using System;
#if WPF
using System.Windows;
#elif AVALONIA
using Avalonia;
#endif
namespace MapControl
{
///
/// Elliptical Polar Stereographic Projection with a given scale factor at the pole and
/// optional false easting and northing, as used by the UPS North and UPS South projections.
/// See "Map Projections - A Working Manual" (https://pubs.usgs.gov/publication/pp1395), p.154-163.
///
public class PolarStereographicProjection : MapProjection
{
public PolarStereographicProjection()
{
Type = MapProjectionType.Azimuthal;
}
public double EquatorialRadius { get; set; } = Wgs84EquatorialRadius;
public double Flattening { get; set; } = Wgs84Flattening;
public double ScaleFactor { get; set; } = 0.994;
public double FalseEasting { get; set; } = 2e6;
public double FalseNorthing { get; set; } = 2e6;
public Hemisphere Hemisphere { get; set; }
public static double RelativeScale(Hemisphere hemisphere, double flattening, double scaleFactor, double latitude)
{
var sign = hemisphere == Hemisphere.North ? 1d : -1d;
var phi = sign * latitude * Math.PI / 180d;
var e = Math.Sqrt((2d - flattening) * flattening);
var eSinPhi = e * Math.Sin(phi);
var t = Math.Tan(Math.PI / 4d - phi / 2d)
/ Math.Pow((1d - eSinPhi) / (1d + eSinPhi), e / 2d); // p.161 (15-9)
// r == ρ/a
var r = 2d * scaleFactor * t
/ Math.Sqrt(Math.Pow(1d + e, 1d + e) * Math.Pow(1d - e, 1d - e)); // p.161 (21-33)
var m = Math.Cos(phi) / Math.Sqrt(1d - eSinPhi * eSinPhi); // p.160 (14-15)
return r / m; // p.161 (21-32)
}
public override Point RelativeScale(double latitude, double longitude)
{
var k = RelativeScale(Hemisphere, Flattening, ScaleFactor, latitude);
return new Point(k, k);
}
public override Point? LocationToMap(double latitude, double longitude)
{
var sign = Hemisphere == Hemisphere.North ? 1d : -1d;
var phi = sign * latitude * Math.PI / 180d;
var lambda = sign * longitude * Math.PI / 180d;
var e = Math.Sqrt((2d - Flattening) * Flattening);
var eSinPhi = e * Math.Sin(phi);
var t = Math.Tan(Math.PI / 4d - phi / 2d)
/ Math.Pow((1d - eSinPhi) / (1d + eSinPhi), e / 2d); // p.161 (15-9)
// ρ
var r = 2d * EquatorialRadius * ScaleFactor * t
/ Math.Sqrt(Math.Pow(1d + e, 1d + e) * Math.Pow(1d - e, 1d - e)); // p.161 (21-33)
var x = sign * r * Math.Sin(lambda); // p.161 (21-30)
var y = sign * -r * Math.Cos(lambda); // p.161 (21-31)
return new Point(x + FalseEasting, y + FalseNorthing);
}
public override Location MapToLocation(double x, double y)
{
var sign = Hemisphere == Hemisphere.North ? 1d : -1d;
x = sign * (x - FalseEasting);
y = sign * (y - FalseNorthing);
var e = Math.Sqrt((2d - Flattening) * Flattening);
var r = Math.Sqrt(x * x + y * y); // p.162 (20-18)
var t = r * Math.Sqrt(Math.Pow(1d + e, 1d + e) * Math.Pow(1d - e, 1d - e))
/ (2d * EquatorialRadius * ScaleFactor); // p.162 (21-39)
var phi = WorldMercatorProjection.ApproximateLatitude(e, t); // p.162 (3-5)
var lambda = Math.Atan2(x, -y); // p.162 (20-16)
return new Location(sign * phi * 180d / Math.PI, sign * lambda * 180d / Math.PI);
}
}
///
/// Universal Polar Stereographic North Projection - EPSG:32661.
///
public class Wgs84UpsNorthProjection : PolarStereographicProjection
{
public const string DefaultCrsId = "EPSG:32661";
public Wgs84UpsNorthProjection() // parameterless constructor for XAML
: this(DefaultCrsId)
{
}
public Wgs84UpsNorthProjection(string crsId)
{
CrsId = crsId;
Hemisphere = Hemisphere.North;
}
}
///
/// Universal Polar Stereographic South Projection - EPSG:32761.
///
public class Wgs84UpsSouthProjection : PolarStereographicProjection
{
public const string DefaultCrsId = "EPSG:32761";
public Wgs84UpsSouthProjection() // parameterless constructor for XAML
: this(DefaultCrsId)
{
}
public Wgs84UpsSouthProjection(string crsId)
{
CrsId = crsId;
Hemisphere = Hemisphere.South;
}
}
}