internal ActualCoordinateSystem(ICoordinateSystem coordinateSystem)
{
if (coordinateSystem == null)
throw new ArgumentNullException("coordinateSystem"); //NOXLATE
CoordinateTransformationFactory f = new CoordinateTransformationFactory();
CoordinateSystemFactory cf = new CoordinateSystemFactory();
m_transform = f.CreateFromCoordinateSystems(coordinateSystem, cf.CreateFromWkt(XY_M));
}
public void TestNAD27toWGS84()
{
CoordinateSystemFactory csFact = new CoordinateSystemFactory();
CoordinateTransformationFactory ctFact = new CoordinateTransformationFactory();
ICoordinateSystem ESPG32054 = csFact.CreateFromWkt(
"PROJCS[\"NAD27 / Wisconsin South\",GEOGCS[\"NAD27\",DATUM[\"North_American_Datum_1927\",SPHEROID[\"Clarke 1866\",6378206.4,294.9786982138982,AUTHORITY[\"EPSG\",\"7008\"]],AUTHORITY[\"EPSG\",\"6267\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4267\"]],PROJECTION[\"Lambert_Conformal_Conic_2SP\"],PARAMETER[\"standard_parallel_1\",42.73333333333333],PARAMETER[\"standard_parallel_2\",44.06666666666667],PARAMETER[\"latitude_of_origin\",42],PARAMETER[\"central_meridian\",-90],PARAMETER[\"false_easting\",2000000],PARAMETER[\"false_northing\",0],UNIT[\"US survey foot\",0.3048006096012192,AUTHORITY[\"EPSG\",\"9003\"]],AUTHORITY[\"EPSG\",\"32054\"]]");
GeographicCoordinateSystem WGS84 = (ProjNet.CoordinateSystems.GeographicCoordinateSystem)GeographicCoordinateSystem.WGS84;
ICoordinateTransformation trans = ctFact.CreateFromCoordinateSystems(ESPG32054, WGS84);
List<double[]> points = new List<double[]>
{
new[] { 2555658.00, 388644.00},
new[] { 2557740.000, 387024.000}
};
for (int i = 0; i < points.Count; i++)
{
double[] rst = trans.MathTransform.Transform(points[i]);
Console.WriteLine(rst[0].ToString()+" \t"+ rst[1].ToString());
}
}
static ProjHelper()
{
CoordinateTransformationFactory factory = new CoordinateTransformationFactory();
IGeographicCoordinateSystem wgs84 = GeographicCoordinateSystem.WGS84;
IProjectedCoordinateSystem mercator = ProjectedCoordinateSystem.WebMercator;
Transformation = factory.CreateFromCoordinateSystems(wgs84, mercator);
}
public void TestTransform()
{
CoordinateSystemFactory csFactory = new CoordinateSystemFactory();
const string sourceCsWkt = "GEOGCS[\"WGS 84\",DATUM[\"WGS_1984\",SPHEROID[\"WGS 84\",6378137,298.257223563,AUTHORITY[\"EPSG\",\"7030\"]],AUTHORITY[\"EPSG\",\"6326\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4326\"]]";
ICoordinateSystem sourceCs = csFactory.CreateFromWkt(sourceCsWkt);
Assert.That(sourceCs, Is.Not.Null);
const string targetCsWkt = "PROJCS[\"WGS 84 / Australian Antarctic Lambert\",GEOGCS[\"WGS 84\",DATUM[\"WGS_1984\",SPHEROID[\"WGS 84\",6378137,298.257223563,AUTHORITY[\"EPSG\",\"7030\"]],AUTHORITY[\"EPSG\",\"6326\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4326\"]],PROJECTION[\"Lambert_Conformal_Conic_2SP\"],PARAMETER[\"standard_parallel_1\",-68.5],PARAMETER[\"standard_parallel_2\",-74.5],PARAMETER[\"latitude_of_origin\",-50],PARAMETER[\"central_meridian\",70],PARAMETER[\"false_easting\",6000000],PARAMETER[\"false_northing\",6000000],UNIT[\"metre\",1,AUTHORITY[\"EPSG\",\"9001\"]],AUTHORITY[\"EPSG\",\"3033\"]]";
ICoordinateSystem targetCs = csFactory.CreateFromWkt(targetCsWkt);
Assert.That(targetCs, Is.Not.Null);
CoordinateTransformationFactory ctFactory = new CoordinateTransformationFactory();
ICoordinateTransformation coordTransformation = ctFactory.CreateFromCoordinateSystems(sourceCs, targetCs);
IGeometryFactory gf = GeometryFactory.Default;
const string geomWkt = "MULTIPOINT (152.83949210500001 -42.14413555,152.83910355899999 -42.129844618)";
WKTReader reader = new WKTReader(gf);
IGeometry geom = reader.Read(geomWkt);
Assert.That(geom, Is.Not.Null);
Assert.That(geom.IsValid, Is.True);
Assert.That(geom, Is.InstanceOf<IMultiPoint>());
IMultiPoint mp = (IMultiPoint)geom;
foreach (IPoint pt in mp.Geometries)
{
IGeometry tp = GeometryTransform.TransformGeometry(gf, pt, coordTransformation.MathTransform);
Assert.That(tp, Is.Not.Null);
Assert.That(tp.IsValid, Is.True);
}
IGeometry transformed = GeometryTransform.TransformGeometry(gf, mp, coordTransformation.MathTransform);
Assert.That(transformed, Is.Not.Null);
Assert.That(transformed.IsValid, Is.True);
}
private void EmbeddedMap_MouseMove(object sender, MouseEventArgs e)
{
if (image.IsMouseCaptured)
{
Debug.WriteLine("Capture Move");
var tt = (TranslateTransform) ((TransformGroup) image.RenderTransform)
.Children.First(tr => tr is TranslateTransform);
Vector v = start - e.GetPosition(border);
tt.X = origin.X - v.X;
tt.Y = origin.Y - v.Y;
}
else
{
Debug.WriteLine("Normal Move");
Point p = e.GetPosition(image);
double scale = 360/image.ActualWidth;
Point pGeo = new Point(p.X*scale - 180, 90 - p.Y*scale);
locationLong.Text = string.Format("{0}", pGeo.X);
locationLat.Text = string.Format("{0}", pGeo.Y);
//Transform to UTM
CoordinateTransformationFactory ctfac = new CoordinateTransformationFactory();
ICoordinateSystem wgs84geo = ProjNet.CoordinateSystems.GeographicCoordinateSystem.WGS84;
int zone = (int) Math.Ceiling((pGeo.X + 180)/6);
//ICoordinateSystem utm = ProjNet.CoordinateSystems.ProjectedCoordinateSystem.WGS84_UTM(zone, pGeo.Y > 0);
//ICoordinateTransformation trans = ctfac.CreateFromCoordinateSystems(wgs84geo, utm);
//Point pUtm = trans.MathTransform.Transform(pGeo);
//locationX.Text = string.Format("N{0}", pUtm.Y);
//locationY.Text = string.Format("E{0}", pUtm.X);
locationZone.Text = string.Format("Zone {0}{1}", zone, pGeo.Y > 0 ? 'N' : 'S');
}
}
public static ICoordinateTransformation LatLonToGoogle()
{
CoordinateSystemFactory csFac = new CoordinateSystemFactory();
CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
IGeographicCoordinateSystem sourceCs = csFac.CreateGeographicCoordinateSystem(
"WGS 84",
AngularUnit.Degrees,
HorizontalDatum.WGS84,
PrimeMeridian.Greenwich,
new AxisInfo("north", AxisOrientationEnum.North),
new AxisInfo("east", AxisOrientationEnum.East));
List<ProjectionParameter> parameters = new List<ProjectionParameter>
{
new ProjectionParameter("semi_major", 6378137.0),
new ProjectionParameter("semi_minor", 6378137.0),
new ProjectionParameter("latitude_of_origin", 0.0),
new ProjectionParameter("central_meridian", 0.0),
new ProjectionParameter("scale_factor", 1.0),
new ProjectionParameter("false_easting", 0.0),
new ProjectionParameter("false_northing", 0.0)
};
IProjection projection = csFac.CreateProjection("Google Mercator", "mercator_1sp", parameters);
IProjectedCoordinateSystem targetCs = csFac.CreateProjectedCoordinateSystem(
"Google Mercator",
sourceCs,
projection,
LinearUnit.Metre,
new AxisInfo("East", AxisOrientationEnum.East),
new AxisInfo("North", AxisOrientationEnum.North));
return ctFac.CreateFromCoordinateSystems(sourceCs, targetCs);
}
public HIL.Vector3 getOffsetFromLeader(MAVLinkInterface leader, MAVLinkInterface mav)
{
//convert Wgs84ConversionInfo to utm
CoordinateTransformationFactory ctfac = new CoordinateTransformationFactory();
GeographicCoordinateSystem wgs84 = GeographicCoordinateSystem.WGS84;
int utmzone = (int)((leader.MAV.cs.lng - -186.0) / 6.0);
IProjectedCoordinateSystem utm = ProjectedCoordinateSystem.WGS84_UTM(utmzone, leader.MAV.cs.lat < 0 ? false : true);
ICoordinateTransformation trans = ctfac.CreateFromCoordinateSystems(wgs84, utm);
double[] masterpll = { leader.MAV.cs.lng, leader.MAV.cs.lat };
// get leader utm coords
double[] masterutm = trans.MathTransform.Transform(masterpll);
double[] mavpll = { mav.MAV.cs.lng, mav.MAV.cs.lat };
//getLeader follower utm coords
double[] mavutm = trans.MathTransform.Transform(mavpll);
return new HIL.Vector3(masterutm[1] - mavutm[1], masterutm[0] - mavutm[0], 0);
}
public void TestConversion()
{
var point = GeometryFactory.Default.CreatePoint(new Coordinate(492155.73, 6303867.82));
var transform = new CoordinateTransformationFactory().CreateFromCoordinateSystems(
ProjectedCoordinateSystem.WGS84_UTM(32, true), GeographicCoordinateSystem.WGS84);
var transformedPoint = GeometryTransform.TransformGeometry(GeometryFactory.Default, point, transform.MathTransform);
}
public void TestAlbersProjectionFeet()
{
CoordinateSystemFactory cFac = new CoordinateSystemFactory();
IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Clarke 1866", 6378206.4, 294.9786982138982, LinearUnit.USSurveyFoot);
IHorizontalDatum datum = cFac.CreateHorizontalDatum("Clarke 1866", DatumType.HD_Geocentric, ellipsoid, null);
IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem("Clarke 1866", AngularUnit.Degrees, datum,
PrimeMeridian.Greenwich, new AxisInfo("Lon", AxisOrientationEnum.East),
new AxisInfo("Lat", AxisOrientationEnum.North));
List<ProjectionParameter> parameters = new List<ProjectionParameter>(5);
parameters.Add(new ProjectionParameter("central_meridian", -96));
parameters.Add(new ProjectionParameter("latitude_of_center", 23));
parameters.Add(new ProjectionParameter("standard_parallel_1", 29.5));
parameters.Add(new ProjectionParameter("standard_parallel_2", 45.5));
parameters.Add(new ProjectionParameter("false_easting", 0));
parameters.Add(new ProjectionParameter("false_northing", 0));
IProjection projection = cFac.CreateProjection("Albers Conical Equal Area", "albers", parameters);
IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("Albers Conical Equal Area", gcs, projection, LinearUnit.Foot, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));
ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);
double[] pGeo = new double[] { -75, 35 };
double[] pUtm = trans.MathTransform.Transform(pGeo);
double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);
double[] expected = new double[] { 1885472.7 / LinearUnit.Foot.MetersPerUnit, 1535925 / LinearUnit.Foot.MetersPerUnit };
Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.1), String.Format("Albers forward transformation outside tolerance, Expected [{0},{1}], got [{2},{3}]", expected[0], expected[1], pUtm[0], pUtm[1]));
Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("Albers reverse transformation outside tolerance, Expected [{0},{1}], got [{2},{3}]", pGeo[0], pGeo[1], pGeo2[0], pGeo2[1]));
}
public void TestTransformListOfDoubleArray()
{
CoordinateSystemFactory csFact = new CoordinateSystemFactory();
CoordinateTransformationFactory ctFact = new CoordinateTransformationFactory();
ICoordinateSystem utm35ETRS = csFact.CreateFromWkt(
"PROJCS[\"ETRS89 / ETRS-TM35\",GEOGCS[\"ETRS89\",DATUM[\"D_ETRS_1989\",SPHEROID[\"GRS_1980\",6378137,298.257222101]],PRIMEM[\"Greenwich\",0],UNIT[\"Degree\",0.017453292519943295]],PROJECTION[\"Transverse_Mercator\"],PARAMETER[\"latitude_of_origin\",0],PARAMETER[\"central_meridian\",27],PARAMETER[\"scale_factor\",0.9996],PARAMETER[\"false_easting\",500000],PARAMETER[\"false_northing\",0],UNIT[\"Meter\",1]]");
IProjectedCoordinateSystem utm33 = ProjectedCoordinateSystem.WGS84_UTM(33, true);
ICoordinateTransformation trans = ctFact.CreateFromCoordinateSystems(utm35ETRS, utm33);
List<double[]> points = new List<double[]>
{
new[] {290586.087, 6714000 }, new[] {90586.392, 6713996.224},
new[] {290590.133, 6713973.772}, new[] {290594.111, 6713957.416},
new[] {290596.615, 6713943.567}, new[] {290596.701, 6713939.485}
};
double[][] tpoints = trans.MathTransform.TransformList(points).ToArray();
for (int i = 0; i < points.Count; i++)
{
Console.WriteLine(tpoints[i]);
NUnit.Framework.Assert.IsTrue(Equal(tpoints[i], trans.MathTransform.Transform(points[i])));
}
}
private static ICoordinateTransformation GetCoordinateTransformation()
{
//The SRS for this datasource is EPSG:4326, therefore we need to transfrom it to OSM projection
var ctf = new ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory();
var cf = new ProjNet.CoordinateSystems.CoordinateSystemFactory();
var epsg4326 = cf.CreateFromWkt("GEOGCS[\"WGS 84\",DATUM[\"WGS_1984\",SPHEROID[\"WGS 84\",6378137,298.257223563,AUTHORITY[\"EPSG\",\"7030\"]],AUTHORITY[\"EPSG\",\"6326\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4326\"]]");
var epsg3785 = cf.CreateFromWkt("PROJCS[\"Popular Visualisation CRS / Mercator\", GEOGCS[\"Popular Visualisation CRS\", DATUM[\"Popular Visualisation Datum\", SPHEROID[\"Popular Visualisation Sphere\", 6378137, 0, AUTHORITY[\"EPSG\",\"7059\"]], TOWGS84[0, 0, 0, 0, 0, 0, 0], AUTHORITY[\"EPSG\",\"6055\"]],PRIMEM[\"Greenwich\", 0, AUTHORITY[\"EPSG\", \"8901\"]], UNIT[\"degree\", 0.0174532925199433, AUTHORITY[\"EPSG\", \"9102\"]], AXIS[\"E\", EAST], AXIS[\"N\", NORTH], AUTHORITY[\"EPSG\",\"4055\"]], PROJECTION[\"Mercator\"], PARAMETER[\"False_Easting\", 0], PARAMETER[\"False_Northing\", 0], PARAMETER[\"Central_Meridian\", 0], PARAMETER[\"Latitude_of_origin\", 0], UNIT[\"metre\", 1, AUTHORITY[\"EPSG\", \"9001\"]], AXIS[\"East\", EAST], AXIS[\"North\", NORTH], AUTHORITY[\"EPSG\",\"3785\"]]");
return(ctf.CreateFromCoordinateSystems(epsg4326, epsg3785));
public override void SendCommand()
{
if (masterpos.Lat == 0 || masterpos.Lng == 0)
return;
Console.WriteLine(DateTime.Now);
Console.WriteLine("Leader {0} {1} {2}",masterpos.Lat,masterpos.Lng,masterpos.Alt);
int a = 0;
foreach (var port in MainV2.Comports)
{
if (port == Leader)
continue;
PointLatLngAlt target = new PointLatLngAlt(masterpos);
try
{
//convert Wgs84ConversionInfo to utm
CoordinateTransformationFactory ctfac = new CoordinateTransformationFactory();
GeographicCoordinateSystem wgs84 = GeographicCoordinateSystem.WGS84;
int utmzone = (int)((masterpos.Lng - -186.0) / 6.0);
IProjectedCoordinateSystem utm = ProjectedCoordinateSystem.WGS84_UTM(utmzone, masterpos.Lat < 0 ? false : true);
ICoordinateTransformation trans = ctfac.CreateFromCoordinateSystems(wgs84, utm);
double[] pll1 = { target.Lng, target.Lat };
double[] p1 = trans.MathTransform.Transform(pll1);
// add offsets to utm
p1[0] += ((HIL.Vector3)offsets[port]).x;
p1[1] += ((HIL.Vector3)offsets[port]).y;
// convert back to wgs84
IMathTransform inversedTransform = trans.MathTransform.Inverse();
double[] point = inversedTransform.Transform(p1);
target.Lat = point[1];
target.Lng = point[0];
target.Alt += ((HIL.Vector3)offsets[port]).z;
port.setGuidedModeWP(new Locationwp() { alt = (float)target.Alt, lat = target.Lat, lng = target.Lng, id = (byte)MAVLink.MAV_CMD.WAYPOINT });
Console.WriteLine("{0} {1} {2} {3}", port.ToString(), target.Lat, target.Lng, target.Alt);
}
catch (Exception ex) { Console.WriteLine("Failed to send command " + port.ToString() + "\n" + ex.ToString()); }
a++;
}
}
public Projections()
{
CoordinateSystemFactory c = new CoordinateSystemFactory();
ICoordinateSystem osgb = c.CreateFromWkt("PROJCS[\"OSGB 1936 / British National Grid\",GEOGCS[\"OSGB 1936\",DATUM[\"OSGB_1936\",SPHEROID[\"Airy 1830\",6377563.396,299.3249646,AUTHORITY[\"EPSG\",\"7001\"]],AUTHORITY[\"EPSG\",\"6277\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4277\"]],PROJECTION[\"Transverse_Mercator\"],PARAMETER[\"latitude_of_origin\",49],PARAMETER[\"central_meridian\",-2],PARAMETER[\"scale_factor\",0.9996012717],PARAMETER[\"false_easting\",400000],PARAMETER[\"false_northing\",-100000],UNIT[\"metre\",1,AUTHORITY[\"EPSG\",\"9001\"]],AUTHORITY[\"EPSG\",\"27700\"]]");
ICoordinateSystem wgs = c.CreateFromWkt("GEOGCS[\"GCS_WGS_1984\",DATUM[\"D_WGS_1984\",SPHEROID[\"WGS_1984\",6378137,298.257223563]],PRIMEM[\"Greenwich\",0],UNIT[\"Degree\",0.0174532925199433]]");
CoordinateTransformationFactory trf = new CoordinateTransformationFactory();
this.OsgbToWgs = trf.CreateFromCoordinateSystems(osgb, wgs);
this.WgsToOsgb = trf.CreateFromCoordinateSystems(wgs, osgb);
}
public void WebMercatorCanBeTranformed(int srid)
{
var wkt = SharpMap.Converters.WellKnownText.SpatialReference.SridToWkt(srid);
var csf = new CoordinateSystemFactory();
var cs = csf.CreateFromWkt(wkt);
var ctf = new CoordinateTransformationFactory();
Assert.DoesNotThrow(() => ctf.CreateFromCoordinateSystems(cs, GeographicCoordinateSystem.WGS84),
"Could not reproject SRID:" + srid);
}
public void TestMethod1()
{
var UTMSystem = ProjNet.CoordinateSystems.ProjectedCoordinateSystem.WGS84_UTM(32, true);
ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(ProjNet.CoordinateSystems.GeographicCoordinateSystem.WGS84, UTMSystem);
double[] p1 = trans.MathTransform.Transform(new double[] { 12.45693, 55.65322 });
double utmy = p1[1];
double utmx = p1[0];
var t = DateTime.Now.Subtract(new DateTime(2012, 7, 1));
}
public override SpatialReference getGeographicSRS()
{
if (isGeographic())
{
return this;
}
else
{
ICoordinateTransformationFactory ctf = new CoordinateTransformationFactory ();
// mt = ctf.
}
throw new NotImplementedException();
}
//获取shp投影方式
public ICoordinateTransformation getmapTransform(config.ProjPara proj)
{
CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
CoordinateSystemFactory cFac = new CoordinateSystemFactory();
ICoordinateTransformation transform = null;
//等经纬,shp数据原始投影
var epsg4326 = cFac.CreateFromWkt("GEOGCS[\"GCS_WGS_1984\",DATUM[\"WGS_1984\",SPHEROID[\"WGS_84\",6378137.0,298.257223563]],PRIMEM[\"Greenwich\",0.0],UNIT[\"Degree\",0.0174532925199433]]");
//目标坐标系
var epsg3857 = cFac.CreateFromWkt(getSrcCoordinate(proj));
transform = ctFac.CreateFromCoordinateSystems(epsg4326, epsg3857);
return transform;
}
public static Coordinate ConvertDegreesToUTM(ICoordinate coordinate)
{
var ctfac = new CoordinateTransformationFactory();
ProjNet.CoordinateSystems.ICoordinateSystem wgs84geo = ProjNet.CoordinateSystems.GeographicCoordinateSystem.WGS84;
int zone = (int)System.Math.Ceiling((coordinate.X + 180) / 6);
ProjNet.CoordinateSystems.ICoordinateSystem utm = ProjNet.CoordinateSystems.ProjectedCoordinateSystem.WGS84_UTM(zone, coordinate.Y > 0);
var trans = ctfac.CreateFromCoordinateSystems(wgs84geo, utm);
double[] pUtm = trans.MathTransform.Transform(new[] { coordinate.X, coordinate.Y });
return new Coordinate
{
X = pUtm[0],
Y = pUtm[1],
};
}
private static ICoordinateTransformation Proj2Proj(IProjectedCoordinateSystem source, IProjectedCoordinateSystem target)
{
ConcatenatedTransform ct = new ConcatenatedTransform();
CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
//First transform from projection to geographic
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source, source.GeographicCoordinateSystem));
//Transform geographic to geographic:
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source.GeographicCoordinateSystem, target.GeographicCoordinateSystem));
//Transform to new projection
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(target.GeographicCoordinateSystem, target));
return(new CoordinateTransformation(source,
target, TransformType.Transformation, ct,
String.Empty, String.Empty, -1, String.Empty, String.Empty));
}
public SpatialReference(KinectReader kinectReader, PositionReader positionReader)
{
this.kinectReader = kinectReader;
this.positionReader = positionReader;
string wkt = "GEOGCS[\"GCS_WGS_1984\",DATUM[\"D_WGS_1984\",SPHEROID[\"WGS_1984\",6378137,298.257223563]],PRIMEM[\"Greenwich\",0],UNIT[\"Degree\",0.0174532925199433]]";
this.wgs84 = (ICoordinateSystem)ProjNet.Converters.WellKnownText.CoordinateSystemWktReader.Parse(wkt);
//hardcoded UTM 55S - should parameterize
string toWKT = "PROJCS[\"WGS 72BE / UTM zone 55S\",GEOGCS[\"WGS 72BE\",DATUM[\"WGS_1972_Transit_Broadcast_Ephemeris\",SPHEROID[\"WGS 72\",6378135,298.26,AUTHORITY[\"EPSG\",\"7043\"]],TOWGS84[0,0,1.9,0,0,0.814,-0.38],AUTHORITY[\"EPSG\",\"6324\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4324\"]],PROJECTION[\"Transverse_Mercator\"],PARAMETER[\"latitude_of_origin\",0],PARAMETER[\"central_meridian\",147],PARAMETER[\"scale_factor\",0.9996],PARAMETER[\"false_easting\",500000],PARAMETER[\"false_northing\",10000000],UNIT[\"metre\",1,AUTHORITY[\"EPSG\",\"9001\"]],AUTHORITY[\"EPSG\",\"32555\"]]";
this.toCs = (ICoordinateSystem)ProjNet.Converters.WellKnownText.CoordinateSystemWktReader.Parse(toWKT);
CoordinateTransformationFactory ctfac = new CoordinateTransformationFactory();
this.toGridtrans = ctfac.CreateFromCoordinateSystems(wgs84, toCs);
}
private static ICoordinateTransformation Proj2Geog(IProjectedCoordinateSystem source, IGeographicCoordinateSystem target)
{
if (source.GeographicCoordinateSystem.EqualParams(target))
{
IMathTransform mathTransform = CreateCoordinateOperation(source.Projection, source.GeographicCoordinateSystem.HorizontalDatum.Ellipsoid, source.LinearUnit).Inverse();
return(new CoordinateTransformation(source, target, TransformType.Transformation, mathTransform,
String.Empty, String.Empty, -1, String.Empty, String.Empty));
}
else
{ // Geographic coordinatesystems differ - Create concatenated transform
ConcatenatedTransform ct = new ConcatenatedTransform();
CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source, source.GeographicCoordinateSystem));
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source.GeographicCoordinateSystem, target));
return(new CoordinateTransformation(source,
target, TransformType.Transformation, ct,
String.Empty, String.Empty, -1, String.Empty, String.Empty));
}
}
private void TestMercator_1SP()
{
CoordinateSystemFactory cFac = new CoordinateSystemFactory();
IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Bessel 1840", 6377397.155, 299.15281, LinearUnit.Metre);
IHorizontalDatum datum = cFac.CreateHorizontalDatum("Bessel 1840", DatumType.HD_Geocentric, ellipsoid, null);
IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem("Bessel 1840", AngularUnit.Degrees,
datum,
PrimeMeridian.Greenwich,
new AxisInfo("Lon",
AxisOrientationEnum.East),
new AxisInfo("Lat",
AxisOrientationEnum.North));
List<ProjectionParameter> parameters = new List<ProjectionParameter>();
parameters.Add(new ProjectionParameter("latitude_of_origin", 0));
parameters.Add(new ProjectionParameter("central_meridian", 110));
parameters.Add(new ProjectionParameter("scale_factor", 0.997));
parameters.Add(new ProjectionParameter("false_easting", 3900000));
parameters.Add(new ProjectionParameter("false_northing", 900000));
IProjection projection = cFac.CreateProjection("Mercator_1SP", "Mercator_1SP", parameters);
IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("Makassar / NEIEZ", gcs, projection,
LinearUnit.Metre,
new AxisInfo("East",
AxisOrientationEnum.East),
new AxisInfo("North",
AxisOrientationEnum.
North));
ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs,
coordsys);
var pGeo = new Coordinate(120, -3);
var pUtm = Transform(trans.MathTransform, pGeo);
trans.MathTransform.Invert();
var pGeo2 = Transform(trans.MathTransform, pUtm);
trans.MathTransform.Invert();
result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Coordinate(5009726.58, 569150.82), pGeo2,
"Mercator_1SP test");
}
private static CoordinateTransformation Geog2Proj(GeographicCoordinateSystem source, ProjectedCoordinateSystem target)
{
if (source.EqualParams(target.GeographicCoordinateSystem))
{
var mathTransform = CreateCoordinateOperation(target.Projection,
target.GeographicCoordinateSystem.HorizontalDatum.Ellipsoid, target.LinearUnit);
return(new CoordinateTransformation(source, target, TransformType.Transformation, mathTransform,
string.Empty, string.Empty, -1, string.Empty, string.Empty));
}
// Geographic coordinatesystems differ - Create concatenated transform
var ct = new ConcatenatedTransform();
var ctFac = new CoordinateTransformationFactory();
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source, target.GeographicCoordinateSystem));
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(target.GeographicCoordinateSystem, target));
return(new CoordinateTransformation(source,
target, TransformType.Transformation, ct,
string.Empty, string.Empty, -1, string.Empty, string.Empty));
}
private static CoordinateTransformation Proj2Proj(ProjectedCoordinateSystem source, ProjectedCoordinateSystem target)
{
var ct = new ConcatenatedTransform();
var ctFac = new CoordinateTransformationFactory();
//First transform from projection to geographic
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source, source.GeographicCoordinateSystem));
//Transform geographic to geographic:
var geogToGeog = ctFac.CreateFromCoordinateSystems(source.GeographicCoordinateSystem,
target.GeographicCoordinateSystem);
if (geogToGeog != null)
{
ct.CoordinateTransformationList.Add(geogToGeog);
}
//Transform to new projection
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(target.GeographicCoordinateSystem, target));
return(new CoordinateTransformation(source,
target, TransformType.Transformation, ct,
string.Empty, string.Empty, -1, string.Empty, string.Empty));
}
public void TestTransformListOfCoordinates()
{
CoordinateSystemFactory csFact = new CoordinateSystemFactory();
CoordinateTransformationFactory ctFact = new CoordinateTransformationFactory();
ICoordinateSystem utm35ETRS = csFact.CreateFromWkt(
"PROJCS[\"ETRS89 / ETRS-TM35\",GEOGCS[\"ETRS89\",DATUM[\"D_ETRS_1989\",SPHEROID[\"GRS_1980\",6378137,298.257222101]],PRIMEM[\"Greenwich\",0],UNIT[\"Degree\",0.017453292519943295]],PROJECTION[\"Transverse_Mercator\"],PARAMETER[\"latitude_of_origin\",0],PARAMETER[\"central_meridian\",27],PARAMETER[\"scale_factor\",0.9996],PARAMETER[\"false_easting\",500000],PARAMETER[\"false_northing\",0],UNIT[\"Meter\",1]]");
IProjectedCoordinateSystem utm33 = ProjectedCoordinateSystem.WGS84_UTM(33, true);
ICoordinateTransformation trans = ctFact.CreateFromCoordinateSystems(utm35ETRS, utm33);
Coordinate[] points = new Coordinate[]
{
new Coordinate(290586.087, 6714000), new Coordinate(290586.392, 6713996.224),
new Coordinate(290590.133, 6713973.772), new Coordinate(290594.111, 6713957.416),
new Coordinate(290596.615, 6713943.567), new Coordinate(290596.701, 6713939.485)
};
Coordinate[] tpoints = trans.MathTransform.TransformList(points).ToArray();
for (int i = 0; i < points.Length; i++)
Assert.That(tpoints[i].Equals(trans.MathTransform.Transform(points[i])));
}
/// <summary>
/// Creates transformation from source coordinate system to specified target system which is the fitted one
/// </summary>
/// <param name="source"></param>
/// <param name="target"></param>
/// <returns></returns>
private static ICoordinateTransformation Any2Fitt(ICoordinateSystem source, IFittedCoordinateSystem target)
{
//Transform form base system of fitted to target coordinate system - use invered math transform
IMathTransform invMt = CreateFittedTransform(target).Inverse();
//case when source system is equal to base system of the fitted
if (target.BaseCoordinateSystem.EqualParams(source))
{
//Transform form base system of fitted to target coordinate system
return(CreateTransform(source, target, TransformType.Transformation, invMt));
}
ConcatenatedTransform ct = new ConcatenatedTransform();
//First transform from source to base system of fitted
CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source, target.BaseCoordinateSystem));
//Transform form base system of fitted to target coordinate system - use invered math transform
ct.CoordinateTransformationList.Add(CreateTransform(target.BaseCoordinateSystem, target, TransformType.Transformation, invMt));
return(CreateTransform(source, target, TransformType.Transformation, ct));
}
static void Main(string[] args)
{
var wktWGS84 = "GEOGCS[\"GCS_WGS_1984\",DATUM[\"D_WGS_1984\",SPHEROID[\"WGS_1984\",6378137,298.257223563]],PRIMEM[\"Greenwich\",0],UNIT[\"Degree\",0.0174532925199433]]";
var wgs84 = CoordinateSystemWktReader.Parse(wktWGS84) as ICoordinateSystem;
var wktMercator = "PROJCS[\"World_Mercator\",GEOGCS[\"GCS_WGS_1984\",DATUM[\"WGS_1984\",SPHEROID[\"WGS_1984\",6378137,298.257223563]],PRIMEM[\"Greenwich\",0],UNIT[\"Degree\",0.017453292519943295]],PROJECTION[\"Mercator_1SP\"],PARAMETER[\"False_Easting\",0],PARAMETER[\"False_Northing\",0],PARAMETER[\"Central_Meridian\",0],PARAMETER[\"latitude_of_origin\",0],UNIT[\"Meter\",1]]";
var mercator = CoordinateSystemWktReader.Parse(wktMercator) as ICoordinateSystem;
var transFactory = new CoordinateTransformationFactory();
var trans = transFactory.CreateFromCoordinateSystems(wgs84, mercator);
var fromPoints = new List<double[]>();
using (var sr = new StreamReader("32332.dat"))
{
while (!sr.EndOfStream)
{
var val = sr.ReadLine().Split("".ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
if (val[0].Contains("nan") || val[1].Contains("nan"))
{
continue;
}
var x = double.Parse(val[0]);
var y = double.Parse(val[1]);
fromPoints.Add(new double[] { x, y });
}
}
var toPoints = trans.MathTransform.TransformList(fromPoints);
using (var sw = new StreamWriter("result.dat"))
{
foreach (var toPoint in toPoints)
{
sw.WriteLine("{0} {1}", toPoint[0], toPoint[1]);
}
}
}
/// <summary>
/// 地理坐标转换为投影坐标
/// </summary>
/// <param name="source"></param>
/// <param name="target"></param>
/// <returns></returns>
private static ICoordinateTransformation Geog2Proj(IGeographicCoordinateSystem source, IProjectedCoordinateSystem target)
{
//目标的地理坐标系和源的地理坐标系相同,则直接采用投影变换
if (source.EqualParams(target.GeographicCoordinateSystem))
{
IMathTransform mathTransform = CreateCoordinateOperation(target.Projection, target.GeographicCoordinateSystem.HorizontalDatum.Ellipsoid, target.LinearUnit);
return(new CoordinateTransformation(source, target, TransformType.Transformation, mathTransform,
String.Empty, String.Empty, -1, String.Empty, String.Empty));
}
else
{
// 目标的地理坐标系和源的地理坐标系不相同,则采用一系列变换
// Geographic coordinatesystems differ - Create concatenated transform
ConcatenatedTransform ct = new ConcatenatedTransform();
CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
//创建从源地理坐标系到目标地理坐标系的转换
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source, target.GeographicCoordinateSystem));
//创建从目标地理坐标系到目标投影坐标系的转换
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(target.GeographicCoordinateSystem, target));
return(new CoordinateTransformation(source,
target, TransformType.Transformation, ct,
String.Empty, String.Empty, -1, String.Empty, String.Empty));
}
}
/// <summary>
/// Creates transformation from fitted coordinate system to the target one
/// </summary>
/// <param name="source"></param>
/// <param name="target"></param>
/// <returns></returns>
private static ICoordinateTransformation Fitt2Any(IFittedCoordinateSystem source, ICoordinateSystem target)
{
//transform from fitted to base system of fitted (which is equal to target)
IMathTransform mt = CreateFittedTransform(source);
//case when target system is equal to base system of the fitted
if (source.BaseCoordinateSystem.EqualParams(target))
{
//Transform form base system of fitted to target coordinate system
return(CreateTransform(source, target, TransformType.Transformation, mt));
}
//Transform form base system of fitted to target coordinate system
ConcatenatedTransform ct = new ConcatenatedTransform();
ct.CoordinateTransformationList.Add(CreateTransform(source, source.BaseCoordinateSystem, TransformType.Transformation, mt));
//Transform form base system of fitted to target coordinate system
CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
ct.CoordinateTransformationList.Add(ctFac.CreateFromCoordinateSystems(source.BaseCoordinateSystem, target));
return(CreateTransform(source, target, TransformType.Transformation, ct));
}
/// <summary>
/// Creates a transformation between two coordinate systems.
/// </summary>
/// <param name="factory">The coordinate transformation factory.</param>
/// <param name="sourceCS">Source coordinate system.</param>
/// <param name="targetCS">Target coordinate system.</param>
/// <param name="gridFile">The grid file path.</param>
/// <param name="inverse">Indicates whether to use the inverse grid transform.</param>
/// <returns></returns>
public static ICoordinateTransformation CreateFromCoordinateSystems(this CoordinateTransformationFactory factory,
CoordinateSystem sourceCS, CoordinateSystem targetCS, string gridFile, bool inverse)
{
return(CreateFromCoordinateSystems(factory, sourceCS, targetCS, GridFile.Open(gridFile), inverse));
}
private static Map InitializeMapOsmWithXls(float angle)
{
Map map = new Map();
TileLayer tileLayer = new TileLayer(new OsmTileSource(), "TileLayer - OSM with XLS");
map.Layers.Add(tileLayer);
//Get data from excel
var xlsPath = string.Format(XlsConnectionString, System.IO.Directory.GetCurrentDirectory(), "GeoData\\Cities.xls");
var ds = new System.Data.DataSet("XLS");
using (var cn = new System.Data.OleDb.OleDbConnection(xlsPath))
{
cn.Open();
using (var da = new System.Data.OleDb.OleDbDataAdapter(new System.Data.OleDb.OleDbCommand("SELECT * FROM [Cities$]", cn)))
da.Fill(ds);
}
#if !DotSpatialProjections
//The SRS for this datasource is EPSG:4326, therefore we need to transfrom it to OSM projection
var ctf = new ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory();
var cf = new ProjNet.CoordinateSystems.CoordinateSystemFactory();
var epsg4326 = cf.CreateFromWkt("GEOGCS[\"WGS 84\",DATUM[\"WGS_1984\",SPHEROID[\"WGS 84\",6378137,298.257223563,AUTHORITY[\"EPSG\",\"7030\"]],AUTHORITY[\"EPSG\",\"6326\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4326\"]]");
var epsg3785 = cf.CreateFromWkt("PROJCS[\"Popular Visualisation CRS / Mercator\", GEOGCS[\"Popular Visualisation CRS\", DATUM[\"Popular Visualisation Datum\", SPHEROID[\"Popular Visualisation Sphere\", 6378137, 0, AUTHORITY[\"EPSG\",\"7059\"]], TOWGS84[0, 0, 0, 0, 0, 0, 0], AUTHORITY[\"EPSG\",\"6055\"]],PRIMEM[\"Greenwich\", 0, AUTHORITY[\"EPSG\", \"8901\"]], UNIT[\"degree\", 0.0174532925199433, AUTHORITY[\"EPSG\", \"9102\"]], AXIS[\"E\", EAST], AXIS[\"N\", NORTH], AUTHORITY[\"EPSG\",\"4055\"]], PROJECTION[\"Mercator\"], PARAMETER[\"False_Easting\", 0], PARAMETER[\"False_Northing\", 0], PARAMETER[\"Central_Meridian\", 0], PARAMETER[\"Latitude_of_origin\", 0], UNIT[\"metre\", 1, AUTHORITY[\"EPSG\", \"9001\"]], AXIS[\"East\", EAST], AXIS[\"North\", NORTH], AUTHORITY[\"EPSG\",\"3785\"]]");
var ct = ctf.CreateFromCoordinateSystems(epsg4326, epsg3785);
foreach (System.Data.DataRow row in ds.Tables[0].Rows)
{
if (row["X"] == DBNull.Value || row["Y"] == DBNull.Value) continue;
double[] coords = new double[] { Convert.ToDouble(row["X"]), Convert.ToDouble(row["Y"])};
coords = ct.MathTransform.Transform(coords);
row["X"] = coords[0];
row["Y"] = coords[1];
}
#else
var epsg4326 = DotSpatial.Projections.KnownCoordinateSystems.Geographic.World.WGS1984;
var epsg3785 = new DotSpatial.Projections.ProjectionInfo();
epsg3785.ReadEsriString("PROJCS[\"Popular Visualisation CRS / Mercator\", GEOGCS[\"Popular Visualisation CRS\", DATUM[\"Popular Visualisation Datum\", SPHEROID[\"Popular Visualisation Sphere\", 6378137, 0, AUTHORITY[\"EPSG\",\"7059\"]], TOWGS84[0, 0, 0, 0, 0, 0, 0], AUTHORITY[\"EPSG\",\"6055\"]],PRIMEM[\"Greenwich\", 0, AUTHORITY[\"EPSG\", \"8901\"]], UNIT[\"degree\", 0.0174532925199433, AUTHORITY[\"EPSG\", \"9102\"]], AXIS[\"E\", EAST], AXIS[\"N\", NORTH], AUTHORITY[\"EPSG\",\"4055\"]], PROJECTION[\"Mercator\"], PARAMETER[\"False_Easting\", 0], PARAMETER[\"False_Northing\", 0], PARAMETER[\"Central_Meridian\", 0], PARAMETER[\"Latitude_of_origin\", 0], UNIT[\"metre\", 1, AUTHORITY[\"EPSG\", \"9001\"]], AXIS[\"East\", EAST], AXIS[\"North\", NORTH], AUTHORITY[\"EPSG\",\"3785\"]]");
foreach (System.Data.DataRow row in ds.Tables[0].Rows)
{
if (row["X"] == DBNull.Value || row["Y"] == DBNull.Value) continue;
double[] coords = new double[] { Convert.ToDouble(row["X"]), Convert.ToDouble(row["Y"])};
DotSpatial.Projections.Reproject.ReprojectPoints(coords, null, epsg4326, epsg3785, 0, 1);
row["X"] = coords[0];
row["Y"] = coords[1];
}
#endif
//Add Rotation Column
ds.Tables[0].Columns.Add("Rotation", typeof (float));
foreach (System.Data.DataRow row in ds.Tables[0].Rows)
row["Rotation"] = -angle;
//Set up provider
var xlsProvider = new SharpMap.Data.Providers.DataTablePoint(ds.Tables[0], "OID", "X", "Y");
var xlsLayer = new SharpMap.Layers.VectorLayer("XLS", xlsProvider);
xlsLayer.Style.Symbol = SharpMap.Styles.VectorStyle.DefaultSymbol;
//Add layer to map
map.Layers.Add(xlsLayer);
var xlsLabelLayer = new SharpMap.Layers.LabelLayer("XLSLabel");
xlsLabelLayer.DataSource = xlsProvider;
xlsLabelLayer.LabelColumn = "Name";
xlsLabelLayer.PriorityColumn = "Population";
xlsLabelLayer.Style.CollisionBuffer = new System.Drawing.SizeF(2f, 2f);
xlsLabelLayer.Style.CollisionDetection = true;
xlsLabelLayer.LabelFilter = SharpMap.Rendering.LabelCollisionDetection.ThoroughCollisionDetection;
map.Layers.Add(xlsLabelLayer);
map.ZoomToBox(tileLayer.Envelope);
return map;
}
private static ICoordinateTransformation GetCoordinateTransformation()
{
//The SRS for this datasource is EPSG:4326, therefore we need to transfrom it to OSM projection
var ctf = new ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory();
var cf = new ProjNet.CoordinateSystems.CoordinateSystemFactory();
var epsg4326 = cf.CreateFromWkt("GEOGCS[\"WGS 84\",DATUM[\"WGS_1984\",SPHEROID[\"WGS 84\",6378137,298.257223563,AUTHORITY[\"EPSG\",\"7030\"]],AUTHORITY[\"EPSG\",\"6326\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4326\"]]");
var epsg3785 = cf.CreateFromWkt("PROJCS[\"Popular Visualisation CRS / Mercator\", GEOGCS[\"Popular Visualisation CRS\", DATUM[\"Popular Visualisation Datum\", SPHEROID[\"Popular Visualisation Sphere\", 6378137, 0, AUTHORITY[\"EPSG\",\"7059\"]], TOWGS84[0, 0, 0, 0, 0, 0, 0], AUTHORITY[\"EPSG\",\"6055\"]],PRIMEM[\"Greenwich\", 0, AUTHORITY[\"EPSG\", \"8901\"]], UNIT[\"degree\", 0.0174532925199433, AUTHORITY[\"EPSG\", \"9102\"]], AXIS[\"E\", EAST], AXIS[\"N\", NORTH], AUTHORITY[\"EPSG\",\"4055\"]], PROJECTION[\"Mercator\"], PARAMETER[\"False_Easting\", 0], PARAMETER[\"False_Northing\", 0], PARAMETER[\"Central_Meridian\", 0], PARAMETER[\"Latitude_of_origin\", 0], UNIT[\"metre\", 1, AUTHORITY[\"EPSG\", \"9001\"]], AXIS[\"East\", EAST], AXIS[\"North\", NORTH], AUTHORITY[\"EPSG\",\"3785\"]]");
return ctf.CreateFromCoordinateSystems(epsg4326, epsg3785);
// gets transform between raster's native projection and the map projection
private void GetTransform(ICoordinateSystem mapProjection)
{
if (mapProjection == null || Projection == "")
{
Transform = null;
return;
}
CoordinateSystemFactory cFac = new CoordinateSystemFactory();
// get our two projections
ICoordinateSystem srcCoord = cFac.CreateFromWkt(Projection);
ICoordinateSystem tgtCoord = mapProjection;
// raster and map are in same projection, no need to transform
if (srcCoord.WKT == tgtCoord.WKT)
{
Transform = null;
return;
}
// create transform
Transform = new CoordinateTransformationFactory().CreateFromCoordinateSystems(srcCoord, tgtCoord);
}
public void SetUTM(ProjectedCoordinateSystem UTMSystem)
{
ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(ProjNet.CoordinateSystems.GeographicCoordinateSystem.WGS84, UTMSystem);
double[] p1 = trans.MathTransform.Transform(new double[] { Longitude, Latitude });
Y = p1[1];
X = p1[0];
}
public void SetLatLong(ProjectedCoordinateSystem UTMSystem)
{
ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(UTMSystem, ProjNet.CoordinateSystems.GeographicCoordinateSystem.WGS84);
double[] p1 = trans.MathTransform.Transform(new double[] { X, Y });
Latitude = p1[1];
Longitude = p1[0];
}
//Este para que hace falta??
public SpatialReference createSRSfromWKT(string wkt, IMathTransform transf)
{
ProjNet.CoordinateSystems.CoordinateSystemFactory csf = new ProjNet.CoordinateSystems.CoordinateSystemFactory();
ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory ctf = new ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory();
throw new NotImplementedException();
}
public SpatialReference createSRSfromWKT(string wkt, ICoordinateSystem source)
{
SpatialReference result = null;
//SetUp coordinate transformation
ProjNet.CoordinateSystems.CoordinateSystemFactory csf = new ProjNet.CoordinateSystems.CoordinateSystemFactory();
cs = csf.CreateFromWkt(wkt);
ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory ctf = new ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory();
ctf.CreateFromCoordinateSystems(source, cs);
ProjNet.CoordinateSystems.Transformations.ICoordinateTransformation ct = ctf.CreateFromCoordinateSystems(cs, source);
//crear SharpMapSpatialReference usando el coordinateTranformation.
throw new NotImplementedException();
}
public void TestTransformAllWKTs()
{
//GeographicCoordinateSystem.WGS84
CoordinateTransformationFactory fact = new CoordinateTransformationFactory();
CoordinateSystemFactory fac = new CoordinateSystemFactory();
int parsecount = 0;
StreamReader sr = File.OpenText(@"..\..\SRID.csv");
string line = "";
while (!sr.EndOfStream)
{
line = sr.ReadLine();
int split = line.IndexOf(';');
if (split > -1)
{
string srid = line.Substring(0, split);
string wkt = line.Substring(split + 1);
ICoordinateSystem cs = CoordinateSystemWktReader.Parse(wkt) as ICoordinateSystem;
if (cs == null) continue; //We check this in another test.
if (cs is IProjectedCoordinateSystem)
{
switch ((cs as IProjectedCoordinateSystem).Projection.ClassName)
{
//Skip not supported projections
case "Oblique_Stereographic":
case "Transverse_Mercator_South_Orientated":
case "Hotine_Oblique_Mercator":
case "Lambert_Conformal_Conic_1SP":
case "Krovak":
case "Cassini_Soldner":
case "Lambert_Azimuthal_Equal_Area":
case "Tunisia_Mining_Grid":
case "New_Zealand_Map_Grid":
case "Polyconic":
case "Lambert_Conformal_Conic_2SP_Belgium":
case "Polar_Stereographic":
continue;
default: break;
}
}
try
{
ICoordinateTransformation trans = fact.CreateFromCoordinateSystems(GeographicCoordinateSystem.WGS84, cs);
}
catch (Exception ex)
{
if (cs is IProjectedCoordinateSystem)
Assert.Fail("Could not create transformation from:\r\n" + wkt + "\r\n" + ex.Message + "\r\nClass name:" + (cs as IProjectedCoordinateSystem).Projection.ClassName);
else
Assert.Fail("Could not create transformation from:\r\n" + wkt + "\r\n" + ex.Message);
}
parsecount++;
}
}
sr.Close();
Assert.AreEqual(parsecount, 2536, "Not all WKT was processed");
}
private void TestMercator_2SP()
{
CoordinateSystemFactory cFac = new CoordinateSystemFactory();
IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Krassowski 1940", 6378245.0, 298.3, LinearUnit.Metre);
IHorizontalDatum datum = cFac.CreateHorizontalDatum("Krassowski 1940", DatumType.HD_Geocentric, ellipsoid, null);
IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem("Krassowski 1940", AngularUnit.Degrees,
datum,
PrimeMeridian.Greenwich,
new AxisInfo("Lon",
AxisOrientationEnum.East),
new AxisInfo("Lat",
AxisOrientationEnum.North));
List<ProjectionParameter> parameters = new List<ProjectionParameter>();
parameters.Add(new ProjectionParameter("latitude_of_origin", 42));
parameters.Add(new ProjectionParameter("central_meridian", 51));
parameters.Add(new ProjectionParameter("false_easting", 0));
parameters.Add(new ProjectionParameter("false_northing", 0));
IProjection projection = cFac.CreateProjection("Mercator_2SP", "Mercator_2SP", parameters);
IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem(
"Pulkovo 1942 / Mercator Caspian Sea", gcs, projection, LinearUnit.Metre,
new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));
ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs,
coordsys);
var pGeo = new Coordinate(53, 53);
var pUtm = Transform(trans.MathTransform, pGeo);
trans.MathTransform.Invert();
var pGeo2 = Transform(trans.MathTransform, pUtm);
trans.MathTransform.Invert();
result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Coordinate(165704.29, 5171848.07), pGeo2,
"Mercator_2SP test");
}
private void TestGeocentric()
{
CoordinateSystemFactory cFac = new CoordinateSystemFactory();
IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem("WGS84", AngularUnit.Degrees,
HorizontalDatum.WGS84,
PrimeMeridian.Greenwich,
new AxisInfo("Lon",
AxisOrientationEnum.East),
new AxisInfo("Lat",
AxisOrientationEnum.North));
IGeocentricCoordinateSystem geoccs = cFac.CreateGeocentricCoordinateSystem("WGS84 geocentric",
gcs.HorizontalDatum, LinearUnit.Metre,
PrimeMeridian.Greenwich);
ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, geoccs);
var pGeo = new Coordinate(2.12955, 53.80939444, 73);
var pGc = Transform(trans.MathTransform, pGeo);
trans.MathTransform.Invert();
var pGeo2 = Transform(trans.MathTransform, pGc);
trans.MathTransform.Invert();
result.Text += PrintResultTable(gcs, geoccs, pGeo, pGc, new Coordinate(3771793.97, 140253.34, 5124304.35), pGeo2,
"Geocentric test");
return;
}
private static Map InitializeMapOsmWithXls(float angle)
{
Map map = new Map();
TileLayer tileLayer = new TileLayer(new OsmTileSource(), "TileLayer - OSM with XLS");
map.Layers.Add(tileLayer);
//Get data from excel
var xlsPath = string.Format(XlsConnectionString, System.IO.Directory.GetCurrentDirectory(), "GeoData\\Cities.xls");
var ds = new System.Data.DataSet("XLS");
using (var cn = new System.Data.OleDb.OleDbConnection(xlsPath))
{
cn.Open();
using (var da = new System.Data.OleDb.OleDbDataAdapter(new System.Data.OleDb.OleDbCommand("SELECT * FROM [Cities$]", cn)))
da.Fill(ds);
}
#if !DotSpatialProjections
//The SRS for this datasource is EPSG:4326, therefore we need to transfrom it to OSM projection
var ctf = new ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory();
var cf = new ProjNet.CoordinateSystems.CoordinateSystemFactory();
var epsg4326 = cf.CreateFromWkt("GEOGCS[\"WGS 84\",DATUM[\"WGS_1984\",SPHEROID[\"WGS 84\",6378137,298.257223563,AUTHORITY[\"EPSG\",\"7030\"]],AUTHORITY[\"EPSG\",\"6326\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.01745329251994328,AUTHORITY[\"EPSG\",\"9122\"]],AUTHORITY[\"EPSG\",\"4326\"]]");
var epsg3785 = cf.CreateFromWkt("PROJCS[\"Popular Visualisation CRS / Mercator\", GEOGCS[\"Popular Visualisation CRS\", DATUM[\"Popular Visualisation Datum\", SPHEROID[\"Popular Visualisation Sphere\", 6378137, 0, AUTHORITY[\"EPSG\",\"7059\"]], TOWGS84[0, 0, 0, 0, 0, 0, 0], AUTHORITY[\"EPSG\",\"6055\"]],PRIMEM[\"Greenwich\", 0, AUTHORITY[\"EPSG\", \"8901\"]], UNIT[\"degree\", 0.0174532925199433, AUTHORITY[\"EPSG\", \"9102\"]], AXIS[\"E\", EAST], AXIS[\"N\", NORTH], AUTHORITY[\"EPSG\",\"4055\"]], PROJECTION[\"Mercator\"], PARAMETER[\"False_Easting\", 0], PARAMETER[\"False_Northing\", 0], PARAMETER[\"Central_Meridian\", 0], PARAMETER[\"Latitude_of_origin\", 0], UNIT[\"metre\", 1, AUTHORITY[\"EPSG\", \"9001\"]], AXIS[\"East\", EAST], AXIS[\"North\", NORTH], AUTHORITY[\"EPSG\",\"3785\"]]");
var ct = ctf.CreateFromCoordinateSystems(epsg4326, epsg3785);
foreach (System.Data.DataRow row in ds.Tables[0].Rows)
{
if (row["X"] == DBNull.Value || row["Y"] == DBNull.Value)
{
continue;
}
double[] coords = new double[] { Convert.ToDouble(row["X"]), Convert.ToDouble(row["Y"]) };
coords = ct.MathTransform.Transform(coords);
row["X"] = coords[0];
row["Y"] = coords[1];
}
#else
var epsg4326 = DotSpatial.Projections.KnownCoordinateSystems.Geographic.World.WGS1984;
var epsg3785 = new DotSpatial.Projections.ProjectionInfo();
epsg3785.ReadEsriString("PROJCS[\"Popular Visualisation CRS / Mercator\", GEOGCS[\"Popular Visualisation CRS\", DATUM[\"Popular Visualisation Datum\", SPHEROID[\"Popular Visualisation Sphere\", 6378137, 0, AUTHORITY[\"EPSG\",\"7059\"]], TOWGS84[0, 0, 0, 0, 0, 0, 0], AUTHORITY[\"EPSG\",\"6055\"]],PRIMEM[\"Greenwich\", 0, AUTHORITY[\"EPSG\", \"8901\"]], UNIT[\"degree\", 0.0174532925199433, AUTHORITY[\"EPSG\", \"9102\"]], AXIS[\"E\", EAST], AXIS[\"N\", NORTH], AUTHORITY[\"EPSG\",\"4055\"]], PROJECTION[\"Mercator\"], PARAMETER[\"False_Easting\", 0], PARAMETER[\"False_Northing\", 0], PARAMETER[\"Central_Meridian\", 0], PARAMETER[\"Latitude_of_origin\", 0], UNIT[\"metre\", 1, AUTHORITY[\"EPSG\", \"9001\"]], AXIS[\"East\", EAST], AXIS[\"North\", NORTH], AUTHORITY[\"EPSG\",\"3785\"]]");
foreach (System.Data.DataRow row in ds.Tables[0].Rows)
{
if (row["X"] == DBNull.Value || row["Y"] == DBNull.Value)
{
continue;
}
double[] coords = new double[] { Convert.ToDouble(row["X"]), Convert.ToDouble(row["Y"]) };
DotSpatial.Projections.Reproject.ReprojectPoints(coords, null, epsg4326, epsg3785, 0, 1);
row["X"] = coords[0];
row["Y"] = coords[1];
}
#endif
//Add Rotation Column
ds.Tables[0].Columns.Add("Rotation", typeof(float));
foreach (System.Data.DataRow row in ds.Tables[0].Rows)
{
row["Rotation"] = -angle;
}
//Set up provider
var xlsProvider = new SharpMap.Data.Providers.DataTablePoint(ds.Tables[0], "OID", "X", "Y");
var xlsLayer = new SharpMap.Layers.VectorLayer("XLS", xlsProvider);
xlsLayer.Style.Symbol = SharpMap.Styles.VectorStyle.DefaultSymbol;
//Add layer to map
map.Layers.Add(xlsLayer);
var xlsLabelLayer = new SharpMap.Layers.LabelLayer("XLSLabel");
xlsLabelLayer.DataSource = xlsProvider;
xlsLabelLayer.LabelColumn = "Name";
xlsLabelLayer.PriorityColumn = "Population";
xlsLabelLayer.Style.CollisionBuffer = new System.Drawing.SizeF(2f, 2f);
xlsLabelLayer.Style.CollisionDetection = true;
xlsLabelLayer.LabelFilter = SharpMap.Rendering.LabelCollisionDetection.ThoroughCollisionDetection;
map.Layers.Add(xlsLabelLayer);
map.ZoomToBox(tileLayer.Envelope);
return(map);
}
double calcpolygonarea(List<PointLatLngAlt> polygon)
{
// should be a closed polygon
// coords are in lat long
// need utm to calc area
if (polygon.Count == 0)
{
CustomMessageBox.Show("Please define a polygon!");
return 0;
}
// close the polygon
if (polygon[0] != polygon[polygon.Count - 1])
polygon.Add(polygon[0]); // make a full loop
CoordinateTransformationFactory ctfac = new CoordinateTransformationFactory();
GeographicCoordinateSystem wgs84 = GeographicCoordinateSystem.WGS84;
int utmzone = (int)((polygon[0].Lng - -186.0) / 6.0);
IProjectedCoordinateSystem utm = ProjectedCoordinateSystem.WGS84_UTM(utmzone, polygon[0].Lat < 0 ? false : true);
ICoordinateTransformation trans = ctfac.CreateFromCoordinateSystems(wgs84, utm);
double prod1 = 0;
double prod2 = 0;
for (int a = 0; a < (polygon.Count - 1); a++)
{
double[] pll1 = { polygon[a].Lng, polygon[a].Lat };
double[] pll2 = { polygon[a + 1].Lng, polygon[a + 1].Lat };
double[] p1 = trans.MathTransform.Transform(pll1);
double[] p2 = trans.MathTransform.Transform(pll2);
prod1 += p1[0] * p2[1];
prod2 += p1[1] * p2[0];
}
double answer = (prod1 - prod2) / 2;
if (polygon[0] == polygon[polygon.Count - 1])
polygon.RemoveAt(polygon.Count - 1); // unmake a full loop
return Math.Abs(answer);
}
public SpatialReference createSRSfromWKT(string wkttarget, string wktsource)
{
ProjNet.CoordinateSystems.CoordinateSystemFactory csf = new ProjNet.CoordinateSystems.CoordinateSystemFactory();
ProjNet.CoordinateSystems.ICoordinateSystem csSource = csf.CreateFromWkt(wktsource);
ProjNet.CoordinateSystems.ICoordinateSystem csTarget = csf.CreateFromWkt(wkttarget);
ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory ctf = new ProjNet.CoordinateSystems.Transformations.CoordinateTransformationFactory();
ProjNet.CoordinateSystems.Transformations.ICoordinateTransformation ct = ctf.CreateFromCoordinateSystems(csSource, csTarget);
SharpMapSpatialReference sr = new SharpMapSpatialReference();
sr.CoordinateSystem = csSource;
sr.MathTransform = ct.MathTransform;
return(sr);
}