id = prefix + id;
        // read in the geometry
        OGRGeometry* poGeometry = poFeature->GetGeometryRef();
        if (poGeometry == 0) {
            OGRFeature::DestroyFeature(poFeature);
            continue;
        }
        // try transform to wgs84
        poGeometry->transform(poCT);
        OGRwkbGeometryType gtype = poGeometry->getGeometryType();
        switch (gtype) {
            case wkbPoint: {
                OGRPoint* cgeom = (OGRPoint*) poGeometry;
                Position pos((SUMOReal) cgeom->getX(), (SUMOReal) cgeom->getY());
                if (!geoConvHelper.x2cartesian(pos)) {
                    WRITE_ERROR("Unable to project coordinates for POI '" + id + "'.");
                }
                PointOfInterest* poi = new PointOfInterest(id, type, color, pos, (SUMOReal)layer);
                if (!toFill.insert(id, poi, layer)) {
                    WRITE_ERROR("POI '" + id + "' could not be added.");
                    delete poi;
                }
            }
            break;
            case wkbLineString: {
                OGRLineString* cgeom = (OGRLineString*) poGeometry;
                PositionVector shape;
                for (int j = 0; j < cgeom->getNumPoints(); j++) {
                    Position pos((SUMOReal) cgeom->getX(j), (SUMOReal) cgeom->getY(j));
                    if (!geoConvHelper.x2cartesian(pos)) {
                        WRITE_ERROR("Unable to project coordinates for polygon '" + id + "'.");
                    }
                    shape.push_back_noDoublePos(pos);
                }
                Polygon* poly = new Polygon(id, type, color, shape, false, (SUMOReal)layer);
                if (!toFill.insert(id, poly, layer)) {
                    WRITE_ERROR("Polygon '" + id + "' could not be added.");
                    delete poly;
                }
            }
            break;
            case wkbPolygon: {
                OGRLinearRing* cgeom = ((OGRPolygon*) poGeometry)->getExteriorRing();
                PositionVector shape;
                for (int j = 0; j < cgeom->getNumPoints(); j++) {
                    Position pos((SUMOReal) cgeom->getX(j), (SUMOReal) cgeom->getY(j));
                    if (!geoConvHelper.x2cartesian(pos)) {
                        WRITE_ERROR("Unable to project coordinates for polygon '" + id + "'.");
                    }
                    shape.push_back_noDoublePos(pos);
                }
                Polygon* poly = new Polygon(id, type, color, shape, true, (SUMOReal)layer);
                if (!toFill.insert(id, poly, layer)) {
                    WRITE_ERROR("Polygon '" + id + "' could not be added.");
                    delete poly;
                }
            }
            break;
            case wkbMultiPoint: {
                OGRMultiPoint* cgeom = (OGRMultiPoint*) poGeometry;
                for (int i = 0; i < cgeom->getNumGeometries(); ++i) {
                    OGRPoint* cgeom2 = (OGRPoint*) cgeom->getGeometryRef(i);
                    Position pos((SUMOReal) cgeom2->getX(), (SUMOReal) cgeom2->getY());
                    std::string tid = id + "#" + toString(i);
                    if (!geoConvHelper.x2cartesian(pos)) {
                        WRITE_ERROR("Unable to project coordinates for POI '" + tid + "'.");
                    }
                    PointOfInterest* poi = new PointOfInterest(tid, type, color, pos, (SUMOReal)layer);
                    if (!toFill.insert(tid, poi, layer)) {
                        WRITE_ERROR("POI '" + tid + "' could not be added.");
                        delete poi;
                    }
                }
            }
            break;
            case wkbMultiLineString: {
                OGRMultiLineString* cgeom = (OGRMultiLineString*) poGeometry;
                for (int i = 0; i < cgeom->getNumGeometries(); ++i) {
                    OGRLineString* cgeom2 = (OGRLineString*) cgeom->getGeometryRef(i);
                    PositionVector shape;
                    std::string tid = id + "#" + toString(i);
                    for (int j = 0; j < cgeom2->getNumPoints(); j++) {
                        Position pos((SUMOReal) cgeom2->getX(j), (SUMOReal) cgeom2->getY(j));
                        if (!geoConvHelper.x2cartesian(pos)) {
                            WRITE_ERROR("Unable to project coordinates for polygon '" + tid + "'.");
                        }
                        shape.push_back_noDoublePos(pos);
                    }
                    Polygon* poly = new Polygon(tid, type, color, shape, false, (SUMOReal)layer);
                    if (!toFill.insert(tid, poly, layer)) {
                        WRITE_ERROR("Polygon '" + tid + "' could not be added.");
                        delete poly;
                    }
                }
            }
            break;
            case wkbMultiPolygon: {
                OGRMultiPolygon* cgeom = (OGRMultiPolygon*) poGeometry;
                for (int i = 0; i < cgeom->getNumGeometries(); ++i) {
                    OGRLinearRing* cgeom2 = ((OGRPolygon*) cgeom->getGeometryRef(i))->getExteriorRing();
                    PositionVector shape;
                    std::string tid = id + "#" + toString(i);
                    for (int j = 0; j < cgeom2->getNumPoints(); j++) {
                        Position pos((SUMOReal) cgeom2->getX(j), (SUMOReal) cgeom2->getY(j));
                        if (!geoConvHelper.x2cartesian(pos)) {
                            WRITE_ERROR("Unable to project coordinates for polygon '" + tid + "'.");
                        }
                        shape.push_back_noDoublePos(pos);
                    }
                    Polygon* poly = new Polygon(tid, type, color, shape, true, (SUMOReal)layer);
                    if (!toFill.insert(tid, poly, layer)) {
                        WRITE_ERROR("Polygon '" + tid + "' could not be added.");
                        delete poly;
                    }
                }
            }
            break;
            default:
                WRITE_WARNING("Unsupported shape type occured (id='" + id + "').");
                break;
        }
        OGRFeature::DestroyFeature(poFeature);
    }
    PROGRESS_DONE_MESSAGE();
#else
    WRITE_ERROR("SUMO was compiled without GDAL support.");
#endif
}
Ejemplo n.º 5
0
OGRErr OGROCIWritableLayer::TranslateToSDOGeometry( OGRGeometry * poGeometry,
                                                    int *pnGType )

{
    nOrdinalCount = 0;
    nElemInfoCount = 0;

    if( poGeometry == NULL )
        return OGRERR_FAILURE;

/* ==================================================================== */
/*      Handle a point geometry.                                        */
/* ==================================================================== */
    if( wkbFlatten(poGeometry->getGeometryType()) == wkbPoint )
    {
#ifdef notdef
        char szResult[1024];
        OGRPoint *poPoint = (OGRPoint *) poGeometry;

        if( nDimension == 2 )
            CPLsprintf( szResult, 
                     "%s(%d,%s,MDSYS.SDO_POINT_TYPE(%.16g,%.16g,0.0),NULL,NULL)",
                     SDO_GEOMETRY, 2001, szSRID, 
                     poPoint->getX(), poPoint->getY() );
        else
            CPLsprintf( szResult, 
                     "%s(%d,%s,MDSYS.SDO_POINT_TYPE(%.16g,%.16g,%.16g),NULL,NULL)",
                     SDO_GEOMETRY, 3001, szSRID, 
                     poPoint->getX(), poPoint->getY(), poPoint->getZ() );

        return CPLStrdup(szResult );
#endif
    }

/* ==================================================================== */
/*      Handle a line string geometry.                                  */
/* ==================================================================== */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbLineString )
    {
        *pnGType = nDimension * 1000 + 2;
        TranslateElementGroup( poGeometry );
        return OGRERR_NONE;
    }

/* ==================================================================== */
/*      Handle a polygon geometry.                                      */
/* ==================================================================== */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbPolygon )
    {
        *pnGType = nDimension == 2 ? 2003 : 3003;
        TranslateElementGroup( poGeometry );
        return OGRERR_NONE;
    }

/* ==================================================================== */
/*      Handle a multi point geometry.                                  */
/* ==================================================================== */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint )
    {
        OGRMultiPoint *poMP = (OGRMultiPoint *) poGeometry;
        int  iVert;

        *pnGType = nDimension*1000 + 5;
        PushElemInfo( 1, 1, poMP->getNumGeometries() );
        
        for( iVert = 0; iVert < poMP->getNumGeometries(); iVert++ )
        {
            OGRPoint *poPoint = (OGRPoint *)poMP->getGeometryRef( iVert );

            PushOrdinal( poPoint->getX() );
            PushOrdinal( poPoint->getY() );
            if( nDimension == 3 )
                PushOrdinal( poPoint->getZ() );
        }

        return OGRERR_NONE;
    }

/* ==================================================================== */
/*      Handle other geometry collections.                              */
/* ==================================================================== */
    else
    {
/* -------------------------------------------------------------------- */
/*      Identify the GType.                                             */
/* -------------------------------------------------------------------- */
        if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString )
            *pnGType = nDimension * 1000 + 6;
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon )
            *pnGType = nDimension * 1000 + 7;
        else if( wkbFlatten(poGeometry->getGeometryType()) 
                 == wkbGeometryCollection )
            *pnGType = nDimension * 1000 + 4;
        else 
        {
            CPLError( CE_Failure, CPLE_AppDefined,
                      "Unexpected geometry type (%d/%s) in "
                      "OGROCIWritableLayer::TranslateToSDOGeometry()",
                      poGeometry->getGeometryType(), 
                      poGeometry->getGeometryName() );
            return OGRERR_FAILURE;
        }

/* -------------------------------------------------------------------- */
/*      Translate each child in turn.                                   */
/* -------------------------------------------------------------------- */
        OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeometry;
        int  iChild;

        for( iChild = 0; iChild < poGC->getNumGeometries(); iChild++ )
            TranslateElementGroup( poGC->getGeometryRef(iChild) );

        return OGRERR_NONE;
    }

    return OGRERR_FAILURE;
}
Ejemplo n.º 6
0
int main()
{
    GDALAllRegister();  //register all the format drivers
    cout << "GDAL All Registed!" << endl;

    GDALDataset *poDS;  //Data source
    poDS = (GDALDataset*) GDALOpenEx("./beijing/road/Nbeijing_point.shp", GDAL_OF_VECTOR, NULL, NULL, NULL);
    if(poDS == NULL)
    {
        cout << "Open shp file failed!" << endl;
        exit(1);
    }
    cout << "Data source open success!" << endl;

    int layerNum = poDS->GetLayerCount();   //a dataset may have many layers
    cout << "Layer number:" << layerNum << endl;

    OGRLayer *poLayer;
    poLayer = poDS->GetLayerByName("Nbeijing_point");
    
    //feature is a geometry and a set of attributes
    OGRFeature *poFeature;
    poLayer->ResetReading();    //Start at the beginning of the layer
    cout << "Feature number:" << poLayer->GetFeatureCount() << endl;

    stringstream ss;
    map<string, pair<double, double> > mip;
    map<string, pair<double, double> >::iterator imip;
    
	ofstream ofile("beijingNode");

    string id;
	int	crossFlag;
	string stmp, stmp2;
	vector<string> vs;
	vector<string>::iterator ivs;
    while((poFeature = poLayer->GetNextFeature()) != NULL)
    {
        //Defn contains the definition of all the fields
        OGRFeatureDefn *poFDefn = poLayer->GetLayerDefn();
//        for(iField = 0; iField < poFDefn->GetFieldCount(); iField++)
 //       {
//        OGRFieldDefn * poFieldDefn = poFDefn->GetFieldDefn(iField);
        id = poFeature->GetFieldAsString(1);

		ofile << id;

		crossFlag = poFeature->GetFieldAsInteger(4);
		if(crossFlag == 0)
		{
			ofile << "\t" << crossFlag << "\t" << 0 << "\t" << 0 << "\t" << 0;
		}
		else if(crossFlag == 1)
		{	
			ofile << "\t" << crossFlag << "\t" << 0 << "\t" << poFeature->GetFieldAsInteger(7) << "\t" << 0;
		}
		else if(crossFlag == 2)
		{
			stmp = poFeature->GetFieldAsString(6);
			vs = split(stmp, "|");
			ofile << "\t" << crossFlag << "\t" << vs.size();
			for(ivs = vs.begin(); ivs != vs.end(); ivs++)
				ofile << "\t" << *ivs;
			vs.clear();
			ofile << "\t" << poFeature->GetFieldAsInteger(7) << "\t" << 0;
		}
		else if(crossFlag == 3)
		{
			stmp = poFeature->GetFieldAsString(6);
			vs = split(stmp, "|");
			ofile << "\t" << crossFlag << "\t" << vs.size();
			for(ivs = vs.begin(); ivs != vs.end(); ivs++)
				ofile << "\t" << *ivs;
			vs.clear();
			
			ofile << "\t" << poFeature->GetFieldAsInteger(7);
			stmp = poFeature->GetFieldAsString(8);
			stmp2 = poFeature->GetFieldAsString(9);
			if(stmp2 != "")
				stmp += "|" + stmp2;
			vs = split(stmp, "|");
			ofile << "\t" << vs.size();
			for(ivs = vs.begin(); ivs != vs.end(); ivs++)
				ofile << "\t" << *ivs;
			vs.clear();
		}
	
		ofile << "\t" << poFeature->GetFieldAsString(11);

		stmp = poFeature->GetFieldAsString(12);
		vs = split(stmp, "|");
		ofile << "\t" << vs.size();
		for(ivs = vs.begin(); ivs != vs.end(); ivs++)
			ofile << "\t" << *ivs;
		vs.clear();
/*            if(poFieldDefn->GetType() == OFTInteger)
                cout << poFeature->GetFieldAsInteger(iField) << ", ";
            else if(poFieldDefn->GetType() == OFTInteger64)
                cout << poFeature->GetFieldAsInteger64(iField) << ", ";
            else if(poFieldDefn->GetType() == OFTReal)
                cout << setprecision(15) << poFeature->GetFieldAsDouble(iField) << ", ";
            else if(poFieldDefn->GetType() == OFTString)
                cout << poFeature->GetFieldAsString(iField) << ", ";
            else
                cout << poFeature->GetFieldAsString(iField) << ", ";*/
//        }

        OGRGeometry *poGeometry;
        poGeometry = poFeature->GetGeometryRef();
//        cout << "Geometry Type:" << poGeometry->getGeometryType() << endl;
        if(poGeometry != NULL && wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint)
        {
            OGRMultiPoint *poMultiPoint = (OGRMultiPoint*)poGeometry;
  //          cout << "Number in the MultiPoint:" << poMultiPoint->getNumGeometries() << endl;

            OGRGeometry *pG;
            pG = poMultiPoint->getGeometryRef(0);
            OGRPoint *pP = (OGRPoint*)pG;
			ofile << "\t" <<  pP->getY() << "\t" << pP->getX();
//            pP->flattenTo2D();
 //           cout <<  setprecision(15) << pP->getY() << ", " << pP->getX() << endl;
 //           mip[id] = make_pair(pP->getY(), pP->getX());
            
         }
        else
            cout << "No Point Geometry" << endl;
		ofile << endl;
        OGRFeature::DestroyFeature(poFeature);
    }

/*	cout << "Writing nodes" << endl;
    for(imip = mip.begin(); imip != mip.end(); imip++)
        ofile << setprecision(15) << (*imip).first << "\t" << (*imip).second.first << "\t" << (*imip).second.second << endl;*/

    GDALClose(poFeature);
    ofile.close();

    return 0;
}
Ejemplo n.º 7
0
int S57Writer::WritePrimitive( OGRFeature *poFeature )

{
    DDFRecord *poRec = MakeRecord();
    DDFField *poField;
    OGRGeometry *poGeom = poFeature->GetGeometryRef();

/* -------------------------------------------------------------------- */
/*      Add the VRID field.                                             */
/* -------------------------------------------------------------------- */

    poField = poRec->AddField( poModule->FindFieldDefn( "VRID" ) );

    poRec->SetIntSubfield   ( "VRID", 0, "RCNM", 0, 
                              poFeature->GetFieldAsInteger( "RCNM") );
    poRec->SetIntSubfield   ( "VRID", 0, "RCID", 0, 
                              poFeature->GetFieldAsInteger( "RCID") );
    poRec->SetIntSubfield   ( "VRID", 0, "RVER", 0, 1 );
    poRec->SetIntSubfield   ( "VRID", 0, "RUIN", 0, 1 );

/* -------------------------------------------------------------------- */
/*      Handle simple point.                                            */
/* -------------------------------------------------------------------- */
    if( poGeom != NULL && wkbFlatten(poGeom->getGeometryType()) == wkbPoint )
    {
        double dfX, dfY, dfZ;
        OGRPoint *poPoint = (OGRPoint *) poGeom;

        CPLAssert( poFeature->GetFieldAsInteger( "RCNM") == RCNM_VI 
                   || poFeature->GetFieldAsInteger( "RCNM") == RCNM_VC ); 

        dfX = poPoint->getX();
        dfY = poPoint->getY();
        dfZ = poPoint->getZ();
        
        if( dfZ == 0.0 )
            WriteGeometry( poRec, 1, &dfX, &dfY, NULL );
        else
            WriteGeometry( poRec, 1, &dfX, &dfY, &dfZ );
    }

/* -------------------------------------------------------------------- */
/*      For multipoints we assuming SOUNDG, and write out as SG3D.      */
/* -------------------------------------------------------------------- */
    else if( poGeom != NULL 
             && wkbFlatten(poGeom->getGeometryType()) == wkbMultiPoint )
    {
        OGRMultiPoint *poMP = (OGRMultiPoint *) poGeom;
        int i, nVCount = poMP->getNumGeometries();
        double *padfX, *padfY, *padfZ;

        CPLAssert( poFeature->GetFieldAsInteger( "RCNM") == RCNM_VI 
                   || poFeature->GetFieldAsInteger( "RCNM") == RCNM_VC ); 

        padfX = (double *) CPLMalloc(sizeof(double) * nVCount);
        padfY = (double *) CPLMalloc(sizeof(double) * nVCount);
        padfZ = (double *) CPLMalloc(sizeof(double) * nVCount);

        for( i = 0; i < nVCount; i++ )
        {
            OGRPoint *poPoint = (OGRPoint *) poMP->getGeometryRef( i );
            padfX[i] = poPoint->getX();
            padfY[i] = poPoint->getY();
            padfZ[i] = poPoint->getZ();
        }

        WriteGeometry( poRec, nVCount, padfX, padfY, padfZ );

        CPLFree( padfX );
        CPLFree( padfY );
        CPLFree( padfZ );
    }

/* -------------------------------------------------------------------- */
/*      Handle LINESTRINGs (edge) geometry.                             */
/* -------------------------------------------------------------------- */
    else if( poGeom != NULL 
             && wkbFlatten(poGeom->getGeometryType()) == wkbLineString )
    {
        OGRLineString *poLS = (OGRLineString *) poGeom;
        int i, nVCount = poLS->getNumPoints();
        double *padfX, *padfY;

        CPLAssert( poFeature->GetFieldAsInteger( "RCNM") == RCNM_VE );

        padfX = (double *) CPLMalloc(sizeof(double) * nVCount);
        padfY = (double *) CPLMalloc(sizeof(double) * nVCount);

        for( i = 0; i < nVCount; i++ )
        {
            padfX[i] = poLS->getX(i);
            padfY[i] = poLS->getY(i);
        }

        WriteGeometry( poRec, nVCount, padfX, padfY, NULL );

        CPLFree( padfX );
        CPLFree( padfY );
        
    }

/* -------------------------------------------------------------------- */
/*      edge node linkages.                                             */
/* -------------------------------------------------------------------- */
    if( poFeature->GetDefnRef()->GetFieldIndex( "NAME_RCNM_0" ) >= 0 )
    {
        DDFField *poField;
        char     szName[5];
        int      nRCID;

        CPLAssert( poFeature->GetFieldAsInteger( "NAME_RCNM_0") == RCNM_VC );

        poField = poRec->AddField( poModule->FindFieldDefn( "VRPT" ) );
        
        nRCID = poFeature->GetFieldAsInteger( "NAME_RCID_0");
        szName[0] = RCNM_VC;
        szName[1] = nRCID & 0xff;
        szName[2] = (nRCID & 0xff00) >> 8;
        szName[3] = (nRCID & 0xff0000) >> 16;
        szName[4] = (nRCID & 0xff000000) >> 24;
        
        poRec->SetStringSubfield( "VRPT", 0, "NAME", 0, szName, 5 );
        poRec->SetIntSubfield   ( "VRPT", 0, "ORNT", 0, 
                                  poFeature->GetFieldAsInteger( "ORNT_0") );
        poRec->SetIntSubfield   ( "VRPT", 0, "USAG", 0, 
                                  poFeature->GetFieldAsInteger( "USAG_0") );
        poRec->SetIntSubfield   ( "VRPT", 0, "TOPI", 0, 
                                  poFeature->GetFieldAsInteger( "TOPI_0") );
        poRec->SetIntSubfield   ( "VRPT", 0, "MASK", 0, 
                                  poFeature->GetFieldAsInteger( "MASK_0") );
        
        nRCID = poFeature->GetFieldAsInteger( "NAME_RCID_1");
        szName[0] = RCNM_VC;
        szName[1] = nRCID & 0xff;
        szName[2] = (nRCID & 0xff00) >> 8;
        szName[3] = (nRCID & 0xff0000) >> 16;
        szName[4] = (nRCID & 0xff000000) >> 24;

        poRec->SetStringSubfield( "VRPT", 0, "NAME", 1, szName, 5 );
        poRec->SetIntSubfield   ( "VRPT", 0, "ORNT", 1, 
                                  poFeature->GetFieldAsInteger( "ORNT_1") );
        poRec->SetIntSubfield   ( "VRPT", 0, "USAG", 1, 
                                  poFeature->GetFieldAsInteger( "USAG_1") );
        poRec->SetIntSubfield   ( "VRPT", 0, "TOPI", 1, 
                                  poFeature->GetFieldAsInteger( "TOPI_1") );
        poRec->SetIntSubfield   ( "VRPT", 0, "MASK", 1, 
                                  poFeature->GetFieldAsInteger( "MASK_1") );
    }