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Location: seniordesign-ui/GMap.NET.Core/GMap.NET.Projections/MapsLTProjection.cs
dd838492cfb4
23.6 KiB
text/x-csharp
some fixes to address some errors with unknown source
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namespace GMap.NET.Projections
{
using System;
/// <summary>
/// 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\"]]
/// PROJCS[\"Lietuvos Koordinoei Sistema 1994\",GEOGCS[\"LKS94 (ETRS89)\",DATUM[\"Lithuania_1994_ETRS89\",SPHEROID[\"GRS 1980\",6378137,298.257222101,AUTHORITY[\"EPSG\",\"7019\"]],TOWGS84[0,0,0,0,0,0,0],AUTHORITY[\"EPSG\",\"6126\"]],PRIMEM[\"Greenwich\",0,AUTHORITY[\"EPSG\",\"8901\"]],UNIT[\"degree\",0.0174532925199433,AUTHORITY[\"EPSG\",\"9108\"]],AUTHORITY[\"EPSG\",\"4126\"]],PROJECTION[\"Transverse_Mercator\"],PARAMETER[\"latitude_of_origin\",0],PARAMETER[\"central_meridian\",24],PARAMETER[\"scale_factor\",0.9998],PARAMETER[\"false_easting\",500000],PARAMETER[\"false_northing\",0],UNIT[\"metre\",1,AUTHORITY[\"EPSG\",\"9001\"]],AUTHORITY[\"EPSG\",\"2600\"]]
/// </summary>
public class LKS94Projection : PureProjection
{
public static readonly LKS94Projection Instance = new LKS94Projection();
static readonly double MinLatitude = 53.33;
static readonly double MaxLatitude = 56.55;
static readonly double MinLongitude = 20.22;
static readonly double MaxLongitude = 27.11;
static readonly double orignX = 5122000;
static readonly double orignY = 10000100;
static readonly double scaleFactor = 0.9998; // scale factor
static readonly double centralMeridian = 0.41887902047863912;// Center longitude (projection center)
static readonly double latOrigin = 0.0; // center latitude
static readonly double falseNorthing = 0.0; // y offset in meters
static readonly double falseEasting = 500000.0; // x offset in meters
static readonly double semiMajor = 6378137.0; // major axis
static readonly double semiMinor = 6356752.3141403561; // minor axis
static readonly double semiMinor2 = 6356752.3142451793; // minor axis
static readonly double metersPerUnit = 1.0;
static readonly double COS_67P5 = 0.38268343236508977; // cosine of 67.5 degrees
static readonly double AD_C = 1.0026000; // Toms region 1 constant
public override RectLatLng Bounds
{
get
{
return RectLatLng.FromLTRB(MinLongitude, MaxLatitude, MaxLongitude, MinLatitude);
}
}
GSize tileSize = new GSize(256, 256);
public override GSize TileSize
{
get
{
return tileSize;
}
}
public override double Axis
{
get
{
return 6378137;
}
}
public override double Flattening
{
get
{
return (1.0 / 298.257222101);
}
}
public override GPoint FromLatLngToPixel(double lat, double lng, int zoom)
{
GPoint ret = GPoint.Empty;
lat = Clip(lat, MinLatitude, MaxLatitude);
lng = Clip(lng, MinLongitude, MaxLongitude);
double[] lks = new double[] { lng, lat };
lks = DTM10(lks);
lks = MTD10(lks);
lks = DTM00(lks);
double res = GetTileMatrixResolution(zoom);
ret.X = (long)Math.Floor((lks[0] + orignX) / res);
ret.Y = (long)Math.Floor((orignY - lks[1]) / res);
return ret;
}
public override PointLatLng FromPixelToLatLng(long x, long y, int zoom)
{
PointLatLng ret = PointLatLng.Empty;
double res = GetTileMatrixResolution(zoom);
double[] lks = new double[] { (x * res) - orignX, -(y * res) + orignY };
lks = MTD11(lks);
lks = DTM10(lks);
lks = MTD10(lks);
ret.Lat = Clip(lks[1], MinLatitude, MaxLatitude);
ret.Lng = Clip(lks[0], MinLongitude, MaxLongitude);
return ret;
}
double[] DTM10(double[] lonlat)
{
// Eccentricity squared : (a^2 - b^2)/a^2
double es = 1.0 - (semiMinor2 * semiMinor2) / (semiMajor * semiMajor); // e^2
// Second eccentricity squared : (a^2 - b^2)/b^2
double ses = (Math.Pow(semiMajor, 2) - Math.Pow(semiMinor2, 2)) / Math.Pow(semiMinor2, 2);
double ba = semiMinor2 / semiMajor;
double ab = semiMajor / semiMinor2;
double lon = DegreesToRadians(lonlat[0]);
double lat = DegreesToRadians(lonlat[1]);
double h = lonlat.Length < 3 ? 0 : lonlat[2].Equals(Double.NaN) ? 0 : lonlat[2];
double v = semiMajor / Math.Sqrt(1 - es * Math.Pow(Math.Sin(lat), 2));
double x = (v + h) * Math.Cos(lat) * Math.Cos(lon);
double y = (v + h) * Math.Cos(lat) * Math.Sin(lon);
double z = ((1 - es) * v + h) * Math.Sin(lat);
return new double[] { x, y, z, };
}
double[] MTD10(double[] pnt)
{
// Eccentricity squared : (a^2 - b^2)/a^2
double es = 1.0 - (semiMinor * semiMinor) / (semiMajor * semiMajor); // e^2
// Second eccentricity squared : (a^2 - b^2)/b^2
double ses = (Math.Pow(semiMajor, 2) - Math.Pow(semiMinor, 2)) / Math.Pow(semiMinor, 2);
double ba = semiMinor / semiMajor;
double ab = semiMajor / semiMinor;
bool AtPole = false; // is location in polar region
double Z = pnt.Length < 3 ? 0 : pnt[2].Equals(Double.NaN) ? 0 : pnt[2];
double lon = 0;
double lat = 0;
double Height = 0;
if(pnt[0] != 0.0)
{
lon = Math.Atan2(pnt[1], pnt[0]);
}
else
{
if(pnt[1] > 0)
{
lon = Math.PI / 2;
}
else
if(pnt[1] < 0)
{
lon = -Math.PI * 0.5;
}
else
{
AtPole = true;
lon = 0.0;
if(Z > 0.0) // north pole
{
lat = Math.PI * 0.5;
}
else
if(Z < 0.0) // south pole
{
lat = -Math.PI * 0.5;
}
else // center of earth
{
return new double[] { RadiansToDegrees(lon), RadiansToDegrees(Math.PI * 0.5), -semiMinor, };
}
}
}
double W2 = pnt[0] * pnt[0] + pnt[1] * pnt[1]; // Square of distance from Z axis
double W = Math.Sqrt(W2); // distance from Z axis
double T0 = Z * AD_C; // initial estimate of vertical component
double S0 = Math.Sqrt(T0 * T0 + W2); // initial estimate of horizontal component
double Sin_B0 = T0 / S0; // sin(B0), B0 is estimate of Bowring aux variable
double Cos_B0 = W / S0; // cos(B0)
double Sin3_B0 = Math.Pow(Sin_B0, 3);
double T1 = Z + semiMinor * ses * Sin3_B0; // corrected estimate of vertical component
double Sum = W - semiMajor * es * Cos_B0 * Cos_B0 * Cos_B0; // numerator of cos(phi1)
double S1 = Math.Sqrt(T1 * T1 + Sum * Sum); // corrected estimate of horizontal component
double Sin_p1 = T1 / S1; // sin(phi1), phi1 is estimated latitude
double Cos_p1 = Sum / S1; // cos(phi1)
double Rn = semiMajor / Math.Sqrt(1.0 - es * Sin_p1 * Sin_p1); // Earth radius at location
if(Cos_p1 >= COS_67P5)
{
Height = W / Cos_p1 - Rn;
}
else
if(Cos_p1 <= -COS_67P5)
{
Height = W / -Cos_p1 - Rn;
}
else
{
Height = Z / Sin_p1 + Rn * (es - 1.0);
}
if(!AtPole)
{
lat = Math.Atan(Sin_p1 / Cos_p1);
}
return new double[] { RadiansToDegrees(lon), RadiansToDegrees(lat), Height, };
}
double[] DTM00(double[] lonlat)
{
double e0, e1, e2, e3; // eccentricity constants
double e, es, esp; // eccentricity constants
double ml0; // small value m
es = 1.0 - Math.Pow(semiMinor / semiMajor, 2);
e = Math.Sqrt(es);
e0 = e0fn(es);
e1 = e1fn(es);
e2 = e2fn(es);
e3 = e3fn(es);
ml0 = semiMajor * mlfn(e0, e1, e2, e3, latOrigin);
esp = es / (1.0 - es);
// ...
double lon = DegreesToRadians(lonlat[0]);
double lat = DegreesToRadians(lonlat[1]);
double delta_lon = 0.0; // Delta longitude (Given longitude - center)
double sin_phi, cos_phi; // sin and cos value
double al, als; // temporary values
double c, t, tq; // temporary values
double con, n, ml; // cone constant, small m
delta_lon = AdjustLongitude(lon - centralMeridian);
SinCos(lat, out sin_phi, out cos_phi);
al = cos_phi * delta_lon;
als = Math.Pow(al, 2);
c = esp * Math.Pow(cos_phi, 2);
tq = Math.Tan(lat);
t = Math.Pow(tq, 2);
con = 1.0 - es * Math.Pow(sin_phi, 2);
n = semiMajor / Math.Sqrt(con);
ml = semiMajor * mlfn(e0, e1, e2, e3, lat);
double x = scaleFactor * n * al * (1.0 + als / 6.0 * (1.0 - t + c + als / 20.0 *
(5.0 - 18.0 * t + Math.Pow(t, 2) + 72.0 * c - 58.0 * esp))) + falseEasting;
double y = scaleFactor * (ml - ml0 + n * tq * (als * (0.5 + als / 24.0 *
(5.0 - t + 9.0 * c + 4.0 * Math.Pow(c, 2) + als / 30.0 * (61.0 - 58.0 * t
+ Math.Pow(t, 2) + 600.0 * c - 330.0 * esp))))) + falseNorthing;
if(lonlat.Length < 3)
return new double[] { x / metersPerUnit, y / metersPerUnit };
else
return new double[] { x / metersPerUnit, y / metersPerUnit, lonlat[2] };
}
double[] DTM01(double[] lonlat)
{
// Eccentricity squared : (a^2 - b^2)/a^2
double es = 1.0 - (semiMinor * semiMinor) / (semiMajor * semiMajor);
// Second eccentricity squared : (a^2 - b^2)/b^2
double ses = (Math.Pow(semiMajor, 2) - Math.Pow(semiMinor, 2)) / Math.Pow(semiMinor, 2);
double ba = semiMinor / semiMajor;
double ab = semiMajor / semiMinor;
double lon = DegreesToRadians(lonlat[0]);
double lat = DegreesToRadians(lonlat[1]);
double h = lonlat.Length < 3 ? 0 : lonlat[2].Equals(Double.NaN) ? 0 : lonlat[2];
double v = semiMajor / Math.Sqrt(1 - es * Math.Pow(Math.Sin(lat), 2));
double x = (v + h) * Math.Cos(lat) * Math.Cos(lon);
double y = (v + h) * Math.Cos(lat) * Math.Sin(lon);
double z = ((1 - es) * v + h) * Math.Sin(lat);
return new double[] { x, y, z, };
}
double[] MTD01(double[] pnt)
{
// Eccentricity squared : (a^2 - b^2)/a^2
double es = 1.0 - (semiMinor2 * semiMinor2) / (semiMajor * semiMajor);
// Second eccentricity squared : (a^2 - b^2)/b^2
double ses = (Math.Pow(semiMajor, 2) - Math.Pow(semiMinor2, 2)) / Math.Pow(semiMinor2, 2);
double ba = semiMinor2 / semiMajor;
double ab = semiMajor / semiMinor2;
bool At_Pole = false; // is location in polar region
double Z = pnt.Length < 3 ? 0 : pnt[2].Equals(Double.NaN) ? 0 : pnt[2];
double lon = 0;
double lat = 0;
double Height = 0;
if(pnt[0] != 0.0)
{
lon = Math.Atan2(pnt[1], pnt[0]);
}
else
{
if(pnt[1] > 0)
{
lon = Math.PI / 2;
}
else
if(pnt[1] < 0)
{
lon = -Math.PI * 0.5;
}
else
{
At_Pole = true;
lon = 0.0;
if(Z > 0.0) // north pole
{
lat = Math.PI * 0.5;
}
else
if(Z < 0.0) // south pole
{
lat = -Math.PI * 0.5;
}
else // center of earth
{
return new double[] { RadiansToDegrees(lon), RadiansToDegrees(Math.PI * 0.5), -semiMinor2, };
}
}
}
double W2 = pnt[0] * pnt[0] + pnt[1] * pnt[1]; // Square of distance from Z axis
double W = Math.Sqrt(W2); // distance from Z axis
double T0 = Z * AD_C; // initial estimate of vertical component
double S0 = Math.Sqrt(T0 * T0 + W2); //initial estimate of horizontal component
double Sin_B0 = T0 / S0; // sin(B0), B0 is estimate of Bowring aux variable
double Cos_B0 = W / S0; // cos(B0)
double Sin3_B0 = Math.Pow(Sin_B0, 3);
double T1 = Z + semiMinor2 * ses * Sin3_B0; //corrected estimate of vertical component
double Sum = W - semiMajor * es * Cos_B0 * Cos_B0 * Cos_B0; // numerator of cos(phi1)
double S1 = Math.Sqrt(T1 * T1 + Sum * Sum); // corrected estimate of horizontal component
double Sin_p1 = T1 / S1; // sin(phi1), phi1 is estimated latitude
double Cos_p1 = Sum / S1; // cos(phi1)
double Rn = semiMajor / Math.Sqrt(1.0 - es * Sin_p1 * Sin_p1); // Earth radius at location
if(Cos_p1 >= COS_67P5)
{
Height = W / Cos_p1 - Rn;
}
else
if(Cos_p1 <= -COS_67P5)
{
Height = W / -Cos_p1 - Rn;
}
else
{
Height = Z / Sin_p1 + Rn * (es - 1.0);
}
if(!At_Pole)
{
lat = Math.Atan(Sin_p1 / Cos_p1);
}
return new double[] { RadiansToDegrees(lon), RadiansToDegrees(lat), Height, };
}
double[] MTD11(double[] p)
{
double e0, e1, e2, e3; // eccentricity constants
double e, es, esp; // eccentricity constants
double ml0; // small value m
es = 1.0 - Math.Pow(semiMinor / semiMajor, 2);
e = Math.Sqrt(es);
e0 = e0fn(es);
e1 = e1fn(es);
e2 = e2fn(es);
e3 = e3fn(es);
ml0 = semiMajor * mlfn(e0, e1, e2, e3, latOrigin);
esp = es / (1.0 - es);
// ...
double con, phi;
double delta_phi;
long i;
double sin_phi, cos_phi, tan_phi;
double c, cs, t, ts, n, r, d, ds;
long max_iter = 6;
double x = p[0] * metersPerUnit - falseEasting;
double y = p[1] * metersPerUnit - falseNorthing;
con = (ml0 + y / scaleFactor) / semiMajor;
phi = con;
for(i = 0; ; i++)
{
delta_phi = ((con + e1 * Math.Sin(2.0 * phi) - e2 * Math.Sin(4.0 * phi) + e3 * Math.Sin(6.0 * phi)) / e0) - phi;
phi += delta_phi;
if(Math.Abs(delta_phi) <= EPSLoN)
break;
if(i >= max_iter)
throw new ArgumentException("Latitude failed to converge");
}
if(Math.Abs(phi) < HALF_PI)
{
SinCos(phi, out sin_phi, out cos_phi);
tan_phi = Math.Tan(phi);
c = esp * Math.Pow(cos_phi, 2);
cs = Math.Pow(c, 2);
t = Math.Pow(tan_phi, 2);
ts = Math.Pow(t, 2);
con = 1.0 - es * Math.Pow(sin_phi, 2);
n = semiMajor / Math.Sqrt(con);
r = n * (1.0 - es) / con;
d = x / (n * scaleFactor);
ds = Math.Pow(d, 2);
double lat = phi - (n * tan_phi * ds / r) * (0.5 - ds / 24.0 * (5.0 + 3.0 * t +
10.0 * c - 4.0 * cs - 9.0 * esp - ds / 30.0 * (61.0 + 90.0 * t +
298.0 * c + 45.0 * ts - 252.0 * esp - 3.0 * cs)));
double lon = AdjustLongitude(centralMeridian + (d * (1.0 - ds / 6.0 * (1.0 + 2.0 * t +
c - ds / 20.0 * (5.0 - 2.0 * c + 28.0 * t - 3.0 * cs + 8.0 * esp +
24.0 * ts))) / cos_phi));
if(p.Length < 3)
return new double[] { RadiansToDegrees(lon), RadiansToDegrees(lat) };
else
return new double[] { RadiansToDegrees(lon), RadiansToDegrees(lat), p[2] };
}
else
{
if(p.Length < 3)
return new double[] { RadiansToDegrees(HALF_PI * Sign(y)), RadiansToDegrees(centralMeridian) };
else
return new double[] { RadiansToDegrees(HALF_PI * Sign(y)), RadiansToDegrees(centralMeridian), p[2] };
}
}
#region -- levels info --
//"tileInfo":{"rows":256,"cols":256,"dpi":96,"format":"PNG32","compressionQuality":0,
//"origin":{"x":-5122000,"y":10000100},"spatialReference":{"wkid":3346},
//{"level":0,"resolution":1587.50317500635,"scale":6000000},
//{"level":1,"resolution":793.751587503175,"scale":3000000},
//{"level":2,"resolution":529.167725002117,"scale":2000000},
//{"level":3,"resolution":264.583862501058,"scale":1000000},
//{"level":4,"resolution":132.291931250529,"scale":500000},
//{"level":5,"resolution":52.9167725002117,"scale":200000},
//{"level":6,"resolution":26.4583862501058,"scale":100000},
//{"level":7,"resolution":13.2291931250529,"scale":50000},
//{"level":8,"resolution":6.61459656252646,"scale":25000},
//{"level":9,"resolution":2.64583862501058,"scale":10000},
//{"level":10,"resolution":1.32291931250529,"scale":5000},
//{"level":11,"resolution":0.529167725002117,"scale":2000},
//{"level":12,"resolution":0.264583862501058,"scale":1000}]},
//"initialExtent":{"xmin":-412335.466179159,"ymin":5288235.83180987,
// "xmax":1417335.46617916,"ymax":6965767.82449726,
//"fullExtent":{"xmin":-45000,"ymin":5750000,
// "xmax":1050000,"ymax":6500000, units":"esriMeters"
#endregion
public static double GetTileMatrixResolution(int zoom)
{
double ret = 0;
switch(zoom)
{
#region -- sizes --
case 0:
{
ret = 1587.50317500635;
}
break;
case 1:
{
ret = 793.751587503175;
}
break;
case 2:
{
ret = 529.167725002117;
}
break;
case 3:
{
ret = 264.583862501058;
}
break;
case 4:
{
ret = 132.291931250529;
}
break;
case 5:
{
ret = 52.9167725002117;
}
break;
case 6:
{
ret = 26.4583862501058;
}
break;
case 7:
{
ret = 13.2291931250529;
}
break;
case 8:
{
ret = 6.61459656252646;
}
break;
case 9:
{
ret = 2.64583862501058;
}
break;
case 10:
{
ret = 1.32291931250529;
}
break;
case 11:
{
ret = 0.529167725002117;
}
break;
case 12:
{
ret = 0.264583862501058;
}
break;
#endregion
}
return ret;
}
public override double GetGroundResolution(int zoom, double latitude)
{
return GetTileMatrixResolution(zoom);
}
public override GSize GetTileMatrixMinXY(int zoom)
{
GSize ret = GSize.Empty;
switch(zoom)
{
#region -- sizes --
case 0:
{
ret = new GSize(12, 8);
}
break;
case 1:
{
ret = new GSize(24, 17);
}
break;
case 2:
{
ret = new GSize(37, 25);
}
break;
case 3:
{
ret = new GSize(74, 51);
}
break;
case 4:
{
ret = new GSize(149, 103);
}
break;
case 5:
{
ret = new GSize(374, 259);
}
break;
case 6:
{
ret = new GSize(749, 519);
}
break;
case 7:
{
ret = new GSize(1594, 1100);
}
break;
case 8:
{
ret = new GSize(3188, 2201);
}
break;
case 9:
{
ret = new GSize(7971, 5502);
}
break;
case 10:
{
ret = new GSize(15943, 11005);
}
break;
case 11:
{
ret = new GSize(39858, 27514);
}
break;
case 12:
{
ret = new GSize(79716, 27514);
}
break;
#endregion
}
return ret;
}
public override GSize GetTileMatrixMaxXY(int zoom)
{
GSize ret = GSize.Empty;
switch(zoom)
{
#region -- sizes --
case 0:
{
ret = new GSize(14, 10);
}
break;
case 1:
{
ret = new GSize(30, 20);
}
break;
case 2:
{
ret = new GSize(45, 31);
}
break;
case 3:
{
ret = new GSize(90, 62);
}
break;
case 4:
{
ret = new GSize(181, 125);
}
break;
case 5:
{
ret = new GSize(454, 311);
}
break;
case 6:
{
ret = new GSize(903, 623);
}
break;
case 7:
{
ret = new GSize(1718, 1193);
}
break;
case 8:
{
ret = new GSize(3437, 2386);
}
break;
case 9:
{
ret = new GSize(8594, 5966);
}
break;
case 10:
{
ret = new GSize(17189, 11932);
}
break;
case 11:
{
ret = new GSize(42972, 29831);
}
break;
case 12:
{
ret = new GSize(85944, 59662);
}
break;
#endregion
}
return ret;
}
}
}
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