CreateProjection() public method

Creates a Projection.
public CreateProjection ( string name, string wktProjectionClass, List parameters ) : IProjection
name string Name of projection
wktProjectionClass string Projection class
parameters List Projection parameters
return IProjection
示例#1
0
	private void TestMercator_2SP()
	{
		CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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);

		SharpMap.Geometries.Point pGeo = new SharpMap.Geometries.Point(53,53);
		SharpMap.Geometries.Point pUtm = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
        SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

		result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(165704.29, 5171848.07), pGeo2, "Mercator_2SP test");
	}
示例#2
0
	private void TestMercator_1SP()
	{
		CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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);

		SharpMap.Geometries.Point pGeo = new SharpMap.Geometries.Point(120, -3);
		SharpMap.Geometries.Point pUtm = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
		SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

		result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(5009726.58, 569150.82), pGeo2, "Mercator_1SP test");
	}
		public void TestMercator_1SP_Projection()
		{
			CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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));
			System.Collections.Generic.List<ProjectionParameter> parameters = new System.Collections.Generic.List<ProjectionParameter>(5);
			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);

			double[] pGeo = new double[] { 120, -3 };
			double[] pUtm = trans.MathTransform.Transform(pGeo);
			double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

			double[] expected = new double[] { 5009726.58, 569150.82 };
			Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("Mercator_1SP forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
			Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("Mercator_1SP reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
		}
        public void TestMercator_2SP_Projection()
        {
            CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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));

            System.Collections.Generic.List <ProjectionParameter> parameters = new System.Collections.Generic.List <ProjectionParameter>(5);
            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);

            double[] pGeo  = new double[] { 53, 53 };
            double[] pUtm  = trans.MathTransform.Transform(pGeo);
            double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

            double[] expected = new double[] { 165704.29, 5171848.07 };
            Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("Mercator_2SP forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
            Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("Mercator_2SP reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
        }
        public void TestTransverseMercator_Projection()
        {
            CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

            IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Airy 1830", 6377563.396, 299.32496, LinearUnit.Metre);

            IHorizontalDatum            datum = cFac.CreateHorizontalDatum("Airy 1830", DatumType.HD_Geocentric, ellipsoid, null);
            IGeographicCoordinateSystem gcs   = cFac.CreateGeographicCoordinateSystem("Airy 1830", AngularUnit.Degrees, datum,
                                                                                      PrimeMeridian.Greenwich, new AxisInfo("Lon", AxisOrientationEnum.East),
                                                                                      new AxisInfo("Lat", AxisOrientationEnum.North));

            System.Collections.Generic.List <ProjectionParameter> parameters = new System.Collections.Generic.List <ProjectionParameter>(5);
            parameters.Add(new ProjectionParameter("latitude_of_origin", 49));
            parameters.Add(new ProjectionParameter("central_meridian", -2));
            parameters.Add(new ProjectionParameter("scale_factor", 0.9996012717));
            parameters.Add(new ProjectionParameter("false_easting", 400000));
            parameters.Add(new ProjectionParameter("false_northing", -100000));
            IProjection projection = cFac.CreateProjection("Transverse Mercator", "Transverse_Mercator", parameters);

            IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("OSGB 1936 / British National Grid", gcs, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

            ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

            double[] pGeo  = new double[] { 0.5, 50.5 };
            double[] pUtm  = trans.MathTransform.Transform(pGeo);
            double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

            double[] expected = new double[] { 577274.99, 69740.50 };
            Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("TransverseMercator forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
            Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("TransverseMercator reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
        }
        public void TestAlbersProjection()
        {
            CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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));

            System.Collections.Generic.List <ProjectionParameter> parameters = new System.Collections.Generic.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.Metre, 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, 1535925 };
            Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.05), String.Format("Albers forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
            Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("Albers reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
        }
示例#7
0
    private void TestMercator_1SP()
    {
        CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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);

        SharpMap.Geometries.Point pGeo  = new SharpMap.Geometries.Point(120, -3);
        SharpMap.Geometries.Point pUtm  = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
        SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

        result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(5009726.58, 569150.82), pGeo2, "Mercator_1SP test");
    }
示例#8
0
    private void TestAlbers()
    {
        CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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>();

        parameters.Add(new ProjectionParameter("central_meridian", -96));
        parameters.Add(new ProjectionParameter("latitude_of_origin", 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.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

        ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

        SharpMap.Geometries.Point pGeo  = new SharpMap.Geometries.Point(-75, 35);
        SharpMap.Geometries.Point pUtm  = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
        SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

        result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(1885472.7, 1535925), pGeo2, "Albers Conical Equal Area test");
    }
        public void TestLambertConicConformal2SP_Projection()
        {
            CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

            IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Clarke 1866", 20925832.16, 294.97470, 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));

            System.Collections.Generic.List <ProjectionParameter> parameters = new System.Collections.Generic.List <ProjectionParameter>(5);
            parameters.Add(new ProjectionParameter("latitude_of_origin", 27.833333333));
            parameters.Add(new ProjectionParameter("central_meridian", -99));
            parameters.Add(new ProjectionParameter("standard_parallel_1", 28.3833333333));
            parameters.Add(new ProjectionParameter("standard_parallel_2", 30.2833333333));
            parameters.Add(new ProjectionParameter("false_easting", 2000000));
            parameters.Add(new ProjectionParameter("false_northing", 0));
            IProjection projection = cFac.CreateProjection("Lambert Conic Conformal (2SP)", "lambert_conformal_conic_2sp", parameters);

            IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("NAD27 / Texas South Central", gcs, projection, LinearUnit.USSurveyFoot, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

            ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

            double[] pGeo  = new double[] { -96, 28.5 };
            double[] pUtm  = trans.MathTransform.Transform(pGeo);
            double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

            double[] expected = new double[] { 2963503.91, 254759.80 };
            Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("LambertConicConformal2SP forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
            Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("LambertConicConformal2SP reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
        }
示例#10
0
    private void TestMercator_2SP()
    {
        CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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);

        SharpMap.Geometries.Point pGeo  = new SharpMap.Geometries.Point(53, 53);
        SharpMap.Geometries.Point pUtm  = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
        SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

        result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(165704.29, 5171848.07), pGeo2, "Mercator_2SP test");
    }
		public void TestAlbersProjection()
		{
			CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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));
			System.Collections.Generic.List<ProjectionParameter> parameters = new System.Collections.Generic.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.Metre, 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, 1535925 };
			Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.05), String.Format("Albers forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
			Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("Albers reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
		}
示例#12
0
    private void TestTransverseMercator()
    {
        CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

        IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Airy 1830", 6377563.396, 299.32496, LinearUnit.Metre);

        IHorizontalDatum            datum = cFac.CreateHorizontalDatum("Airy 1830", DatumType.HD_Geocentric, ellipsoid, null);
        IGeographicCoordinateSystem gcs   = cFac.CreateGeographicCoordinateSystem("Airy 1830", 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", 49));
        parameters.Add(new ProjectionParameter("central_meridian", -2));
        parameters.Add(new ProjectionParameter("scale_factor", 0.9996012717));
        parameters.Add(new ProjectionParameter("false_easting", 400000));
        parameters.Add(new ProjectionParameter("false_northing", -100000));
        IProjection projection = cFac.CreateProjection("Transverse Mercator", "Transverse_Mercator", parameters);

        IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("OSGB 1936 / British National Grid", gcs, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

        ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

        SharpMap.Geometries.Point pGeo  = new SharpMap.Geometries.Point(0.5, 50.5);
        SharpMap.Geometries.Point pUtm  = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
        SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

        result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(577274.99, 69740.50), pGeo2, "Transverse Mercator test");
    }
示例#13
0
    public static ICoordinateTransformation Transform2Lambert(ICoordinateSystem source)
    {
        if (source == null)
        {
            throw new ArgumentException("Source coordinate system is null");
        }
        if (!(source is IGeographicCoordinateSystem))
        {
            throw new ArgumentException("Source coordinate system must be geographic");
        }

        CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

        List <ProjectionParameter> parameters = new List <ProjectionParameter>();

        parameters.Add(new ProjectionParameter("latitude_of_origin", 50));
        parameters.Add(new ProjectionParameter("central_meridian", -95));
        parameters.Add(new ProjectionParameter("standard_parallel_1", 33));
        parameters.Add(new ProjectionParameter("standard_parallel_2", 45));
        parameters.Add(new ProjectionParameter("false_easting", 0));
        parameters.Add(new ProjectionParameter("false_northing", 0));
        IProjection projection = cFac.CreateProjection("Lambert Conformal Conic 2SP", "lambert_conformal_conic_2sp", parameters);

        IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("Lambert Conformal Conic 2SP", source as IGeographicCoordinateSystem, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

        return(new CoordinateTransformationFactory().CreateFromCoordinateSystems(source, coordsys));
    }
示例#14
0
    private void TestLambertConicConformal_2SP()
    {
        CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

        IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Clarke 1866", 20925832.16, 294.97470, 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>();

        parameters.Add(new ProjectionParameter("latitude_of_origin", 27.833333333));
        parameters.Add(new ProjectionParameter("central_meridian", -99));
        parameters.Add(new ProjectionParameter("standard_parallel_1", 28.3833333333));
        parameters.Add(new ProjectionParameter("standard_parallel_2", 30.2833333333));
        parameters.Add(new ProjectionParameter("false_easting", 2000000));
        parameters.Add(new ProjectionParameter("false_northing", 0));
        IProjection projection = cFac.CreateProjection("Lambert Conic Conformal (2SP)", "lambert_conformal_conic_2sp", parameters);

        IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("NAD27 / Texas South Central", gcs, projection, LinearUnit.USSurveyFoot, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

        ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

        SharpMap.Geometries.Point pGeo  = new SharpMap.Geometries.Point(-96, 28.5);
        SharpMap.Geometries.Point pUtm  = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
        SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

        result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(2963503.91, 254759.80), pGeo2, "Lambert Conic Conformal 2SP test");
    }
        public void TestMercator_1SP_Projection()
        {
            CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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));

            System.Collections.Generic.List <ProjectionParameter> parameters = new System.Collections.Generic.List <ProjectionParameter>(5);
            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);

            double[] pGeo  = new double[] { 120, -3 };
            double[] pUtm  = trans.MathTransform.Transform(pGeo);
            double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

            double[] expected = new double[] { 5009726.58, 569150.82 };
            Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("Mercator_1SP forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
            Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("Mercator_1SP reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
        }
示例#16
0
        public void BL2XY(double iLongtitude, double iLatitude, out double iProjectedX, out double iProjectedY)
        {
            SharpMap.Geometries.Point ptInput = new SharpMap.Geometries.Point(iLongtitude, iLatitude);
            iProjectedX = -1;
            iProjectedY = -1;

            //if (Math.Abs(ptInput.X) > 360)
            //    return null;

            int nCenterLongitude = ((int)(ptInput.X / 3)) * 3;

            CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();
            //创建椭球体
            IEllipsoid       ellipsoid = cFac.CreateFlattenedSphere("Xian 1980", 6378140, 298.257, SharpMap.CoordinateSystems.LinearUnit.Metre);
            IHorizontalDatum datum     = cFac.CreateHorizontalDatum("Xian_1980", DatumType.HD_Geocentric, ellipsoid, null);

            //创建地理坐标系
            SharpMap.CoordinateSystems.IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem(
                "Xian 1980", SharpMap.CoordinateSystems.AngularUnit.Degrees, datum,
                SharpMap.CoordinateSystems.PrimeMeridian.Greenwich,
                new AxisInfo("Lon", AxisOrientationEnum.East),
                new AxisInfo("Lat", AxisOrientationEnum.North));

            List <ProjectionParameter> parameters = new List <ProjectionParameter>(5);

            parameters.Add(new ProjectionParameter("latitude_of_origin", 0));
            parameters.Add(new ProjectionParameter("central_meridian", nCenterLongitude));
            parameters.Add(new ProjectionParameter("scale_factor", 1.0));
            parameters.Add(new ProjectionParameter("false_easting", 500000));
            parameters.Add(new ProjectionParameter("false_northing", 0.0));

            //创建投影坐标系
            SharpMap.CoordinateSystems.IProjection projection = cFac.CreateProjection("Transverse Mercator", "Transverse_Mercator", parameters);

            SharpMap.CoordinateSystems.IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem(
                "Xian_1980_3_Degree_GK_CM", gcs,
                projection, SharpMap.CoordinateSystems.LinearUnit.Metre,
                new AxisInfo("East", AxisOrientationEnum.East),
                new AxisInfo("North", AxisOrientationEnum.North));

            //创建坐标转换器
            ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

            //工作区坐标到投影坐标系的转换
            SharpMap.Geometries.Point ptOutput = trans.MathTransform.Transform(ptInput);
            iProjectedX = ptOutput.X;
            iProjectedY = ptOutput.Y;
        }
示例#17
0
    public static ICoordinateTransformation Transform2Mercator(ICoordinateSystem source)
    {
        CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

        List <ProjectionParameter> parameters = new List <ProjectionParameter>();

        parameters.Add(new ProjectionParameter("latitude_of_origin", 0));
        parameters.Add(new ProjectionParameter("central_meridian", 0));
        parameters.Add(new ProjectionParameter("false_easting", 0));
        parameters.Add(new ProjectionParameter("false_northing", 0));
        IProjection projection = cFac.CreateProjection("Mercator", "Mercator_2SP", parameters);

        IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("Mercator", source as IGeographicCoordinateSystem, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

        return(new CoordinateTransformationFactory().CreateFromCoordinateSystems(source, coordsys));
    }
        // spherical mercator for SharpMap
        public static ICoordinateTransformation TransformToMercator(ICoordinateSystem source)
        {
            var csFactory = new CoordinateSystemFactory();

            var parameters = new List<ProjectionParameter>
            {
                new ProjectionParameter("latitude_of_origin", 0), new ProjectionParameter("central_meridian", 0),
                new ProjectionParameter("false_easting", 0), new ProjectionParameter("false_northing", 0),
                new ProjectionParameter("semi_major", EarthRadius), new ProjectionParameter("semi_minor", EarthRadius)
            };

            var projection = csFactory.CreateProjection("Mercator", "Mercator_2SP", parameters);

            var coordSystem = csFactory.CreateProjectedCoordinateSystem(
                "Mercator", source as IGeographicCoordinateSystem, projection, LinearUnit.Metre,
                 new AxisInfo("East", AxisOrientationEnum.East),
                 new AxisInfo("North", AxisOrientationEnum.North));

            return new CoordinateTransformationFactory().CreateFromCoordinateSystems(source, coordSystem);
        }
示例#19
0
	private void TestAlbers()
	{
		CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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>();
		parameters.Add(new ProjectionParameter("central_meridian", -96));
		parameters.Add(new ProjectionParameter("latitude_of_origin", 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.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

		ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

		SharpMap.Geometries.Point pGeo = new SharpMap.Geometries.Point(-75,35);
		SharpMap.Geometries.Point pUtm = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
		SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

		result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(1885472.7,1535925), pGeo2, "Albers Conical Equal Area test");
	}
		public void TestTransverseMercator_Projection()
		{
			CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

			IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Airy 1830", 6377563.396, 299.32496, LinearUnit.Metre);

			IHorizontalDatum datum = cFac.CreateHorizontalDatum("Airy 1830", DatumType.HD_Geocentric, ellipsoid, null);
			IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem("Airy 1830", AngularUnit.Degrees, datum,
				PrimeMeridian.Greenwich, new AxisInfo("Lon", AxisOrientationEnum.East),
				new AxisInfo("Lat", AxisOrientationEnum.North));
			System.Collections.Generic.List<ProjectionParameter> parameters = new System.Collections.Generic.List<ProjectionParameter>(5);
			parameters.Add(new ProjectionParameter("latitude_of_origin", 49));
			parameters.Add(new ProjectionParameter("central_meridian", -2));
			parameters.Add(new ProjectionParameter("scale_factor", 0.9996012717));
			parameters.Add(new ProjectionParameter("false_easting", 400000));
			parameters.Add(new ProjectionParameter("false_northing", -100000));
			IProjection projection = cFac.CreateProjection("Transverse Mercator", "Transverse_Mercator", parameters);

			IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("OSGB 1936 / British National Grid", gcs, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

			ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

			double[] pGeo = new double[] { 0.5, 50.5 };
			double[] pUtm = trans.MathTransform.Transform(pGeo);
			double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

			double[] expected = new double[] { 577274.99, 69740.50 };
			Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("TransverseMercator forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
			Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("TransverseMercator reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
		}
		public void TestLambertConicConformal2SP_Projection()
		{
			CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

			IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Clarke 1866", 20925832.16, 294.97470, 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));
			System.Collections.Generic.List<ProjectionParameter> parameters = new System.Collections.Generic.List<ProjectionParameter>(5);
			parameters.Add(new ProjectionParameter("latitude_of_origin", 27.833333333));
			parameters.Add(new ProjectionParameter("central_meridian", -99));
			parameters.Add(new ProjectionParameter("standard_parallel_1", 28.3833333333));
			parameters.Add(new ProjectionParameter("standard_parallel_2", 30.2833333333));
			parameters.Add(new ProjectionParameter("false_easting", 2000000));
			parameters.Add(new ProjectionParameter("false_northing", 0));
			IProjection projection = cFac.CreateProjection("Lambert Conic Conformal (2SP)", "lambert_conformal_conic_2sp", parameters);

			IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("NAD27 / Texas South Central", gcs, projection, LinearUnit.USSurveyFoot, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

			ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

			double[] pGeo = new double[] { -96, 28.5 };
			double[] pUtm = trans.MathTransform.Transform(pGeo);
			double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

			double[] expected = new double[] { 2963503.91, 254759.80 };
			Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("LambertConicConformal2SP forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
			Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("LambertConicConformal2SP reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));

		}
		public void TestDatumTransform()
		{
			CoordinateSystemFactory cFac = new CoordinateSystemFactory();
			//Define datums
			HorizontalDatum wgs72 = HorizontalDatum.WGS72;
			HorizontalDatum ed50 = HorizontalDatum.ED50;

			//Define geographic coordinate systems
			IGeographicCoordinateSystem gcsWGS72 = cFac.CreateGeographicCoordinateSystem("WGS72 Geographic", AngularUnit.Degrees, wgs72, PrimeMeridian.Greenwich,
				new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

			IGeographicCoordinateSystem gcsWGS84 = cFac.CreateGeographicCoordinateSystem("WGS84 Geographic", AngularUnit.Degrees, HorizontalDatum.WGS84, PrimeMeridian.Greenwich,
				new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

			IGeographicCoordinateSystem gcsED50 = cFac.CreateGeographicCoordinateSystem("ED50 Geographic", AngularUnit.Degrees, ed50, PrimeMeridian.Greenwich,
				new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

			//Define geocentric coordinate systems
			IGeocentricCoordinateSystem gcenCsWGS72 = cFac.CreateGeocentricCoordinateSystem("WGS72 Geocentric", wgs72, LinearUnit.Metre, PrimeMeridian.Greenwich);
			IGeocentricCoordinateSystem gcenCsWGS84 = cFac.CreateGeocentricCoordinateSystem("WGS84 Geocentric", HorizontalDatum.WGS84, LinearUnit.Metre, PrimeMeridian.Greenwich);
			IGeocentricCoordinateSystem gcenCsED50 = cFac.CreateGeocentricCoordinateSystem("ED50 Geocentric", ed50, LinearUnit.Metre, PrimeMeridian.Greenwich);

			//Define projections
			System.Collections.Generic.List<ProjectionParameter> parameters = new System.Collections.Generic.List<ProjectionParameter>(5);
			parameters.Add(new ProjectionParameter("latitude_of_origin", 0));
			parameters.Add(new ProjectionParameter("central_meridian", 9));
			parameters.Add(new ProjectionParameter("scale_factor", 0.9996));
			parameters.Add(new ProjectionParameter("false_easting", 500000));
			parameters.Add(new ProjectionParameter("false_northing", 0));
			IProjection projection = cFac.CreateProjection("Transverse Mercator", "Transverse_Mercator", parameters);
			IProjectedCoordinateSystem utmED50 = cFac.CreateProjectedCoordinateSystem("ED50 UTM Zone 32N", gcsED50, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));
			IProjectedCoordinateSystem utmWGS84 = cFac.CreateProjectedCoordinateSystem("WGS84 UTM Zone 32N", gcsWGS84, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

			//Set TOWGS84 parameters
			wgs72.Wgs84Parameters = new Wgs84ConversionInfo(0, 0, 4.5, 0, 0, 0.554, 0.219);
			ed50.Wgs84Parameters = new Wgs84ConversionInfo(-81.0703, -89.3603, -115.7526,
														   -0.48488, -0.02436, -0.41321,
														   -0.540645); //Parameters for Denmark

			//Set up coordinate transformations
			CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory();
			ICoordinateTransformation ctForw = ctFac.CreateFromCoordinateSystems(gcsWGS72, gcenCsWGS72); //Geographic->Geocentric (WGS72)
			ICoordinateTransformation ctWGS84_Gcen2Geo = ctFac.CreateFromCoordinateSystems(gcenCsWGS84, gcsWGS84);  //Geocentric->Geographic (WGS84)
			ICoordinateTransformation ctWGS84_Geo2UTM = ctFac.CreateFromCoordinateSystems(gcsWGS84, utmWGS84);  //UTM ->Geographic (WGS84)
			ICoordinateTransformation ctED50_UTM2Geo = ctFac.CreateFromCoordinateSystems(utmED50, gcsED50);  //UTM ->Geographic (ED50)
			ICoordinateTransformation ctED50_Geo2Gcen = ctFac.CreateFromCoordinateSystems(gcsED50, gcenCsED50); //Geographic->Geocentric (ED50)

			//Test datum-shift from WGS72 to WGS84
			//Point3D pGeoCenWGS72 = ctForw.MathTransform.Transform(pLongLatWGS72) as Point3D;
			double[] pGeoCenWGS72 = new double[] {3657660.66, 255768.55, 5201382.11};
			ICoordinateTransformation geocen_ed50_2_Wgs84 = ctFac.CreateFromCoordinateSystems(gcenCsWGS72, gcenCsWGS84);
			double[] pGeoCenWGS84 = geocen_ed50_2_Wgs84.MathTransform.Transform(pGeoCenWGS72);
			//Point3D pGeoCenWGS84 = wgs72.Wgs84Parameters.Apply(pGeoCenWGS72);

			Assert.IsTrue(ToleranceLessThan(new double[] { 3657660.78, 255778.43, 5201387.75 }, pGeoCenWGS84, 0.01));

			ICoordinateTransformation utm_ed50_2_Wgs84 = ctFac.CreateFromCoordinateSystems(utmED50, utmWGS84);
			double[] pUTMED50 = new double[] {600000, 6100000};
			double[] pUTMWGS84 = utm_ed50_2_Wgs84.MathTransform.Transform(pUTMED50);
			Assert.IsTrue(ToleranceLessThan(new double[] { 599928.6, 6099790.2 }, pUTMWGS84, 0.1));
			//Perform reverse
			ICoordinateTransformation utm_Wgs84_2_Ed50 = ctFac.CreateFromCoordinateSystems(utmWGS84, utmED50);
			pUTMED50 = utm_Wgs84_2_Ed50.MathTransform.Transform(pUTMWGS84);
			Assert.IsTrue(ToleranceLessThan(new double[] {600000, 6100000}, pUTMED50, 0.1));
			//Assert.IsTrue(Math.Abs((pUTMWGS84 as Point3D).Z - 36.35) < 0.5);
			//Point pExpected = Point.FromDMS(2, 7, 46.38, 53, 48, 33.82);
			//ED50_to_WGS84_Denmark: datum.Wgs84Parameters = new Wgs84ConversionInfo(-89.5, -93.8, 127.6, 0, 0, 4.5, 1.2);

		}
		private static IProjectedCoordinateSystem createExpectedCoordinateSystem()
		{
			ICoordinateSystemFactory factory = new CoordinateSystemFactory();

			IEllipsoid grs80 = Ellipsoid.GRS80;

			IHorizontalDatum harn = factory.CreateHorizontalDatum("D_North_American_1983_HARN",
			                                                      DatumType.HD_Classic, grs80, null);

			IPrimeMeridian greenwich = PrimeMeridian.Greenwich;

			AxisInfo axis0 = new AxisInfo("Lon", AxisOrientationEnum.East);
			AxisInfo axis1 = new AxisInfo("Lat", AxisOrientationEnum.North);

			IGeographicCoordinateSystem gcs = factory.CreateGeographicCoordinateSystem("GCS_North_American_1983_HARN",
			                                                                           AngularUnit.Degrees, harn, greenwich,
			                                                                           axis0, axis1);

			IProjection prj = factory.CreateProjection(
				"Lambert_Conformal_Conic",
				"Lambert_Conformal_Conic",
				new ProjectionParameter[]
					{
						new ProjectionParameter("False_Easting", 8202099.737532808),
						new ProjectionParameter("False_Northing", 0),
						new ProjectionParameter("Central_Meridian", -120.5),
						new ProjectionParameter("Standard_Parallel_1", 44.33333333333334),
						new ProjectionParameter("Standard_Parallel_2", 46.0),
						new ProjectionParameter("Latitude_Of_Origin", 43.66666666666666)
					});

			IProjectedCoordinateSystem expected =
				factory.CreateProjectedCoordinateSystem("NAD_1983_HARN_StatePlane_Oregon_North_FIPS_3601",
				                                        gcs, prj, LinearUnit.Foot, axis0, axis1);

			// TODO: Check if this is correct, since on line 184 of CoorindateSystemFactory.cs, HorizontalDatum is passed in as null
			expected.HorizontalDatum = harn;
			return expected;
		}
示例#24
0
	public static ICoordinateTransformation Transform2Lambert(ICoordinateSystem source)
	{
		if (source == null)
			throw new ArgumentException("Source coordinate system is null");
		if (!(source is IGeographicCoordinateSystem))
			throw new ArgumentException("Source coordinate system must be geographic");

		CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

        List<ProjectionParameter> parameters = new List<ProjectionParameter>();
		parameters.Add(new ProjectionParameter("latitude_of_origin", 50));
		parameters.Add(new ProjectionParameter("central_meridian", -95));
		parameters.Add(new ProjectionParameter("standard_parallel_1", 33));
		parameters.Add(new ProjectionParameter("standard_parallel_2", 45));
		parameters.Add(new ProjectionParameter("false_easting", 0));
		parameters.Add(new ProjectionParameter("false_northing", 0));
		IProjection projection = cFac.CreateProjection("Lambert Conformal Conic 2SP", "lambert_conformal_conic_2sp", parameters);

		IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("Lambert Conformal Conic 2SP", source as IGeographicCoordinateSystem, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

		return new CoordinateTransformationFactory().CreateFromCoordinateSystems(source, coordsys);
	}
		public void TestMercator_2SP_Projection()
		{
			CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.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));
			System.Collections.Generic.List<ProjectionParameter> parameters = new System.Collections.Generic.List<ProjectionParameter>(5);
			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);

			double[] pGeo = new double[] { 53, 53 };
			double[] pUtm = trans.MathTransform.Transform(pGeo);
			double[] pGeo2 = trans.MathTransform.Inverse().Transform(pUtm);

			double[] expected = new double[] { 165704.29, 5171848.07 };
			Assert.IsTrue(ToleranceLessThan(pUtm, expected, 0.02), String.Format("Mercator_2SP forward transformation outside tolerance, Expected {0}, got {1}", expected.ToString(), pUtm.ToString()));
			Assert.IsTrue(ToleranceLessThan(pGeo, pGeo2, 0.0000001), String.Format("Mercator_2SP reverse transformation outside tolerance, Expected {0}, got {1}", pGeo.ToString(), pGeo2.ToString()));
		}
示例#26
0
	public static ICoordinateTransformation Transform2Mercator(ICoordinateSystem source)
	{
		CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

        List<ProjectionParameter> parameters = new List<ProjectionParameter>();
		parameters.Add(new ProjectionParameter("latitude_of_origin", 0));
		parameters.Add(new ProjectionParameter("central_meridian", 0));
		parameters.Add(new ProjectionParameter("false_easting", 0));
		parameters.Add(new ProjectionParameter("false_northing", 0));
		IProjection projection = cFac.CreateProjection("Mercator", "Mercator_2SP", parameters);

		IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("Mercator", source as IGeographicCoordinateSystem, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

		return new CoordinateTransformationFactory().CreateFromCoordinateSystems(source, coordsys);
	}
示例#27
0
	private void TestLambertConicConformal_2SP()
	{
		CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

		IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Clarke 1866", 20925832.16, 294.97470, 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>();
		parameters.Add(new ProjectionParameter("latitude_of_origin", 27.833333333));
		parameters.Add(new ProjectionParameter("central_meridian", -99));
		parameters.Add(new ProjectionParameter("standard_parallel_1", 28.3833333333));
		parameters.Add(new ProjectionParameter("standard_parallel_2", 30.2833333333));
		parameters.Add(new ProjectionParameter("false_easting", 2000000));
		parameters.Add(new ProjectionParameter("false_northing", 0));
		IProjection projection = cFac.CreateProjection("Lambert Conic Conformal (2SP)", "lambert_conformal_conic_2sp", parameters);

		IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("NAD27 / Texas South Central", gcs, projection, LinearUnit.USSurveyFoot, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

		ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

		SharpMap.Geometries.Point pGeo = new SharpMap.Geometries.Point(-96, 28.5);
		SharpMap.Geometries.Point pUtm = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
        SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

		result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(2963503.91, 254759.80), pGeo2, "Lambert Conic Conformal 2SP test");
	}
示例#28
0
	private void TestTransverseMercator()
	{
		CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory();

		IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Airy 1830", 6377563.396, 299.32496, LinearUnit.Metre);

		IHorizontalDatum datum = cFac.CreateHorizontalDatum("Airy 1830", DatumType.HD_Geocentric, ellipsoid, null);
		IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem("Airy 1830", 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", 49));
		parameters.Add(new ProjectionParameter("central_meridian", -2));
		parameters.Add(new ProjectionParameter("scale_factor", 0.9996012717));
		parameters.Add(new ProjectionParameter("false_easting", 400000));
		parameters.Add(new ProjectionParameter("false_northing", -100000));
		IProjection projection = cFac.CreateProjection("Transverse Mercator", "Transverse_Mercator", parameters);

		IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("OSGB 1936 / British National Grid", gcs, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North));

		ICoordinateTransformation trans = new CoordinateTransformationFactory().CreateFromCoordinateSystems(gcs, coordsys);

		SharpMap.Geometries.Point pGeo = new SharpMap.Geometries.Point(0.5, 50.5);
		SharpMap.Geometries.Point pUtm = new Point(trans.MathTransform.Transform(pGeo.ToDoubleArray()));
		SharpMap.Geometries.Point pGeo2 = new Point(trans.MathTransform.Inverse().Transform(pUtm.ToDoubleArray()));

		result.Text += PrintResultTable(gcs, coordsys, pGeo, pUtm, new Point(577274.99, 69740.50), pGeo2, "Transverse Mercator test");
	}