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; }