private static Ellipsoid ReadEllipsoid(WktStreamTokenizer tokenizer) { //SPHEROID["Airy 1830",6377563.396,299.3249646,AUTHORITY["EPSG","7001"]] tokenizer.ReadToken("["); string name = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.NextToken(); double majorAxis = tokenizer.GetNumericValue(); tokenizer.ReadToken(","); tokenizer.NextToken(); double e = tokenizer.GetNumericValue(); tokenizer.NextToken(); string authority = string.Empty; long authorityCode = -1; if (tokenizer.GetStringValue() == ",") //Read authority { tokenizer.ReadAuthority(out authority, out authorityCode); tokenizer.ReadToken("]"); } var ellipsoid = new Ellipsoid(majorAxis, 0.0, e, true, LinearUnit.Metre, name, authority, authorityCode, string.Empty, string.Empty, string.Empty); return(ellipsoid); }
private static HorizontalDatum ReadHorizontalDatum(WktStreamTokenizer tokenizer) { //DATUM["OSGB 1936",SPHEROID["Airy 1830",6377563.396,299.3249646,AUTHORITY["EPSG","7001"]],TOWGS84[0,0,0,0,0,0,0],AUTHORITY["EPSG","6277"]] Wgs84ConversionInfo wgsInfo = null; string authority = string.Empty; long authorityCode = -1; tokenizer.ReadToken("["); string name = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.ReadToken("SPHEROID"); var ellipsoid = ReadEllipsoid(tokenizer); tokenizer.NextToken(); while (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); if (tokenizer.GetStringValue() == "TOWGS84") { wgsInfo = ReadWGS84ConversionInfo(tokenizer); tokenizer.NextToken(); } else if (tokenizer.GetStringValue() == "AUTHORITY") { tokenizer.ReadAuthority(out authority, out authorityCode); tokenizer.ReadToken("]"); } } // make an assumption about the datum type. var horizontalDatum = new HorizontalDatum(ellipsoid, wgsInfo, DatumType.HD_Geocentric, name, authority, authorityCode, string.Empty, string.Empty, string.Empty); return(horizontalDatum); }
private static ParameterInfo ReadParameters(WktStreamTokenizer tokenizer) { var paramList = new List <Parameter> (); while (tokenizer.GetStringValue() == "PARAMETER") { tokenizer.ReadToken("["); string paramName = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.NextToken(); double paramValue = tokenizer.GetNumericValue(); tokenizer.ReadToken("]"); //test, whether next parameter is delimited by comma tokenizer.NextToken(); if (tokenizer.GetStringValue() != "]") { tokenizer.NextToken(); } paramList.Add(new Parameter(paramName, paramValue)); } var info = new ParameterInfo() { Parameters = paramList }; return(info); }
private static FittedCoordinateSystem ReadFittedCoordinateSystem(WktStreamTokenizer tokenizer) { /* * FITTED_CS[ * "Local coordinate system MNAU (based on Gauss-Krueger)", * PARAM_MT[ * "Affine", * PARAMETER["num_row",3], * PARAMETER["num_col",3], * PARAMETER["elt_0_0", 0.883485346527455], * PARAMETER["elt_0_1", -0.468458794848877], * PARAMETER["elt_0_2", 3455869.17937689], * PARAMETER["elt_1_0", 0.468458794848877], * PARAMETER["elt_1_1", 0.883485346527455], * PARAMETER["elt_1_2", 5478710.88035753], * PARAMETER["elt_2_2", 1], * ], * PROJCS["DHDN / Gauss-Kruger zone 3", GEOGCS["DHDN", DATUM["Deutsches_Hauptdreiecksnetz", SPHEROID["Bessel 1841", 6377397.155, 299.1528128, AUTHORITY["EPSG", "7004"]], TOWGS84[612.4, 77, 440.2, -0.054, 0.057, -2.797, 0.525975255930096], AUTHORITY["EPSG", "6314"]], PRIMEM["Greenwich", 0, AUTHORITY["EPSG", "8901"]], UNIT["degree", 0.0174532925199433, AUTHORITY["EPSG", "9122"]], AUTHORITY["EPSG", "4314"]], UNIT["metre", 1, AUTHORITY["EPSG", "9001"]], PROJECTION["Transverse_Mercator"], PARAMETER["latitude_of_origin", 0], PARAMETER["central_meridian", 9], PARAMETER["scale_factor", 1], PARAMETER["false_easting", 3500000], PARAMETER["false_northing", 0], AUTHORITY["EPSG", "31467"]] * AUTHORITY["CUSTOM","12345"] * ] */ tokenizer.ReadToken("["); string name = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.ReadToken("PARAM_MT"); var toBaseTransform = MathTransformWktReader.ReadMathTransform(tokenizer); tokenizer.ReadToken(","); tokenizer.NextToken(); var baseCS = ReadCoordinateSystem(null, tokenizer); string authority = string.Empty; long authorityCode = -1; var ct = tokenizer.NextToken(); while (ct != TokenType.Eol && ct != TokenType.Eof) { switch (tokenizer.GetStringValue()) { case ",": case "]": break; case "AUTHORITY": tokenizer.ReadAuthority(out authority, out authorityCode); //tokenizer.ReadToken("]"); break; } ct = tokenizer.NextToken(); } var fittedCS = new FittedCoordinateSystem(baseCS, toBaseTransform, name, authority, authorityCode, string.Empty, string.Empty, string.Empty); return(fittedCS); }
/// <summary> /// Returns a <see cref="AxisInfo"/> given a piece of WKT. /// </summary> /// <param name="tokenizer">WktStreamTokenizer that has the WKT.</param> /// <returns>An AxisInfo object.</returns> private static AxisInfo ReadAxis(WktStreamTokenizer tokenizer) { if (tokenizer.GetStringValue() != "AXIS") { tokenizer.ReadToken("AXIS"); } tokenizer.ReadToken("["); string axisName = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.NextToken(); string unitname = tokenizer.GetStringValue(); tokenizer.ReadToken("]"); switch (unitname.ToUpperInvariant()) { case "DOWN": return(new AxisInfo(axisName, AxisOrientationEnum.Down)); case "EAST": return(new AxisInfo(axisName, AxisOrientationEnum.East)); case "NORTH": return(new AxisInfo(axisName, AxisOrientationEnum.North)); case "OTHER": return(new AxisInfo(axisName, AxisOrientationEnum.Other)); case "SOUTH": return(new AxisInfo(axisName, AxisOrientationEnum.South)); case "UP": return(new AxisInfo(axisName, AxisOrientationEnum.Up)); case "WEST": return(new AxisInfo(axisName, AxisOrientationEnum.West)); default: throw new ArgumentException("Invalid axis name '" + unitname + "' in WKT"); } }
/// <summary> /// Returns a <see cref="AngularUnit"/> given a piece of WKT. /// </summary> /// <param name="tokenizer">WktStreamTokenizer that has the WKT.</param> /// <returns>An object that implements the IUnit interface.</returns> private static AngularUnit ReadAngularUnit(WktStreamTokenizer tokenizer) { tokenizer.ReadToken("["); string unitName = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.NextToken(); double unitsPerUnit = tokenizer.GetNumericValue(); string authority = string.Empty; long authorityCode = -1; tokenizer.NextToken(); if (tokenizer.GetStringValue() == ",") { tokenizer.ReadAuthority(out authority, out authorityCode); tokenizer.ReadToken("]"); } return(new AngularUnit(unitsPerUnit, unitName, authority, authorityCode, string.Empty, string.Empty, string.Empty)); }
private static IProjection ReadProjection(WktStreamTokenizer tokenizer) { if (tokenizer.GetStringValue() != "PROJECTION") { tokenizer.ReadToken("PROJECTION"); } tokenizer.ReadToken("[");//[ string projectionName = tokenizer.ReadDoubleQuotedWord(); string authority = string.Empty; long authorityCode = -1L; tokenizer.NextToken(true); if (tokenizer.GetStringValue() == ",") { tokenizer.ReadAuthority(out authority, out authorityCode); tokenizer.ReadToken("]"); } tokenizer.ReadToken(",");//, tokenizer.ReadToken("PARAMETER"); var paramList = new List <ProjectionParameter>(); while (tokenizer.GetStringValue() == "PARAMETER") { tokenizer.ReadToken("["); string paramName = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.NextToken(); double paramValue = tokenizer.GetNumericValue(); tokenizer.ReadToken("]"); tokenizer.ReadToken(","); paramList.Add(new ProjectionParameter(paramName, paramValue)); tokenizer.NextToken(); } var projection = new Projection(projectionName, paramList, projectionName, authority, authorityCode, string.Empty, string.Empty, string.Empty); return(projection); }
// Reads either 3, 6 or 7 parameter Bursa-Wolf values from TOWGS84 token private static Wgs84ConversionInfo ReadWGS84ConversionInfo(WktStreamTokenizer tokenizer) { //TOWGS84[0,0,0,0,0,0,0] tokenizer.ReadToken("["); var info = new Wgs84ConversionInfo(); tokenizer.NextToken(); info.Dx = tokenizer.GetNumericValue(); tokenizer.ReadToken(","); tokenizer.NextToken(); info.Dy = tokenizer.GetNumericValue(); tokenizer.ReadToken(","); tokenizer.NextToken(); info.Dz = tokenizer.GetNumericValue(); tokenizer.NextToken(); if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); info.Ex = tokenizer.GetNumericValue(); tokenizer.ReadToken(","); tokenizer.NextToken(); info.Ey = tokenizer.GetNumericValue(); tokenizer.ReadToken(","); tokenizer.NextToken(); info.Ez = tokenizer.GetNumericValue(); tokenizer.NextToken(); if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); info.Ppm = tokenizer.GetNumericValue(); } } if (tokenizer.GetStringValue() != "]") { tokenizer.ReadToken("]"); } return(info); }
private static PrimeMeridian ReadPrimeMeridian(WktStreamTokenizer tokenizer) { //PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]] tokenizer.ReadToken("["); string name = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.NextToken(); double longitude = tokenizer.GetNumericValue(); tokenizer.NextToken(); string authority = string.Empty; long authorityCode = -1; if (tokenizer.GetStringValue() == ",") { tokenizer.ReadAuthority(out authority, out authorityCode); tokenizer.ReadToken("]"); } // make an assumption about the Angular units - degrees. var primeMeridian = new PrimeMeridian(longitude, AngularUnit.Degrees, name, authority, authorityCode, string.Empty, string.Empty, string.Empty); return(primeMeridian); }
/// <summary> /// Reads and parses a WKT-formatted projection string. /// </summary> /// <param name="wkt">String containing WKT.</param> /// <returns>Object representation of the WKT.</returns> /// <exception cref="System.ArgumentException">If a token is not recognized.</exception> public static IInfo Parse(string wkt) { if (string.IsNullOrWhiteSpace(wkt)) { throw new ArgumentNullException("wkt"); } using (TextReader reader = new StringReader(wkt)) { var tokenizer = new WktStreamTokenizer(reader); tokenizer.NextToken(); string objectName = tokenizer.GetStringValue(); switch (objectName) { case "UNIT": return(ReadUnit(tokenizer)); case "SPHEROID": return(ReadEllipsoid(tokenizer)); case "DATUM": return(ReadHorizontalDatum(tokenizer)); case "PRIMEM": return(ReadPrimeMeridian(tokenizer)); case "VERT_CS": case "GEOGCS": case "PROJCS": case "COMPD_CS": case "GEOCCS": case "FITTED_CS": case "LOCAL_CS": return(ReadCoordinateSystem(wkt, tokenizer)); default: throw new ArgumentException($"'{objectName}' is not recognized."); } } }
/// <summary> /// Reads and parses a WKT-formatted projection string. /// </summary> /// <param name="wkt">String containing WKT.</param> /// <returns>Object representation of the WKT.</returns> /// <exception cref="System.ArgumentException">If a token is not recognised.</exception> public static MathTransform Parse(string wkt) { if (string.IsNullOrWhiteSpace(wkt)) { throw new ArgumentNullException("wkt"); } using (TextReader reader = new StringReader(wkt)) { var tokenizer = new WktStreamTokenizer(reader); tokenizer.NextToken(); string objectName = tokenizer.GetStringValue(); switch (objectName) { case "PARAM_MT": return(ReadMathTransform(tokenizer)); default: throw new ArgumentException($"'{objectName}' is not recognized."); } } }
private static GeographicCoordinateSystem ReadGeographicCoordinateSystem(WktStreamTokenizer tokenizer) { /* * GEOGCS["OSGB 1936", * DATUM["OSGB 1936",SPHEROID["Airy 1830",6377563.396,299.3249646,AUTHORITY["EPSG","7001"]],TOWGS84[0,0,0,0,0,0,0],AUTHORITY["EPSG","6277"]] * PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]] * AXIS["Geodetic latitude","NORTH"] * AXIS["Geodetic longitude","EAST"] * AUTHORITY["EPSG","4277"] * ] */ tokenizer.ReadToken("["); string name = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.ReadToken("DATUM"); var horizontalDatum = ReadHorizontalDatum(tokenizer); tokenizer.ReadToken(","); tokenizer.ReadToken("PRIMEM"); var primeMeridian = ReadPrimeMeridian(tokenizer); tokenizer.ReadToken(","); tokenizer.ReadToken("UNIT"); var angularUnit = ReadAngularUnit(tokenizer); string authority = string.Empty; long authorityCode = -1; tokenizer.NextToken(); var info = new List <AxisInfo>(2); if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); while (tokenizer.GetStringValue() == "AXIS") { info.Add(ReadAxis(tokenizer)); tokenizer.NextToken(); if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); } } if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); } if (tokenizer.GetStringValue() == "AUTHORITY") { tokenizer.ReadAuthority(out authority, out authorityCode); tokenizer.ReadToken("]"); } } //This is default axis values if not specified. if (info.Count == 0) { info.Add(new AxisInfo("Lon", AxisOrientationEnum.East)); info.Add(new AxisInfo("Lat", AxisOrientationEnum.North)); } var geographicCS = new GeographicCoordinateSystem(angularUnit, horizontalDatum, primeMeridian, info, name, authority, authorityCode, string.Empty, string.Empty, string.Empty); return(geographicCS); }
private static GeocentricCoordinateSystem ReadGeocentricCoordinateSystem(WktStreamTokenizer tokenizer) { /* * GEOCCS["<name>", <datum>, <prime meridian>, <linear unit> {,<axis>, <axis>, <axis>} {,<authority>}] */ tokenizer.ReadToken("["); string name = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.ReadToken("DATUM"); var horizontalDatum = ReadHorizontalDatum(tokenizer); tokenizer.ReadToken(","); tokenizer.ReadToken("PRIMEM"); var primeMeridian = ReadPrimeMeridian(tokenizer); tokenizer.ReadToken(","); tokenizer.ReadToken("UNIT"); var linearUnit = ReadLinearUnit(tokenizer); string authority = string.Empty; long authorityCode = -1; tokenizer.NextToken(); var info = new List <AxisInfo>(3); if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); while (tokenizer.GetStringValue() == "AXIS") { info.Add(ReadAxis(tokenizer)); tokenizer.NextToken(); if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); } } if (tokenizer.GetStringValue() == ",") { tokenizer.NextToken(); } if (tokenizer.GetStringValue() == "AUTHORITY") { tokenizer.ReadAuthority(out authority, out authorityCode); tokenizer.ReadToken("]"); } } //This is default axis values if not specified. if (info.Count == 0) { info.Add(new AxisInfo("Geocentric X", AxisOrientationEnum.Other)); info.Add(new AxisInfo("Geocentric Y", AxisOrientationEnum.Other)); info.Add(new AxisInfo("Geocentric Z", AxisOrientationEnum.North)); } return(new GeocentricCoordinateSystem(horizontalDatum, linearUnit, primeMeridian, info, name, authority, authorityCode, string.Empty, string.Empty, string.Empty)); }
private static ProjectedCoordinateSystem ReadProjectedCoordinateSystem(WktStreamTokenizer tokenizer) { /*PROJCS[ * "OSGB 1936 / British National Grid", * GEOGCS[ * "OSGB 1936", * DATUM[...] * PRIMEM[...] * AXIS["Geodetic latitude","NORTH"] * AXIS["Geodetic longitude","EAST"] * AUTHORITY["EPSG","4277"] * ], * PROJECTION["Transverse Mercator"], * PARAMETER["latitude_of_natural_origin",49], * PARAMETER["longitude_of_natural_origin",-2], * PARAMETER["scale_factor_at_natural_origin",0.999601272], * PARAMETER["false_easting",400000], * PARAMETER["false_northing",-100000], * AXIS["Easting","EAST"], * AXIS["Northing","NORTH"], * AUTHORITY["EPSG","27700"] * ] */ tokenizer.ReadToken("["); string name = tokenizer.ReadDoubleQuotedWord(); tokenizer.ReadToken(","); tokenizer.ReadToken("GEOGCS"); var geographicCS = ReadGeographicCoordinateSystem(tokenizer); tokenizer.ReadToken(","); IProjection projection = null; IUnit unit = null; var axes = new List <AxisInfo>(2); string authority = string.Empty; long authorityCode = -1; var ct = tokenizer.NextToken(); while (ct != TokenType.Eol && ct != TokenType.Eof) { switch (tokenizer.GetStringValue()) { case ",": case "]": break; case "PROJECTION": projection = ReadProjection(tokenizer); ct = tokenizer.GetTokenType(); continue; //break; case "UNIT": unit = ReadLinearUnit(tokenizer); break; case "AXIS": axes.Add(ReadAxis(tokenizer)); tokenizer.NextToken(); break; case "AUTHORITY": tokenizer.ReadAuthority(out authority, out authorityCode); //tokenizer.ReadToken("]"); break; } ct = tokenizer.NextToken(); } //This is default axis values if not specified. if (axes.Count == 0) { axes.Add(new AxisInfo("X", AxisOrientationEnum.East)); axes.Add(new AxisInfo("Y", AxisOrientationEnum.North)); } var projectedCS = new ProjectedCoordinateSystem(geographicCS.HorizontalDatum, geographicCS, unit as LinearUnit, projection, axes, name, authority, authorityCode, string.Empty, string.Empty, string.Empty); return(projectedCS); }