public static bool Json2Pgsql(
string jsonFile, string pgSqlConn, string[] options)
{
using (Dataset inputds = Gdal.OpenEx(
jsonFile, (uint)GdalConst.OF_READONLY, null, null, null))
{
if (inputds == null)
{
return(false);
}
Dataset outputds = Gdal.OpenEx(
pgSqlConn, (uint)(GdalConst.OF_VECTOR), null, null, null);
if (outputds == null)
{
inputds.Dispose(); return(false);
}
try
{
int test = Gdal.wrapper_GDALVectorTranslateDestDS(
outputds, inputds,
new GDALVectorTranslateOptions(options), null, null);
}
catch (Exception) { return(false); }
finally
{
inputds.Dispose();
outputds.Dispose();
}
}
return(true);
}
public static bool Pgsql2Json(
string pgSqlConn, string jsonFile, string[] options)
{
using (Dataset inputds = Gdal.OpenEx(
pgSqlConn, (uint)GdalConst.OF_VECTOR, null, null, null))
{
if (inputds == null)
{
return(false);
}
try
{
Dataset test = Gdal.wrapper_GDALVectorTranslateDestName(
jsonFile, inputds,
new GDALVectorTranslateOptions(options), null, null);
if (test == null)
{
inputds.Dispose();
return(false);
}
test.Dispose();
}
catch (Exception) { return(false); }
finally
{
inputds.Dispose();
}
}
return(true);
}
public static bool Translate(
string inputFile, string outputFile, string[] options)
{
using (Dataset inputds = Gdal.OpenEx(
inputFile, (uint)GdalConst.OF_RASTER, null, null, null))
{
if (inputds == null)
{
return(false);
}
try
{
Dataset test = Gdal.wrapper_GDALTranslate(
outputFile, inputds,
new GDALTranslateOptions(options), null, null);
if (test == null)
{
inputds.Dispose();
return(false);
}
test.Dispose();
}
catch (Exception) { return(false); }
finally
{
inputds.Dispose();
}
}
return(true);
}
/// <summary>
/// Performs IDW with NN surface interpolation
/// </summary>
/// <param name="InputVector"></param>
/// <param name="OutputTIFF"></param>
public static void IDWwithNearestNeighbour(string InputVector, string OutputTIFF)
{
// No se realiza ningún tipo de reproyección, el TIFF se genera con el mismo sistema de coordenadas que el vectorial de entrada
// Dimensiones del raster de salida (todas las coordenadas se establecel en unidades del sistema de coordinadas del vectorial de entrada)
double CellSize = 10000;
double xMin = 360000;
double yMax = 4830000;
int NumCols = 59;
int NumRows = 39;
double yMin = yMax - (NumRows * CellSize);
double xMax = xMin + (NumCols * CellSize);
//-----------------------------
// Parámetros de interpolación
//-----------------------------
var cul = System.Globalization.CultureInfo.InvariantCulture;
var parameters = new List <string>();
parameters.AddRange(new string[] { "-zfield", "rainfall" }); // Campo con datos para interpolar
parameters.AddRange(new string[] { "-txe", xMin.ToString(cul), xMax.ToString(cul) });
parameters.AddRange(new string[] { "-tye", yMin.ToString(cul), yMax.ToString(cul) });
parameters.AddRange(new string[] { "-outsize", NumCols.ToString(cul), NumRows.ToString(cul) });
// algoritmo a utilizar (https://gdal.org/programs/gdal_grid.html#interpolation-algorithms)
double radious = Math.Max((xMax - xMin) / 2, (yMax - yMin) / 2);
parameters.AddRange(new string[] { "-a", $"invdistnn:power=2.0:smothing=0.0:radius={radious.ToString(cul)}:max_points=12:min_points=5:nodata=0.0" });
parameters.AddRange(new string[] { "-of", "gtiff" }); // formato de salida
parameters.AddRange(new string[] { "-ot", "Float32" }); // tipo de datos de salida
parameters.AddRange(new string[] { "--config", "GDAL_NUM_THREADS ALL_CPUS" }); // una u otra, no se sabe
parameters.AddRange(new string[] { "--config", "GDAL_NUM_THREADS=ALL_CPUS" }); // una u otra, no se sabe
logger.Trace("Parámetros: " + string.Join(" ", parameters));
//-----------------------------
// Vectorial de entrada
// Si el vectorial tiene algún valor no válido deben ser limpiados aquí
// Ejecución del algoritmo
//-----------------------------
using (var ds = Gdal.OpenEx(InputVector, 0, null, null, null)) {
var gridDS = Gdal.wrapper_GDALGrid(OutputTIFF, ds, new GDALGridOptions(parameters.ToArray()), (Gdal.GDALProgressFuncDelegate)GdalUtils.GDalProgress, string.Empty);
gridDS.SetDescription("SUAT.IDW from pluviometers");
//gridDS.SetMetadata( {"": '1', 'key2': 'yada'} );
}
}
/// <summary>
/// This is the method that actually does the work.
/// </summary>
/// <param name="DA">The DA object is used to retrieve from inputs and store in outputs.</param>
protected override void SolveInstance(IGH_DataAccess DA)
{
string srcFileLocation = string.Empty;
DA.GetData <string>(0, ref srcFileLocation);
string dstFileLocation = string.Empty;
DA.GetData <string>(1, ref dstFileLocation);
string options = string.Empty;
DA.GetData <string>(2, ref options);
var re = new System.Text.RegularExpressions.Regex("(?<=\")[^\"]*(?=\")|[^\" ]+");
string[] ogr2ogrOptions = re.Matches(options).Cast <Match>().Select(m => m.Value).ToArray();
string srcInfo = string.Empty;
string dstInfo = string.Empty;
string dstOutput = string.Empty;
RESTful.GdalConfiguration.ConfigureGdal();
OSGeo.OGR.Ogr.RegisterAll();
AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Look here for more information about options:");
AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "https://gdal.org/programs/ogr2ogr.html");
if (!string.IsNullOrEmpty(srcFileLocation))
{
using (Dataset src = Gdal.OpenEx(srcFileLocation, 0, null, null, null))
{
if (src == null)
{
throw new Exception("Can't open GDAL dataset: " + srcFileLocation);
}
if (!string.IsNullOrEmpty(dstFileLocation))
{
if (File.Exists(dstFileLocation))
{
if (options.Contains("-overwrite"))
{
File.Delete(dstFileLocation);
Dataset dst = Gdal.wrapper_GDALVectorTranslateDestName(dstFileLocation, src, new GDALVectorTranslateOptions(ogr2ogrOptions), null, null);
dst.Dispose();
dstInfo = string.Join("\r\n", OGRInfo(dstFileLocation));
dstOutput = dstFileLocation;
}
else
{
dstInfo = string.Join("\r\n", OGRInfo(dstFileLocation));
dstOutput = dstFileLocation;
AddRuntimeMessage(GH_RuntimeMessageLevel.Warning, dstFileLocation + " already exists. Include '-overwrite' in options to replace it.");
}
}
else
{
Dataset dst = Gdal.wrapper_GDALVectorTranslateDestName(dstFileLocation, src, new GDALVectorTranslateOptions(ogr2ogrOptions), null, null);
dst.Dispose();
dstInfo = string.Join("\r\n", OGRInfo(dstFileLocation));
dstOutput = dstFileLocation;
}
}
src.Dispose();
srcInfo = string.Join("\r\n", OGRInfo(srcFileLocation));
}
}
DA.SetData(0, srcInfo);
DA.SetData(1, dstInfo);
DA.SetData(2, dstOutput);
}
/// <summary>
/// This is the method that actually does the work.
/// </summary>
/// <param name="DA">The DA object is used to retrieve from inputs and store in outputs.</param>
protected override void SolveInstance(IGH_DataAccess DA)
{
///TODO: fix crash with "multi" types in a branch for shapefiles, can't create lines in a points layer
/// fix mesh/polygon face creation issue on sphere, dropping faces or flipped faces
/// fix swtich case for shapfiles so that points and multipoints (eg) are written to the same file. don't use switch anymore, us ifs
/// fix sql statements, they don't seem to have an effect. Need these to work for pulling apart geometry collections.
///Gather GHA inputs
string filename = string.Empty;
DA.GetData <string>("Vector Data Filename", ref filename);
string folder = string.Empty;
DA.GetData <string>("Vector Data Folder", ref folder);
folder = Path.GetFullPath(folder);
if (!folder.EndsWith(Path.DirectorySeparatorChar.ToString()))
{
folder += Path.DirectorySeparatorChar;
}
string shpPath = folder + filename + drvExtension;
///for more than one geometry type, a list of files for shapefile output needs to be established
List <string> shpPathList = new List <string>();
List <string> shpTypeList = new List <string>();
List <string> fields = new List <string>();
DA.GetDataList <string>("Fields", fields);
GH_Structure <GH_String> values = new GH_Structure <GH_String>();
DA.GetDataTree <GH_String>("Values", out values);
GH_Structure <IGH_GeometricGoo> gGoo = new GH_Structure <IGH_GeometricGoo>();
DA.GetDataTree <IGH_GeometricGoo>("Feature Geometry", out gGoo);
bool export = false;
DA.GetData <bool>("Export", ref export);
///GDAL setup
RESTful.GdalConfiguration.ConfigureOgr();
OSGeo.GDAL.Gdal.SetConfigOption("OGR_SKIP", "KML");
string driverType = drvType;
//OSGeo.OGR.Driver drv = Ogr.GetDriverByName("LIBKML");// driverType);
OSGeo.OGR.Driver drv = Ogr.GetDriverByName("GeoJSON");
if (export == true)
{
///File setup for save
FileInfo file = new FileInfo(folder);
file.Directory.Create();
if (File.Exists(shpPath))
{
drv.DeleteDataSource(shpPath);
}
///Create virtual datasource to be converted later
///Using geojson as a flexiblle base file type which can be converted later with ogr2ogr
DataSource ds = drv.CreateDataSource("/vsimem/out.geojson", null);
///Use WGS84 spatial reference
OSGeo.OSR.SpatialReference dst = new OSGeo.OSR.SpatialReference("");
dst.SetWellKnownGeogCS("WGS84");
Transform transform = Heron.Convert.XYZToWGSTransform();
///Use OGR catch-all for geometry types
var gtype = wkbGeometryType.wkbGeometryCollection;
///Create layer
//string[] layerOptions = new string[] { "LIBKML_USE_SCHEMADATA=NO", "LIBKML_USE_SIMPLEFIELD=NO", "LIBKML_ALTITUDEMODE_FIELD=relativeToGround" };
//string[] layerOptions = new string[] { "LIBKML_STRICT_COMPLIANCE=FALSE" };
OSGeo.OGR.Layer layer = ds.CreateLayer(filename, dst, gtype, null);
FeatureDefn def = layer.GetLayerDefn();
///Add fields to layer
for (int f = 0; f < fields.Count; f++)
{
OSGeo.OGR.FieldDefn fname = new OSGeo.OGR.FieldDefn(fields[f], OSGeo.OGR.FieldType.OFTString);
layer.CreateField(fname, f);
}
///Specific fields for LIBKML for use in Google Earth
///See LIBMKL driver for more info https://gdal.org/drivers/vector/libkml.html
if (drvType == "LIBKML")
{
OSGeo.OGR.FieldDefn kmlFieldAltitudeMode = new OSGeo.OGR.FieldDefn("altitudeMode", OSGeo.OGR.FieldType.OFTString);
layer.CreateField(kmlFieldAltitudeMode, fields.Count());
//OSGeo.OGR.FieldDefn kmlFieldExtrude = new OSGeo.OGR.FieldDefn("tessellate", OSGeo.OGR.FieldType.OFTInteger);
//layer.CreateField(kmlFieldExtrude, fields.Count()+1);
}
for (int a = 0; a < gGoo.Branches.Count; a++)
{
///create feature
OSGeo.OGR.Feature feature = new OSGeo.OGR.Feature(def);
///Set LIBKML specific fields for use in Google Earth, defaulting to 'relativeToGround'. Consider setting to 'absolute'.
if (drvType == "LIBKML")
{
feature.SetField("altitudeMode", "relativeToGround");
//feature.SetField("altitudeMode", "absolute");
//feature.SetField("tessellate", 0);
}
///TODO: Build style table
OSGeo.OGR.StyleTable styleTable = new StyleTable();
//feature.SetStyleString("BRUSH(fc:#0000FF);PEN(c:#000000)");
///Get geometry type(s) in branch
var geomList = gGoo.Branches[a];
string geomType = string.Empty;
List <string> geomTypeList = geomList.Select(o => o.TypeName).ToList();
///Test if geometry in the branch is of the same type.
///If there is more than one element of a type, tag as multi, if there is more than one type, tag as mixed
if (geomTypeList.Count == 1)
{
geomType = geomTypeList.First();
}
else if (geomTypeList.Count > 1 && geomTypeList.All(gt => gt == geomTypeList.First()))
{
geomType = "Multi" + geomTypeList.First();
}
else
{
geomType = "Mixed";
}
///For testing
//AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, geomType);
///Add geomtery to feature
///Create containers for translating from GH Goo
Point3d pt = new Point3d();
List <Point3d> pts = new List <Point3d>();
Curve crv = null;
List <Curve> crvs = new List <Curve>();
Mesh mesh = new Mesh();
Mesh multiMesh = new Mesh();
switch (geomType)
{
case "Point":
geomList.First().CastTo <Point3d>(out pt);
feature.SetGeometry(Heron.Convert.Point3dToOgrPoint(pt, transform));
if (!shpTypeList.Contains("POINT"))
{
shpTypeList.Add("POINT");
}
break;
case "MultiPoint":
foreach (var point in geomList)
{
point.CastTo <Point3d>(out pt);
pts.Add(pt);
}
feature.SetGeometry(Heron.Convert.Point3dsToOgrMultiPoint(pts, transform));
if (!shpTypeList.Contains("MULTIPOINT"))
{
shpTypeList.Add("MULTIPOINT");
}
break;
case "Curve":
geomList.First().CastTo <Curve>(out crv);
feature.SetGeometry(Heron.Convert.CurveToOgrLinestring(crv, transform));
if (!shpTypeList.Contains("LINESTRING"))
{
shpTypeList.Add("LINESTRING");
}
break;
case "MultiCurve":
foreach (var curve in geomList)
{
curve.CastTo <Curve>(out crv);
crvs.Add(crv);
}
feature.SetGeometry(Heron.Convert.CurvesToOgrMultiLinestring(crvs, transform));
if (!shpTypeList.Contains("MULTILINESTRING"))
{
shpTypeList.Add("MULTILINESTRING");
}
break;
case "Mesh":
geomList.First().CastTo <Mesh>(out mesh);
feature.SetGeometry(Heron.Convert.MeshToMultiPolygon(mesh, transform));
if (!shpTypeList.Contains("MULTIPOLYGON"))
{
shpTypeList.Add("MULTIPOLYGON");
}
break;
case "MultiMesh":
foreach (var m in geomList)
{
Mesh meshPart = new Mesh();
m.CastTo <Mesh>(out meshPart);
multiMesh.Append(meshPart);
}
feature.SetGeometry(Heron.Convert.MeshToMultiPolygon(multiMesh, transform));
if (!shpTypeList.Contains("MULTIPOLYGON"))
{
shpTypeList.Add("MULTIPOLYGON");
}
break;
case "Mixed":
OSGeo.OGR.Geometry geoCollection = new OSGeo.OGR.Geometry(wkbGeometryType.wkbGeometryCollection);
for (int gInt = 0; gInt < geomList.Count; gInt++)
{
string geomTypeMixed = geomTypeList[gInt];
switch (geomTypeMixed)
{
case "Point":
geomList[gInt].CastTo <Point3d>(out pt);
geoCollection.AddGeometry(Heron.Convert.Point3dToOgrPoint(pt, transform));
break;
case "Curve":
geomList[gInt].CastTo <Curve>(out crv);
geoCollection.AddGeometry(Heron.Convert.CurveToOgrLinestring(crv, transform));
break;
case "Mesh":
geomList[gInt].CastTo <Mesh>(out mesh);
geoCollection.AddGeometry(Ogr.ForceToMultiPolygon(Heron.Convert.MeshToMultiPolygon(mesh, transform)));
break;
default:
AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Not able to export " + geomType + " geometry at branch " + gGoo.get_Path(a).ToString() +
". Geometry must be a Point, Curve or Mesh.");
break;
}
}
feature.SetGeometry(geoCollection);
if (!shpTypeList.Contains("GEOMETRYCOLLECTION"))
{
shpTypeList.Add("GEOMETRYCOLLECTION");
}
break;
default:
AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "Not able to export " + geomType + " geometry at branch " + gGoo.get_Path(a).ToString() +
". Geometry must be a Point, Curve or Mesh.");
break;
}
///Give the feature a unique ID
feature.SetFID(a);
///Add values to fields
GH_Path path = gGoo.get_Path(a);
for (int vInt = 0; vInt < fields.Count; vInt++)
{
string val = string.Empty;
if (values.get_Branch(path) != null)
{
val = values.get_DataItem(path, vInt).ToString();
}
feature.SetField(fields[vInt], val);
}
///Save feature to layer
layer.CreateFeature(feature);
///Cleanup
feature.Dispose();
}
layer.Dispose();
ds.Dispose();
drv.Dispose();
///Convert in memory dataset to file using ogr2ogr
///For KML set 'altitudeMode' to 'relativeToGround' or 'absolute'
///Set base options for all export types
if (drvType == "KML")
{
drvType = "LIBKML";
}
List <string> ogr2ogrOptions = new List <string> {
"-overwrite",
"-f", drvType,
"-dim", "XYZ",
"-skipfailures",
//"-lco", "LIBKML_STRICT_COMPLIANCE=FALSE",
//"-lco", "AltitudeMode=absolute",
//"-dsco", "SHAPE_REWIND_ON_WRITE=YES"
};
Dataset src = Gdal.OpenEx("/vsimem/out.geojson", 0, null, null, null);
if (drvType != "ESRI Shapefile")
{
Dataset destDataset = Gdal.wrapper_GDALVectorTranslateDestName(shpPath, src, new GDALVectorTranslateOptions(ogr2ogrOptions.ToArray()), null, null);
destDataset.Dispose();
shpPathList.Add(shpPath);
}
///Export multiple layers for shapefile
///https://trac.osgeo.org/gdal/wiki/FAQVector#HowdoItranslateamixedgeometryfiletoshapefileformat
else
{
///
if (shpTypeList.Count <= 1 && shpTypeList.First() != "GEOMETRYCOLLECTION")
{
if (shpTypeList.First() == "POLYGON" || shpTypeList.First() == "MULTIPOLYGON")
{
ogr2ogrOptions.AddRange(new List <string> {
"-lco", "SHPT=MULTIPATCH"
});
}
Dataset destDataset = Gdal.wrapper_GDALVectorTranslateDestName(shpPath, src, new GDALVectorTranslateOptions(ogr2ogrOptions.ToArray()), null, null);
destDataset.Dispose();
shpPathList.Add(shpPath);
}
else
{
///Add -explodecollections for mixed geometries in a branch
///"-where" statement is not necessary, but could speed up big datasets
string shpFileName = string.Empty;
List <string> ogr2ogrShpOptions = new List <string>();
if (shpTypeList.Contains("POINT") || shpTypeList.Contains("MULTIPOINT"))
{
shpFileName = folder + filename + "_points.shp";
shpPathList.Add(shpFileName);
List <string> ogr2ogrShpOptionsPts = new List <string> {
"-overwrite",
"-f", drvType,
"-dim", "XYZ",
"-skipfailures"
};
//ogr2ogrShpOptionsPts.AddRange(new List<string> { "-where", "ogr_geometry=POINT", "-where", "ogr_geometry=MULTIPOINT", "-lco", "SHPT=MULTIPOINTZ", "-nlt", "PROMOTE_TO_MULTI"});
ogr2ogrShpOptionsPts.AddRange(new List <string> {
"-sql", "SELECT * FROM " + filename + " WHERE OGR_GEOMETRY='MULTIPOINT' OR OGR_GEOMETRY='POINT'", "-lco", "SHPT=MULTIPOINTZ", "-nlt", "PROMOTE_TO_MULTI"
});
//ogr2ogrShpOptionsPts.AddRange(new List<string> { "-dialect", "sqlite", "-sql", "select * from " + filename + " where GeometryType(geometry) in ('POINT','MULTIPOINT')", "-lco", "SHPT=MULTIPOINTZ", "-nlt", "PROMOTE_TO_MULTI" });
Dataset destDatasetPoint = Gdal.wrapper_GDALVectorTranslateDestName(shpFileName, src, new GDALVectorTranslateOptions(ogr2ogrShpOptionsPts.ToArray()), null, null);
destDatasetPoint.Dispose();
}
if (shpTypeList.Contains("LINESTRING") || shpTypeList.Contains("MULTILINESTRING"))
{
shpFileName = folder + filename + "_lines.shp";
shpPathList.Add(shpFileName);
List <string> ogr2ogrShpOptionsLines = new List <string> {
"-overwrite",
"-f", drvType,
"-dim", "XYZ",
"-skipfailures"
};
//ogr2ogrShpOptionsLines.AddRange(new List<string> { "-where", "ogr_geometry=LINESTRING25D", "-where", "ogr_geometry=MULTILINESTRING25D", "-lco", "SHPT=ARCZ", "-nlt", "PROMOTE_TO_MULTI" });
ogr2ogrShpOptionsLines.AddRange(new List <string> {
"-sql", "SELECT * FROM " + filename + " WHERE OGR_GEOMETRY='LINESTRING' OR OGR_GEOMETRY='MULTILINESTRING'", "-lco", "SHPT=ARCZ", "-nlt", "PROMOTE_TO_MULTI"
});
//ogr2ogrShpOptionsLines.AddRange(new List<string> { "-dialect", "sqlite", "-sql", "select * from " + filename + " where GeometryType(geometry) in ('LINESTRING','MULTILINESTRING')", "-lco", "SHPT=ARCZ", "-nlt", "PROMOTE_TO_MULTI" });
Dataset destDatasetLinestring = Gdal.wrapper_GDALVectorTranslateDestName(shpFileName, src, new GDALVectorTranslateOptions(ogr2ogrShpOptionsLines.ToArray()), null, null);
destDatasetLinestring.Dispose();
}
if (shpTypeList.Contains("POLYGON") || shpTypeList.Contains("MULTIPOLYGON"))
{
shpFileName = folder + filename + "_polygons.shp";
shpPathList.Add(shpFileName);
List <string> ogr2ogrShpOptionsPolygons = new List <string> {
"-overwrite",
"-f", drvType,
"-dim", "XYZ",
"-skipfailures",
"-dsco", "SHAPE_REWIND_ON_WRITE=NO"
};
//ogr2ogrShpOptionsPolygons.AddRange(new List<string> { "-where", "ogr_geometry=POLYGON", "-where", "ogr_geometry=MULTIPOLYGON", "-lco", "SHPT=POLYGONZ", "-nlt", "PROMOTE_TO_MULTI" });
ogr2ogrShpOptionsPolygons.AddRange(new List <string> {
"-sql", "SELECT * FROM " + filename + " WHERE OGR_GEOMETRY='MULTIPOLYGON25D' OR OGR_GEOMETRY='POLYGON25D'", "-lco", "SHPT=POLYGONZ", "-nlt", "PROMOTE_TO_MULTI"
});
Dataset destDatasetPolygon = Gdal.wrapper_GDALVectorTranslateDestName(shpFileName, src, new GDALVectorTranslateOptions(ogr2ogrShpOptionsPolygons.ToArray()), null, null);
destDatasetPolygon.Dispose();
}
///Not working properly when multiple geometry types are part of the same branch for SHP export.
if (shpTypeList.Contains("GEOMETRYCOLLECTION"))
{
AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "One or more branches contain a mix of geometry types.");
///export points
shpFileName = folder + filename + "_gc-points.shp";
shpPathList.Add(shpFileName);
List <string> ogr2ogrShpOptionsGCPts = new List <string> {
"-overwrite",
"-f", drvType,
"-dim", "XYZ",
"-skipfailures"
};
ogr2ogrShpOptionsGCPts.AddRange(new List <string> {
"-explodecollections", "-where", "ogr_geometry=GEOMETRYCOLLECTION", "-lco", "SHPT=MULTIPOINTZ", "-nlt", "PROMOTE_TO_MULTI"
});
//ogr2ogrShpOptionsGCPts.AddRange(new List<string> { "-explodecollections", "-sql", "SELECT * FROM " + filename + " WHERE OGR_GEOMETRY='MULTIPOINT' OR OGR_GEOMETRY='POINT'", "-lco", "SHPT=MULTIPOINTZ", "-nlt", "PROMOTE_TO_MULTI" });
Dataset destDatasetGCPoints = Gdal.wrapper_GDALVectorTranslateDestName(shpFileName, src, new GDALVectorTranslateOptions(ogr2ogrShpOptionsGCPts.ToArray()), null, null);
destDatasetGCPoints.Dispose();
///export lines
shpFileName = folder + filename + "_gc-lines.shp";
shpPathList.Add(shpFileName);
List <string> ogr2ogrShpOptionsGCLines = new List <string> {
"-overwrite",
"-f", drvType,
"-dim", "XYZ",
"-skipfailures"
};
ogr2ogrShpOptionsGCLines.AddRange(new List <string> {
"-explodecollections", "-where", "ogr_geometry=GEOMETRYCOLLECTION", "-lco", "SHPT=ARCZ", "-nlt", "PROMOTE_TO_MULTI"
});
//ogr2ogrShpOptionsGCLines.AddRange(new List<string> { "-explodecollections", "-sql", "SELECT * FROM " + filename + " WHERE OGR_GEOMETRY='MULTILINESTRING25D' OR OGR_GEOMETRY='LINESTRING25D'", "-lco", "SHPT=ARCZ", "-nlt", "PROMOTE_TO_MULTI" });
Dataset destDatasetGCLines = Gdal.wrapper_GDALVectorTranslateDestName(shpFileName, src, new GDALVectorTranslateOptions(ogr2ogrShpOptionsGCLines.ToArray()), null, null);
destDatasetGCLines.Dispose();
///export meshes
shpFileName = folder + filename + "_gc-polygons.shp";
shpPathList.Add(shpFileName);
List <string> ogr2ogrShpOptionsGCPolygons = new List <string> {
"-overwrite",
"-f", drvType,
"-dim", "XYZ",
"-skipfailures",
"-dsco", "SHAPE_REWIND_ON_WRITE=NO"
};
ogr2ogrShpOptionsGCPolygons.AddRange(new List <string> {
"-explodecollections", "-where", "ogr_geometry=GEOMETRYCOLLECTION", "-lco", "SHPT=POLYGONZ", "-nlt", "PROMOTE_TO_MULTI"
});
//ogr2ogrShpOptionsGCPolygons.AddRange(new List<string> { "-explodecollections", "-sql", "SELECT * FROM " + filename + " WHERE OGR_GEOMETRY='MULTIPOLYGON' OR OGR_GEOMETRY='POLYGON'", "-lco", "SHPT=POLYGONZ", "-nlt", "PROMOTE_TO_MULTI" });
Dataset destDatasetGCPolygons = Gdal.wrapper_GDALVectorTranslateDestName(shpFileName, src, new GDALVectorTranslateOptions(ogr2ogrShpOptionsGCPolygons.ToArray()), null, null);
destDatasetGCPolygons.Dispose();
}
}
}
///Clean up
Gdal.Unlink("/vsimem/out.geojson");
}
DA.SetDataList(0, shpPathList);
}
private void backgroundWorkerMain_DoWork(object sender, DoWorkEventArgs e)
{
progressInfo.SubTitle = "读取基本信息";
reportProgress();
List <long> codeList = CountryDao.FindAllCode();
if (codeList == null || codeList.Count == 0)
{
MessageBox.Show("矢量没有正确的code_new信息,请重新注册");
return;
}
DataSource dataSource = Ogr.Open("data\\shp\\dst\\country.shp", 0);
int codeNum = codeList.Count;
progressInfo.Info = string.Format("已完成:0/{0}", codeNum);
for (int i = 0; i < codeNum; i++)
{
progressInfo.SubComplete = 0;
progressInfo.SubTitle = "查询数据";
reportProgress();
long code = codeList[i];
List <string> nameList = ImgDao.findNameByYearAndCode(year, code);
if (nameList == null || nameList.Count == 0)
{
continue;
}
Layer layer = dataSource.ExecuteSQL(string.Format("select * from country where Code_new={0}", code), null, null);
if (layer.GetFeatureCount(1) == 0)
{
continue;
}
layer.ResetReading();
Feature feature = layer.GetNextFeature();
Geometry geometry = feature.GetGeometryRef();
Envelope envelope = new Envelope();
geometry.GetEnvelope(envelope);
int nameCount = nameList.Count;
Dataset[] inDss = new Dataset[nameCount];
for (int j = 0; j < nameCount; j++)
{
inDss[j] = Gdal.Open(string.Format("data\\img\\r{0}\\{1}", year, nameList[j]), Access.GA_ReadOnly);
}
string outFile = string.Format("{0}\\{1:D3}.tif", outPath, code);
string mosaicFile = "/vsimem/mosaic.tif";
string maskFile = "/vsimem/mask.tif";
try
{
progressInfo.SubTitle = "正在镶嵌:";
string[] options = new string[]
{
"-t_srs", "data\\shp\\dst\\country.prj",
"-tr", "30", "30",
"-srcnodata", "128",
"-dstnodata", "0",
"-ot", "Byte",
"-co", "COMPRESS=LZW",
"-co", "TILED=YES",
"-te", envelope.MinX.ToString(), envelope.MinY.ToString(), envelope.MaxX.ToString(), envelope.MaxY.ToString()
};
GDALWarpAppOptions gdalOptions = new GDALWarpAppOptions(options);
Dataset mosaicDs = Gdal.Warp(mosaicFile, inDss, gdalOptions, gdalProgressFunc, null);
progressInfo.SubTitle = "正在栅格化";
progressInfo.SubInfo = "";
options = new string[]
{
"-burn", "1",
"-where", string.Format("Code_new={0}", code),
"-ot", "Byte",
"-co", "COMPRESS=LZW",
"-co", "TILED=YES",
"-tr", "30", "30",
"-te", envelope.MinX.ToString(), envelope.MinY.ToString(), envelope.MaxX.ToString(), envelope.MaxY.ToString()
};
GDALRasterizeOptions rasterOptions = new GDALRasterizeOptions(options);
Dataset vecDs = Gdal.OpenEx("data\\shp\\dst\\country.shp", 0, null, null, null);
Dataset maskDs = Gdal.wrapper_GDALRasterizeDestName(maskFile, vecDs, rasterOptions, gdalProgressFunc, null);
Dataset outDs = multi(mosaicDs, maskDs, outFile);
outDs.Dispose();
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
continue;
}
progressInfo.Info = string.Format("已完成:{0}/{1}", i + 1, codeNum);
totalProgress = (i + 1) * 100 / codeNum;
reportProgress();
}
MessageBox.Show("镶嵌完成");
}