/dports/misc/py-kartograph/kartograph.py-0.6.8/kartograph/proj/ |
H A D | cylindrical.py | 28 self.lon0 = lon0 35 if self.lon0 == 0.0: 105 a['lon0'] = self.lon0 129 Cylindrical.__init__(self, lon0=lon0, flip=flip) 145 self.lam0 = rad(lon0) 146 Cylindrical.__init__(self, lon0=lon0, flip=flip) 171 CEA.__init__(self, lon0=lon0, lat0=0, lat1=45, flip=flip) 176 CEA.__init__(self, lon0=lon0, lat0=lat0, lat1=37.5, flip=flip) 181 CEA.__init__(self, lat1=30, lat0=lat0, lon0=lon0, flip=flip) 186 CEA.__init__(self, lat1=50, lat0=lat0, lon0=lon0, flip=flip) [all …]
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H A D | pseudocylindrical.py | 26 Cylindrical.__init__(self, lon0=lon0, flip=flip) 34 PseudoCylindrical.__init__(self, lon0=lon0, flip=flip) 69 PseudoCylindrical.__init__(self, lon0=lon0, flip=flip) 105 PseudoCylindrical.__init__(self, lon0=lon0, flip=flip) 146 PseudoCylindrical.__init__(self, lon0=lon0, flip=flip) 160 PseudoCylindrical.__init__(self, lon0=lon0, flip=flip) 207 PseudoCylindrical.__init__(self, lon0=lon0, flip=flip) 237 PseudoCylindrical.__init__(self, lon0=lon0, flip=flip) 302 PseudoCylindrical.__init__(me, lon0=lon0, flip=flip) 366 Aitoff.__init__(self, lon0=lon0, flip=flip) [all …]
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H A D | conic.py | 27 def __init__(self, lat0=0, lon0=0, lat1=0, lat2=0): argument 30 self.lon0 = lon0 31 self.lam0 = rad(lon0) 37 if lon0 != 0.0: 48 p['lon0'] = self.lon0 58 if self.lon0 == 0.0: 66 poly_coords.append((lon - self.lon0, lat)) 70 hole_coords.append((lon - self.lon0, lat)) 129 def __init__(self, lat0=0, lon0=0, lat1=30, lat2=50): argument 133 Conic.__init__(self, lat0=lat0, lon0=lon0, lat1=lat1, lat2=lat2)
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/dports/graphics/gmt/gmt-6.3.0/doc/rst/source/ |
H A D | proj-codes.rst_ | 2 .. |lon0| replace:: lon\ :sub:`0` 33 - |lon0|/|lat0|/\ *scale*\|\ *width* 61 - |lon0|/\ *scale*\|\ *width* 65 - |lon0|/\ *scale*\|\ *width* 69 - |lon0|/\ *scale*\|\ *width* 73 - |lon0|/\ *scale*\|\ *width* 77 - |lon0|/\ *scale*\|\ *width* 89 - [|lon0|/]\ *scale*\|\ *width* 118 - [|lon0|/]\ *scale*\|\ *width* 134 - [|lon0|/]\ *scale*\|\ *width* [all …]
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H A D | explain_-J.rst_ | 40 **-Jc**\|\ **C**\ *lon0/lat0/scale*\|\ *width* (Cassini). 69 **-Jm**\|\ **M**\ [*lon0/*\ [*lat0/*]]\ *scale*\|\ *width* (Mercator **[C]**) 196 **-Jf**\|\ **F**\ *lon0/lat0*\ [*/horizon*]\ *scale*\|\ *width* (Gnomonic). 236 **-Jh**\|\ **H**\ [*lon0/*]\ *scale*\|\ *width* (Hammer **[E]**). 242 **-Ji**\|\ **I**\ [*lon0/*]\ *scale*\|\ *width* (Sinusoidal **[E]**). 248 **-Jk**\|\ **K**\ **f**\ [*lon0/*]\ *scale*\|\ *width* (Eckert IV **[E]**). 251 **-Jk**\|\ **K**\ [**s**][*lon0/*]\ *scale*\|\ *width* (Eckert VI **[E]**). 257 **-Jn**\|\ **N**\ [*lon0/*]\ *scale*\|\ *width* (Robinson). 263 **-Jr**\|\ **R**\ [*lon0/*]\ *scale*\|\ *width* (Winkel Tripel). 269 **-Jv**\|\ **V**\ [*lon0/*]\ *scale*\|\ *width* (Van der Grinten). [all …]
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/dports/astro/opencpn/OpenCPN-5.2.4/include/ |
H A D | georef.h | 106 extern "C" void toTM(float lat, float lon, float lat0, float lon0, double *x, double *y); 107 extern "C" void fromTM(double x, double y, double lat0, double lon0, double *lat, double *lon); 109 extern "C" void toSM(double lat, double lon, double lat0, double lon0, double *x, double *y); 111 extern "C" void toSMcache(double lat, double lon, double y30, double lon0, double *x, double *y); 112 extern "C" void fromSM(double x, double y, double lat0, double lon0, double *lat, double *lon); 115 extern "C" void toSM_ECC(double lat, double lon, double lat0, double lon0, double *x, double *y); 118 extern "C" void toPOLY(double lat, double lon, double lat0, double lon0, double *x, double *y); 119 extern "C" void fromPOLY(double x, double y, double lat0, double lon0, double *lat, double *lon); 124 extern "C" void fromORTHO(double x, double y, double lat0, double lon0, double *lat, double *lon); 128 extern "C" void fromPOLAR(double x, double y, double lat0, double lon0, double *lat, double *lon); [all …]
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/dports/science/py-pygeodesy/PyGeodesy-21.9.16/test/ |
H A D | testAlbers.py | 43 f = A.forward(39.95, -75.17, lon0=lon0) 45 r = A.reverse(f.x, f.y, lon0=lon0) 48 … for lon0, x in ((0, '220000.0, -53000.0, 39.94581132, 2.57463362, 1.67031446, 0.99999808'), 50 r = A.reverse(220e3, -53e3, lon0=lon0) 52 f = A.forward(r.lat, r.lon, lon0=lon0) 73 …for lon0, x in ((0, '-6105839.22928148, 2214046.74930274, 35.0, -75.0, 314.78223745, 0.99155461'… 75 f = A.forward(35, -75, lon0=lon0) 78 r = A.reverse(f.x, f.y, lon0=lon0) 81 … for lon0, x in ((0, '1885427.7, 1535925.0, 49.40436665, 25.93001383, 15.63329611, 1.01436109'), 83 r = A.reverse(1885427.7, 1535925, lon0=lon0) [all …]
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/dports/graphics/gmt/gmt-6.3.0/test/genper/ |
H A D | gridlines.sh | 4 lon0=188.144925731 6 gmt psbasemap -Rg -JG$lon0/$lat0/1900/0/0/0/170/180/3i -Bxa30f10g10 -Bya5f5g5 -BWSne -P -K > $ps 7 lon0=210.651901558 9 gmt psbasemap -Rg -JG$lon0/$lat0/1900/0/0/0/170/180/3i -Bxa30f10g10 -Bya5f5g5 -BWSne -O -K -X3.5i >… 10 lon0=190.718850211 12 gmt psbasemap -Rg -JG$lon0/$lat0/1900/0/0/0/170/180/3i -Bxa30f10g10 -Bya5f5g5 -BWSne -O -K -X-3.5i … 13 lon0=280.969616634 15 gmt psbasemap -Rg -JG$lon0/$lat0/2513/0/0/0/200/180/3i -Bxa30f10g10 -Bya5f5g5 -BWSne -O -X3.5i >> $…
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/dports/astro/tclgeomap/tclgeomap-2.11.6/library/ |
H A D | tclgeomap_procs.tcl | 180 for {set lon0 [expr {- $s * int(180.0 / $s)}]} {$lon0 < 180.0} \ 181 {set lon0 [expr {$lon0 + $s}]} { 182 set lon1 [expr {$lon0 + $s}] 183 for {set lon $lon0} {$lon <= $lon1} {set lon [expr {$lon + $dl}]} { 232 for {set lon0 [expr {- $s * int(180.0 / $s)}]} {$lon0 < 180.0} \ 233 {set lon0 [expr {$lon0 + $s}]} { 235 set lon1 [expr {$lon0 + $s}] 236 for {set lat $lat0;set lon $lon0} {$lon <= $lon1} \ 244 for {set lat $lat1;set lon $lon1} {$lon >= $lon0} \ 248 for {set lat $lat1;set lon $lon0} {$lat >= $lat0} \ [all …]
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/dports/science/py-pygeodesy/PyGeodesy-21.9.16/pygeodesy/ |
H A D | azimuthal.py | 91 def __init__(self, lat0, lon0, datum=None, name=NN): argument 110 if lat0 or lon0: # often both 0 111 self.reset(lat0, lon0) 146 sa, ca, sb, cb = sincos2d_(lat, lon - self.lon0) 188 def lon0(self): member in _AzimuthalBase 204 def reset(self, lat0, lon0): argument 214 Lon_(lon0=lon0, Error=AzimuthalError)) 244 lon = _norm180(self.lon0 + lon) 259 d = euclid(t.lat - self.lat0, t.lon - self.lon0) 473 r = self.geodesic.Inverse(self.lat0, self.lon0, [all …]
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/dports/misc/py-kartograph/kartograph.py-0.6.8/kartograph/proj/azimuthal/ |
H A D | laea.py | 31 def __init__(self, lon0=0.0, lat0=0.0): argument 33 Azimuthal.__init__(self, lat0, lon0) 42 if abs(lon - self.lon0) == 180: 59 def __init__(self, lon0=0, lat0=0): argument 64 def __init__(self, lon0=0, lat0=0): argument 71 def __init__(self, lon0=0.0, lat0=0.0): argument 106 def __init__(self, lon0=0.0, lat0=0.0): argument 108 self.proj = pyproj.Proj(proj='laea', lat_0=lat0, lon_0=lon0) 109 Azimuthal.__init__(self, lat0, lon0)
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/dports/astro/geographiclib/GeographicLib-1.52/dotnet/NETGeographicLib/ |
H A D | AzimuthalEquidistant.cpp | 60 void AzimuthalEquidistant::Forward(double lat0, double lon0, double lat, double lon, 64 m_pAzimuthalEquidistant->Forward( lat0, lon0, lat, lon, 73 void AzimuthalEquidistant::Reverse(double lat0, double lon0, double x, double y, 77 m_pAzimuthalEquidistant->Reverse(lat0, lon0, x, y, 85 void AzimuthalEquidistant::Forward(double lat0, double lon0, double lat, double lon, 89 m_pAzimuthalEquidistant->Forward(lat0, lon0, lat, lon, lx, ly, azi, rk); 95 void AzimuthalEquidistant::Reverse(double lat0, double lon0, double x, double y, 99 m_pAzimuthalEquidistant->Reverse(lat0, lon0, x, y, llat, llon, azi, rk);
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H A D | TransverseMercator.cpp | 62 void TransverseMercator::Forward(double lon0, double lat, double lon, 69 m_pTransverseMercator->Forward( lon0, lat, lon, lx, ly, lgamma, lk ); 77 void TransverseMercator::Reverse(double lon0, double x, double y, 84 m_pTransverseMercator->Reverse( lon0, x, y, llat, llon, lgamma, lk ); 92 void TransverseMercator::Forward(double lon0, double lat, double lon, 97 m_pTransverseMercator->Forward( lon0, lat, lon, lx, ly ); 103 void TransverseMercator::Reverse(double lon0, double x, double y, 108 m_pTransverseMercator->Reverse( lon0, x, y, llat, llon );
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H A D | TransverseMercatorExact.cpp | 65 void TransverseMercatorExact::Forward(double lon0, double lat, double lon, 72 m_pTransverseMercatorExact->Forward( lon0, lat, lon, lx, ly, 81 void TransverseMercatorExact::Reverse(double lon0, double x, double y, 88 m_pTransverseMercatorExact->Reverse( lon0, x, y, llat, llon, 97 void TransverseMercatorExact::Forward(double lon0, double lat, double lon, 102 m_pTransverseMercatorExact->Forward( lon0, lat, lon, lx, ly ); 108 void TransverseMercatorExact::Reverse(double lon0, double x, double y, 113 m_pTransverseMercatorExact->Reverse( lon0, x, y, llat, llon );
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H A D | Gnomonic.cpp | 61 void Gnomonic::Forward(double lat0, double lon0, double lat, double lon, 68 m_pGnomonic->Forward( lat0, lon0, lat, lon, lx, ly, lazi, lrk ); 76 void Gnomonic::Reverse(double lat0, double lon0, double x, double y, 83 m_pGnomonic->Reverse( lat0, lon0, x, y, llat, llon, lazi, lrk ); 91 void Gnomonic::Forward(double lat0, double lon0, double lat, double lon, 96 m_pGnomonic->Forward( lat0, lon0, lat, lon, lx, ly ); 102 void Gnomonic::Reverse(double lat0, double lon0, double x, double y, 107 m_pGnomonic->Reverse( lat0, lon0, x, y, llat, llon );
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/dports/astro/tclgeomap/tclgeomap-2.11.6/generic/ |
H A D | geography.c | 1096 LonCmp(lon0, lon1) in LonCmp() argument 1100 lon0 = DomainLon(lon0, lon1); 1101 return (lon0 < lon1) ? West : (lon0 > lon1) ? East : PrMd; 1121 LonBtwn(lon, lon0, lon1) in LonBtwn() argument 1126 lon0 = DomainLon(lon0, lon); 1128 return ((lon0 > lon1) ? lon0 - lon1 : lon1 - lon0) < D180 1129 && ((lon0 < lon && lon < lon1) || (lon1 < lon && lon < lon0)); 1150 LonBtwn1(lon, lon0, lon1) in LonBtwn1() argument 1155 lon0 = DomainLon(lon0, lon); 1157 return ((lon0 > lon1) ? lon0 - lon1 : lon1 - lon0) < D180 [all …]
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/dports/astro/geographiclib/GeographicLib-1.52/matlab/geographiclib/ |
H A D | loccart_fwd.m | 1 function [x, y, z, M] = loccart_fwd(lat0, lon0, h0, lat, lon, h, ellipsoid) 4 % [x, y, z] = LOCCART_FWD(lat0, lon0, h0, lat, lon) 5 % [x, y, z] = LOCCART_FWD(lat0, lon0, h0, lat, lon, h) 6 % [x, y, z, M] = LOCCART_FWD(lat0, lon0, h0, lat, lon, h, ellipsoid) 9 % coordinates, x, y, z, centered at lat0, lon0, h0. Latitudes and 11 % lat, lon, h can be scalars or arrays of equal size. lat0, lon0, h0 20 % transforms the vector to local cartesian coordinates at (lat0, lon0, 35 if ~(isscalar(lat0) && isscalar(lon0) && isscalar(h0)) 36 error('lat0, lon0, h0 must be scalar') 46 [X0, Y0, Z0, M0] = geocent_fwd(lat0, lon0, h0, ellipsoid);
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H A D | loccart_inv.m | 1 function [lat, lon, h, M] = loccart_inv(lat0, lon0, h0, x, y, z, ellipsoid) 4 % [lat, lon, h] = LOCCART_INV(lat0, lon0, h0, x, y, z) 5 % [lat, lon, h, M] = LOCCART_INV(lat0, lon0, h0, x, y, z, ellipsoid) 8 % lon0, h0 to geodetic coordinates, lat, lon, h. Latitudes and 10 % be scalars or arrays of equal size. lat0, lon0, h0 must be scalars. 18 % unit vector in local cartesian coordinates at (lat0, lon0, h0) by the 33 if ~(isscalar(lat0) && isscalar(lon0) && isscalar(h0)) 34 error('lat0, lon0, h0 must be scalar') 44 [X0, Y0, Z0, M0] = geocent_fwd(lat0, lon0, h0, ellipsoid);
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H A D | cassini_inv.m | 1 function [lat, lon, azi, rk] = cassini_inv(lat0, lon0, x, y, ellipsoid) 4 % [lat, lon] = CASSINI_INV(lat0, lon0, x, y) 5 % [lat, lon, azi, rk] = CASSINI_INV(lat0, lon0, x, y, ellipsoid) 8 % (lat,lon) using (lat0,lon0) as the center of projection. These input 20 % lat0, lon0, lat, lon, azi are in degrees. The projected coordinates x, 31 [~] = lat0 + lon0 + x + y; 33 error('lat0, lon0, x, y have incompatible sizes') 36 [lat1, lon1, azi0] = geodreckon(lat0, lon0, y, 0, ellipsoid);
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/dports/math/octave-forge-mapping/mapping-1.4.1/inst/ |
H A D | enu2uvw.m | 25 …} {@var{u}, @var{v}, @var{w} =} enu2uvw (@var{east}, @var{north}, @var{up}, @var{lat0}, @var{lon0}) 26 …v}, @var{w} =} enu2uvw (@var{east}, @var{north}, @var{up}, @var{lat0}, @var{lon0}, @var{angleUnit}) 34 ## @var{lat0}, @var{lon0}: geodetic coordinates of observer/reference point(s) 50 function [u, v, w] = enu2uvw (east, n, up, lat0, lon0, angleUnit = "degrees") 60 ! isnumeric (lon0) || ! isreal (lon0)) 66 if (! (isscalar (lat0) && isscalar (lon0))) 69 ! all (size (lon0) == size (n))) 79 lon0 = deg2rad (lon0); variable 87 u = cos (lon0) .* t - sin (lon0) .* east; 88 v = sin (lon0) .* t + cos (lon0) .* east;
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/dports/astro/geographiclib/GeographicLib-1.52/java/src/main/java/net/sf/geographiclib/ |
H A D | GnomonicData.java | 32 public double lon0; field in GnomonicData 62 lat0 = lon0 = lat = lon = x = y = azi = rk = Double.NaN; in GnomonicData() 87 public GnomonicData(double lat0, double lon0, double lat, double lon, in GnomonicData() argument 90 this.lon0 = lon0; in GnomonicData()
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/dports/astro/geographiclib/GeographicLib-1.52/include/GeographicLib/ |
H A D | AzimuthalEquidistant.hpp | 75 void Forward(real lat0, real lon0, real lat, real lon, 98 void Reverse(real lat0, real lon0, real x, real y, 104 void Forward(real lat0, real lon0, real lat, real lon, in Forward() argument 107 Forward(lat0, lon0, lat, lon, x, y, azi, rk); in Forward() 113 void Reverse(real lat0, real lon0, real x, real y, in Reverse() argument 116 Reverse(lat0, lon0, x, y, lat, lon, azi, rk); in Reverse()
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H A D | Gnomonic.hpp | 148 void Forward(real lat0, real lon0, real lat, real lon, 174 void Reverse(real lat0, real lon0, real x, real y, 180 void Forward(real lat0, real lon0, real lat, real lon, in Forward() argument 183 Forward(lat0, lon0, lat, lon, x, y, azi, rk); in Forward() 189 void Reverse(real lat0, real lon0, real x, real y, in Reverse() argument 192 Reverse(lat0, lon0, x, y, lat, lon, azi, rk); in Reverse()
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H A D | TransverseMercator.hpp | 130 void Forward(real lon0, real lat, real lon, 147 void Reverse(real lon0, real x, real y, 153 void Forward(real lon0, real lat, real lon, in Forward() argument 156 Forward(lon0, lat, lon, x, y, gamma, k); in Forward() 162 void Reverse(real lon0, real x, real y, in Reverse() argument 165 Reverse(lon0, x, y, lat, lon, gamma, k); in Reverse()
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/dports/astro/geographiclib/GeographicLib-1.52/examples/ |
H A D | example-LambertConformalConic.cpp | 19 lat0 = 39 + 20/60.0, lon0 =-77 - 45/60.0, // origin in main() local 25 PASouth.Forward(lon0, lat0, lon0, x0, y0); in main() 31 PASouth.Forward(lon0, lat, lon, x, y); in main() 40 PASouth.Reverse(lon0, x, y, lat, lon); in main()
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