public static IGdalRead CreateGdalRead(string filePath) { OSGeo.OGR.DataSource poDataSource = OSGeo.OGR.Ogr.Open(filePath, 0); string strDriverName = poDataSource.GetDriver().GetName(); IGdalRead pGdalRead = null; switch (strDriverName) { case "GeoJSON": pGdalRead = new GdalRead_GeoJson(); break; case "ESRI Shapefile": pGdalRead = new GdalRead_SHP(); break; default: break; } poDataSource.Dispose(); return(pGdalRead); }
protected override void SolveInstance(IGH_DataAccess DA) { ///Gather GHA inputs List <Curve> boundary = new List <Curve>(); DA.GetDataList <Curve>("Boundary", boundary); string shpFileLoc = ""; DA.GetData <string>("Vector Data Location", ref shpFileLoc); bool cropIt = true; DA.GetData <Boolean>("Crop file", ref cropIt); string userSRStext = "WGS84"; DA.GetData <string>(2, ref userSRStext); ///GDAL setup ///Some preliminary testing has been done to read SHP, GeoJSON, OSM, KML, MVT, GML and GDB ///It can be spotty with KML, MVT and GML and doesn't throw informative errors. Likely has to do with getting a valid CRS and ///TODO: resolve errors with reading KML, MVT, GML. RESTful.GdalConfiguration.ConfigureOgr(); OSGeo.OGR.Ogr.RegisterAll(); OSGeo.OGR.Driver drv = OSGeo.OGR.Ogr.GetDriverByName("ESRI Shapefile"); OSGeo.OGR.DataSource ds = OSGeo.OGR.Ogr.Open(shpFileLoc, 0); if (ds == null) { AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "The vector datasource was unreadable by this component. It may not a valid file type for this component or otherwise null/empty."); return; } List <OSGeo.OGR.Layer> layerset = new List <OSGeo.OGR.Layer>(); List <int> fc = new List <int>(); for (int iLayer = 0; iLayer < ds.GetLayerCount(); iLayer++) { OSGeo.OGR.Layer layer = ds.GetLayerByIndex(iLayer); if (layer == null) { Console.WriteLine("Couldn't fetch advertised layer " + iLayer); System.Environment.Exit(-1); } else { layerset.Add(layer); } } ///Declare trees GH_Structure <GH_Rectangle> recs = new GH_Structure <GH_Rectangle>(); GH_Structure <GH_String> sRefs = new GH_Structure <GH_String>(); GH_Structure <GH_String> fnames = new GH_Structure <GH_String>(); GH_Structure <GH_String> fset = new GH_Structure <GH_String>(); GH_Structure <GH_Point> gset = new GH_Structure <GH_Point>(); GH_Structure <GH_Point> gsetUser = new GH_Structure <GH_Point>(); GH_Structure <GH_Rectangle> recsUser = new GH_Structure <GH_Rectangle>(); GH_Structure <GH_String> gtype = new GH_Structure <GH_String>(); GH_Structure <IGH_GeometricGoo> gGoo = new GH_Structure <IGH_GeometricGoo>(); ///Loop through each layer. Layers usually occur in Geodatabase GDB format. SHP usually has only one layer. for (int iLayer = 0; iLayer < ds.GetLayerCount(); iLayer++) { OSGeo.OGR.Layer layer = ds.GetLayerByIndex(iLayer); if (layer == null) { Console.WriteLine("Couldn't fetch advertised layer " + iLayer); System.Environment.Exit(-1); } long count = layer.GetFeatureCount(1); int featureCount = System.Convert.ToInt32(count); AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Layer #" + iLayer + " " + layer.GetName() + " has " + featureCount + " features"); ///Get the spatial reference of the input vector file and set to WGS84 if not known OSGeo.OSR.SpatialReference sourceSRS = new SpatialReference(Osr.SRS_WKT_WGS84); string sRef = ""; if (layer.GetSpatialRef() == null) { AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Spatial Reference System (SRS) is missing. SRS set automatically set to WGS84."); Driver driver = ds.GetDriver(); if (driver.GetName() == "MVT") { sourceSRS.SetFromUserInput("EPSG:3857"); } else { sourceSRS.SetFromUserInput("WGS84"); } ///this seems to work where SetWellKnownGeogCS doesn't string pretty = ""; sourceSRS.ExportToPrettyWkt(out pretty, 0); AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, pretty); sRef = "Spatial Reference System (SRS) is missing. SRS set automatically set to WGS84."; } else { if (layer.GetSpatialRef().Validate() != 0) { AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Spatial Reference System (SRS) is unknown or unsupported. SRS set automatically set to WGS84."); sourceSRS.SetWellKnownGeogCS("WGS84"); sRef = "Spatial Reference System (SRS) is unknown or unsupported. SRS set automatically set to WGS84."; } else { sourceSRS = layer.GetSpatialRef(); sourceSRS.ExportToWkt(out sRef); try { int sourceSRSInt = Int16.Parse(sourceSRS.GetAuthorityCode(null)); AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "The source Spatial Reference System (SRS) from layer " + layer.GetName() + " is EPSG:" + sourceSRSInt + "."); } catch { AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Failed to get an EPSG Spatial Reference System (SRS) from layer " + layer.GetName() + "."); } } } sRefs.Append(new GH_String(sRef), new GH_Path(iLayer)); ///Set transform from input spatial reference to Rhino spatial reference ///TODO: look into adding a step for transforming to CRS set in SetCRS OSGeo.OSR.SpatialReference rhinoSRS = new OSGeo.OSR.SpatialReference(""); rhinoSRS.SetWellKnownGeogCS("WGS84"); ///TODO: verify the userSRS is valid ///TODO: use this as override of global SetSRS OSGeo.OSR.SpatialReference userSRS = new OSGeo.OSR.SpatialReference(""); userSRS.SetFromUserInput(userSRStext); ///These transforms move and scale in order to go from userSRS to XYZ and vice versa Transform userSRSToModelTransform = Heron.Convert.GetUserSRSToModelTransform(userSRS); Transform modelToUserSRSTransform = Heron.Convert.GetModelToUserSRSTransform(userSRS); Transform sourceToModelSRSTransform = Heron.Convert.GetUserSRSToModelTransform(sourceSRS); Transform modelToSourceSRSTransform = Heron.Convert.GetModelToUserSRSTransform(sourceSRS); ///Get OGR envelope of the data in the layer in the sourceSRS OSGeo.OGR.Envelope ext = new OSGeo.OGR.Envelope(); layer.GetExtent(ext, 1); OSGeo.OGR.Geometry extMinSourceOgr = new OSGeo.OGR.Geometry(wkbGeometryType.wkbPoint); extMinSourceOgr.AddPoint(ext.MinX, ext.MinY, 0.0); extMinSourceOgr.AssignSpatialReference(sourceSRS); OSGeo.OGR.Geometry extMaxSourceOgr = new OSGeo.OGR.Geometry(wkbGeometryType.wkbPoint); extMaxSourceOgr.AddPoint(ext.MaxX, ext.MaxY, 0.0); extMaxSourceOgr.AssignSpatialReference(sourceSRS); ///Get extents in Rhino SRS Point3d extPTmin = Heron.Convert.OgrPointToPoint3d(extMinSourceOgr, sourceToModelSRSTransform); Point3d extPTmax = Heron.Convert.OgrPointToPoint3d(extMaxSourceOgr, sourceToModelSRSTransform); Rectangle3d rec = new Rectangle3d(Plane.WorldXY, extPTmin, extPTmax); recs.Append(new GH_Rectangle(rec), new GH_Path(iLayer)); ///Get extents in userSRS ///Can give odd results if crosses 180 longitude extMinSourceOgr.TransformTo(userSRS); extMaxSourceOgr.TransformTo(userSRS); Point3d extPTminUser = Heron.Convert.OgrPointToPoint3d(extMinSourceOgr, userSRSToModelTransform); Point3d extPTmaxUser = Heron.Convert.OgrPointToPoint3d(extMaxSourceOgr, userSRSToModelTransform); Rectangle3d recUser = new Rectangle3d(Plane.WorldXY, extPTminUser, extPTmaxUser); recsUser.Append(new GH_Rectangle(recUser), new GH_Path(iLayer)); if (boundary.Count == 0 && cropIt == true) { AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Define a boundary or set cropIt to False"); } else if (boundary.Count == 0 && cropIt == false) { AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Clipping boundary has not been defined. File extents will be used instead"); boundary.Add(rec.ToNurbsCurve()); } ///Loop through input boundaries for (int i = 0; i < boundary.Count; i++) { OSGeo.OGR.FeatureDefn def = layer.GetLayerDefn(); ///Get the field names List <string> fieldnames = new List <string>(); for (int iAttr = 0; iAttr < def.GetFieldCount(); iAttr++) { OSGeo.OGR.FieldDefn fdef = def.GetFieldDefn(iAttr); fnames.Append(new GH_String(fdef.GetNameRef()), new GH_Path(i, iLayer)); } ///Check if boundary is contained in extent if (!rec.IsValid || ((rec.Height == 0) && (rec.Width == 0))) { ///Get field data if even if no geometry is present in the layer AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "One or more vector datasource bounds are not valid."); OSGeo.OGR.Feature feat; int m = 0; while ((feat = layer.GetNextFeature()) != null) { ///Loop through field values for (int iField = 0; iField < feat.GetFieldCount(); iField++) { OSGeo.OGR.FieldDefn fdef = def.GetFieldDefn(iField); fset.Append(new GH_String(feat.GetFieldAsString(iField)), new GH_Path(i, iLayer, m)); fdef.Dispose(); } m++; feat.Dispose(); } } else if (boundary[i] == null) { AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Clipping boundary " + i + " not set."); } else if (!boundary[i].IsValid) { AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "Clipping boundary " + i + " is not valid."); } else if (rec.IsValid && Curve.PlanarClosedCurveRelationship(rec.ToNurbsCurve(), boundary[i], Plane.WorldXY, Rhino.RhinoDoc.ActiveDoc.ModelAbsoluteTolerance) == RegionContainment.Disjoint) { AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, "One or more clipping boundaries may be outside the bounds of the vector datasource."); } else { ///Create bounding box for clipping geometry Point3d min = boundary[i].GetBoundingBox(true).Min; Point3d max = boundary[i].GetBoundingBox(true).Max; min.Transform(modelToSourceSRSTransform); max.Transform(modelToSourceSRSTransform); double[] minpT = new double[3]; double[] maxpT = new double[3]; minpT[0] = min.X; minpT[1] = min.Y; minpT[2] = min.Z; maxpT[0] = max.X; maxpT[1] = max.Y; maxpT[2] = max.Z; OSGeo.OGR.Geometry ebbox = OSGeo.OGR.Geometry.CreateFromWkt("POLYGON((" + minpT[0] + " " + minpT[1] + ", " + minpT[0] + " " + maxpT[1] + ", " + maxpT[0] + " " + maxpT[1] + ", " + maxpT[0] + " " + minpT[1] + ", " + minpT[0] + " " + minpT[1] + "))"); ///Create bounding box for clipping geometry ///Not working on MVT type files //boundary[i].Transform(modelToSourceSRSTransform); //OSGeo.OGR.Geometry ebbox = Heron.Convert.CurveToOgrPolygon(boundary[i]); ///Clip Shapefile ///http://pcjericks.github.io/py-gdalogr-cookbook/vector_layers.html OSGeo.OGR.Layer clipped_layer = layer; if (cropIt) { clipped_layer.SetSpatialFilter(ebbox); } ///Loop through geometry OSGeo.OGR.Feature feat; def = clipped_layer.GetLayerDefn(); int m = 0; while ((feat = clipped_layer.GetNextFeature()) != null) { OSGeo.OGR.Geometry geom = feat.GetGeometryRef(); OSGeo.OGR.Geometry sub_geom; OSGeo.OGR.Geometry geomUser = feat.GetGeometryRef().Clone(); OSGeo.OGR.Geometry sub_geomUser; ///reproject geometry to WGS84 and userSRS ///TODO: look into using the SetCRS global variable here if (geom.GetSpatialReference() == null) { geom.AssignSpatialReference(sourceSRS); } if (geomUser.GetSpatialReference() == null) { geomUser.AssignSpatialReference(sourceSRS); } geom.TransformTo(rhinoSRS); geomUser.TransformTo(userSRS); gtype.Append(new GH_String(geom.GetGeometryName()), new GH_Path(i, iLayer, m)); if (feat.GetGeometryRef() != null) { ///Convert GDAL geometries to IGH_GeometricGoo gGoo.AppendRange(Heron.Convert.OgrGeomToGHGoo(geomUser, userSRSToModelTransform), new GH_Path(i, iLayer, m)); /// Get Feature Values if (fset.PathExists(new GH_Path(i, iLayer, m))) { fset.get_Branch(new GH_Path(i, iLayer, m)).Clear(); } for (int iField = 0; iField < feat.GetFieldCount(); iField++) { OSGeo.OGR.FieldDefn fdef = def.GetFieldDefn(iField); if (feat.IsFieldSet(iField)) { fset.Append(new GH_String(feat.GetFieldAsString(iField)), new GH_Path(i, iLayer, m)); } else { fset.Append(new GH_String("null"), new GH_Path(i, iLayer, m)); } } ///End get Feature Values ///Start get points if open polylines and points for (int gpc = 0; gpc < geom.GetPointCount(); gpc++) { ///Loop through geometry points for Rhino SRS double[] ogrPt = new double[3]; geom.GetPoint(gpc, ogrPt); Point3d pt3D = new Point3d(ogrPt[0], ogrPt[1], ogrPt[2]); pt3D.Transform(Heron.Convert.WGSToXYZTransform()); gset.Append(new GH_Point(pt3D), new GH_Path(i, iLayer, m)); ///Loop through geometry points for User SRS double[] ogrPtUser = new double[3]; geomUser.GetPoint(gpc, ogrPtUser); Point3d pt3DUser = new Point3d(ogrPtUser[0], ogrPtUser[1], ogrPtUser[2]); pt3DUser.Transform(userSRSToModelTransform); gsetUser.Append(new GH_Point(pt3DUser), new GH_Path(i, iLayer, m)); ///End loop through geometry points /// Get Feature Values if (fset.PathExists(new GH_Path(i, iLayer, m))) { fset.get_Branch(new GH_Path(i, iLayer, m)).Clear(); } for (int iField = 0; iField < feat.GetFieldCount(); iField++) { OSGeo.OGR.FieldDefn fdef = def.GetFieldDefn(iField); if (feat.IsFieldSet(iField)) { fset.Append(new GH_String(feat.GetFieldAsString(iField)), new GH_Path(i, iLayer, m)); } else { fset.Append(new GH_String("null"), new GH_Path(i, iLayer, m)); } } ///End Get Feature Values } ///End getting points if open polylines or points ///Start getting points if closed polylines and multipolygons for (int gi = 0; gi < geom.GetGeometryCount(); gi++) { sub_geom = geom.GetGeometryRef(gi); OSGeo.OGR.Geometry subsub_geom; sub_geomUser = geomUser.GetGeometryRef(gi); OSGeo.OGR.Geometry subsub_geomUser; if (sub_geom.GetGeometryCount() > 0) { for (int n = 0; n < sub_geom.GetGeometryCount(); n++) { subsub_geom = sub_geom.GetGeometryRef(n); subsub_geomUser = sub_geomUser.GetGeometryRef(n); for (int ptnum = 0; ptnum < subsub_geom.GetPointCount(); ptnum++) { ///Loop through geometry points double[] ogrPt = new double[3]; subsub_geom.GetPoint(ptnum, ogrPt); Point3d pt3D = new Point3d(ogrPt[0], ogrPt[1], ogrPt[2]); pt3D.Transform(Heron.Convert.WGSToXYZTransform()); gset.Append(new GH_Point(pt3D), new GH_Path(i, iLayer, m, gi, n)); ///Loop through geometry points for User SRS double[] ogrPtUser = new double[3]; subsub_geomUser.GetPoint(ptnum, ogrPtUser); Point3d pt3DUser = new Point3d(ogrPtUser[0], ogrPtUser[1], ogrPtUser[2]); pt3DUser.Transform(userSRSToModelTransform); gsetUser.Append(new GH_Point(pt3DUser), new GH_Path(i, iLayer, m, gi, n)); ///End loop through geometry points } subsub_geom.Dispose(); subsub_geomUser.Dispose(); } } else { for (int ptnum = 0; ptnum < sub_geom.GetPointCount(); ptnum++) { ///Loop through geometry points double[] ogrPt = new double[3]; sub_geom.GetPoint(ptnum, ogrPt); Point3d pt3D = new Point3d(ogrPt[0], ogrPt[1], ogrPt[2]); pt3D.Transform(Heron.Convert.WGSToXYZTransform()); gset.Append(new GH_Point(pt3D), new GH_Path(i, iLayer, m, gi)); ///Loop through geometry points for User SRS double[] ogrPtUser = new double[3]; sub_geomUser.GetPoint(ptnum, ogrPtUser); Point3d pt3DUser = new Point3d(ogrPtUser[0], ogrPtUser[1], ogrPtUser[2]); pt3DUser.Transform(userSRSToModelTransform); gsetUser.Append(new GH_Point(pt3DUser), new GH_Path(i, iLayer, m, gi)); ///End loop through geometry points } } sub_geom.Dispose(); sub_geomUser.Dispose(); /// Get Feature Values if (fset.PathExists(new GH_Path(i, iLayer, m))) { fset.get_Branch(new GH_Path(i, iLayer, m)).Clear(); } for (int iField = 0; iField < feat.GetFieldCount(); iField++) { OSGeo.OGR.FieldDefn fdef = def.GetFieldDefn(iField); if (feat.IsFieldSet(iField)) { fset.Append(new GH_String(feat.GetFieldAsString(iField)), new GH_Path(i, iLayer, m)); } else { fset.Append(new GH_String("null"), new GH_Path(i, iLayer, m)); } } ///End Get Feature Values } //m++; } m++; geom.Dispose(); geomUser.Dispose(); feat.Dispose(); } ///end while loop through features } ///end clipped layer else statement } ///end loop through boundaries layer.Dispose(); }///end loop through layers ds.Dispose(); DA.SetDataTree(0, recs); DA.SetDataTree(1, sRefs); DA.SetDataTree(2, fnames); DA.SetDataTree(3, fset); DA.SetDataTree(4, gset); DA.SetDataTree(5, gsetUser); DA.SetDataTree(6, recsUser); DA.SetDataTree(7, gGoo); DA.SetDataTree(8, gtype); }