// XAML Map Control - https://github.com/ClemensFischer/XAML-Map-Control // Copyright © 2024 Clemens Fischer // Licensed under the Microsoft Public License (Ms-PL) using System; #if !WINUI && !UWP using System.Windows; #endif namespace MapControl { /// /// Spherical Orthographic Projection - AUTO2:42003. /// See "Map Projections - A Working Manual" (https://pubs.usgs.gov/pp/1395/report.pdf), p.148-150. /// public class OrthographicProjection : AzimuthalProjection { public const string DefaultCrsId = "AUTO2:42003"; public OrthographicProjection() { CrsId = DefaultCrsId; } public override Point? LocationToMap(Location location) { if (location.Equals(Center)) { return new Point(); } var lat0 = Center.Latitude * Math.PI / 180d; var lat = location.Latitude * Math.PI / 180d; var dLon = (location.Longitude - Center.Longitude) * Math.PI / 180d; if (Math.Abs(lat - lat0) > Math.PI / 2d || Math.Abs(dLon) > Math.PI / 2d) { return null; } return new Point( Wgs84EquatorialRadius * Math.Cos(lat) * Math.Sin(dLon), Wgs84EquatorialRadius * (Math.Cos(lat0) * Math.Sin(lat) - Math.Sin(lat0) * Math.Cos(lat) * Math.Cos(dLon))); } public override Location MapToLocation(Point point) { if (point.X == 0d && point.Y == 0d) { return new Location(Center.Latitude, Center.Longitude); } var x = point.X / Wgs84EquatorialRadius; var y = point.Y / Wgs84EquatorialRadius; var r2 = x * x + y * y; if (r2 > 1d) { return null; } var r = Math.Sqrt(r2); var sinC = r; var cosC = Math.Sqrt(1 - r2); var lat0 = Center.Latitude * Math.PI / 180d; var cosLat0 = Math.Cos(lat0); var sinLat0 = Math.Sin(lat0); return new Location( 180d / Math.PI * Math.Asin(cosC * sinLat0 + y * sinC * cosLat0 / r), 180d / Math.PI * Math.Atan2(x * sinC, r * cosC * cosLat0 - y * sinC * sinLat0) + Center.Longitude); } } }