Public Member Functions | Private Types | Private Attributes | Static Private Attributes | List of all members
GeographicLib::Gnomonic Class Reference

Gnomonic projection More...

#include <Gnomonic.hpp>

Public Member Functions

void Forward (real lat0, real lon0, real lat, real lon, real &x, real &y) const
 
void Forward (real lat0, real lon0, real lat, real lon, real &x, real &y, real &azi, real &rk) const
 
 Gnomonic (const Geodesic &earth=Geodesic::WGS84())
 
void Reverse (real lat0, real lon0, real x, real y, real &lat, real &lon) const
 
void Reverse (real lat0, real lon0, real x, real y, real &lat, real &lon, real &azi, real &rk) const
 
Inspector functions
Math::real MajorRadius () const
 
Math::real Flattening () const
 

Private Types

typedef Math::real real
 

Private Attributes

real _a
 
Geodesic _earth
 
real _f
 
real eps0_
 
real eps_
 

Static Private Attributes

static const int numit_ = 10
 

Detailed Description

Gnomonic projection

Gnomonic projection centered at an arbitrary position C on the ellipsoid. This projection is derived in Section 8 of

The projection of P is defined as follows: compute the geodesic line from C to P; compute the reduced length m12, geodesic scale M12, and ρ = m12/M12; finally x = ρ sin azi1; y = ρ cos azi1, where azi1 is the azimuth of the geodesic at C. The Gnomonic::Forward and Gnomonic::Reverse methods also return the azimuth azi of the geodesic at P and reciprocal scale rk in the azimuthal direction. The scale in the radial direction if 1/rk2.

For a sphere, ρ is reduces to a tan(s12/a), where s12 is the length of the geodesic from C to P, and the gnomonic projection has the property that all geodesics appear as straight lines. For an ellipsoid, this property holds only for geodesics interesting the centers. However geodesic segments close to the center are approximately straight.

Consider a geodesic segment of length l. Let T be the point on the geodesic (extended if necessary) closest to C the center of the projection and t be the distance CT. To lowest order, the maximum deviation (as a true distance) of the corresponding gnomonic line segment (i.e., with the same end points) from the geodesic is

(K(T) - K(C)) l2 t / 32.

where K is the Gaussian curvature.

This result applies for any surface. For an ellipsoid of revolution, consider all geodesics whose end points are within a distance r of C. For a given r, the deviation is maximum when the latitude of C is 45°, when endpoints are a distance r away, and when their azimuths from the center are ± 45° or ± 135°. To lowest order in r and the flattening f, the deviation is f (r/2a)3 r.

The conversions all take place using a Geodesic object (by default Geodesic::WGS84()). For more information on geodesics see geodesic.

Warning
The definition of this projection for a sphere is standard. However, there is no standard for how it should be extended to an ellipsoid. The choices are:
  • Declare that the projection is undefined for an ellipsoid.
  • Project to a tangent plane from the center of the ellipsoid. This causes great ellipses to appear as straight lines in the projection; i.e., it generalizes the spherical great circle to a great ellipse. This was proposed by independently by Bowring and Williams in 1997.
  • Project to the conformal sphere with the constant of integration chosen so that the values of the latitude match for the center point and perform a central projection onto the plane tangent to the conformal sphere at the center point. This causes normal sections through the center point to appear as straight lines in the projection; i.e., it generalizes the spherical great circle to a normal section. This was proposed by I. G. Letoval'tsev, Generalization of the gnomonic projection for a spheroid and the principal geodetic problems involved in the alignment of surface routes, Geodesy and Aerophotography (5), 271–274 (1963).
  • The projection given here. This causes geodesics close to the center point to appear as straight lines in the projection; i.e., it generalizes the spherical great circle to a geodesic.

Example of use:

// Example of using the GeographicLib::Gnomonic class
#include <iostream>
#include <exception>
using namespace std;
using namespace GeographicLib;
int main() {
try {
// Alternatively: const Geodesic& geod = Geodesic::WGS84();
const double lat0 = 48 + 50/60.0, lon0 = 2 + 20/60.0; // Paris
Gnomonic proj(geod);
{
// Sample forward calculation
double lat = 50.9, lon = 1.8; // Calais
double x, y;
proj.Forward(lat0, lon0, lat, lon, x, y);
cout << x << " " << y << "\n";
}
{
// Sample reverse calculation
double x = -38e3, y = 230e3;
double lat, lon;
proj.Reverse(lat0, lon0, x, y, lat, lon);
cout << lat << " " << lon << "\n";
}
}
catch (const exception& e) {
cerr << "Caught exception: " << e.what() << "\n";
return 1;
}
}

GeodesicProj is a command-line utility providing access to the functionality of AzimuthalEquidistant, Gnomonic, and CassiniSoldner.

Definition at line 102 of file Gnomonic.hpp.

Member Typedef Documentation

◆ real

Definition at line 104 of file Gnomonic.hpp.

Constructor & Destructor Documentation

◆ Gnomonic()

GeographicLib::Gnomonic::Gnomonic ( const Geodesic earth = Geodesic::WGS84())
explicit

Constructor for Gnomonic.

Parameters
[in]earththe Geodesic object to use for geodesic calculations. By default this uses the WGS84 ellipsoid.

Definition at line 22 of file src/Gnomonic.cpp.

Member Function Documentation

◆ Flattening()

Math::real GeographicLib::Gnomonic::Flattening ( ) const
inline
Returns
f the flattening of the ellipsoid. This is the value inherited from the Geodesic object used in the constructor.

Definition at line 200 of file Gnomonic.hpp.

◆ Forward() [1/2]

void GeographicLib::Gnomonic::Forward ( real  lat0,
real  lon0,
real  lat,
real  lon,
real x,
real y 
) const
inline

Gnomonic::Forward without returning the azimuth and scale.

Definition at line 172 of file Gnomonic.hpp.

◆ Forward() [2/2]

void GeographicLib::Gnomonic::Forward ( real  lat0,
real  lon0,
real  lat,
real  lon,
real x,
real y,
real azi,
real rk 
) const

Forward projection, from geographic to gnomonic.

Parameters
[in]lat0latitude of center point of projection (degrees).
[in]lon0longitude of center point of projection (degrees).
[in]latlatitude of point (degrees).
[in]lonlongitude of point (degrees).
[out]xeasting of point (meters).
[out]ynorthing of point (meters).
[out]aziazimuth of geodesic at point (degrees).
[out]rkreciprocal of azimuthal scale at point.

lat0 and lat should be in the range [−90°, 90°]. The scale of the projection is 1/rk2 in the "radial" direction, azi clockwise from true north, and is 1/rk in the direction perpendicular to this. If the point lies "over the horizon", i.e., if rk ≤ 0, then NaNs are returned for x and y (the correct values are returned for azi and rk). A call to Forward followed by a call to Reverse will return the original (lat, lon) (to within roundoff) provided the point in not over the horizon.

Definition at line 30 of file src/Gnomonic.cpp.

◆ MajorRadius()

Math::real GeographicLib::Gnomonic::MajorRadius ( ) const
inline
Returns
a the equatorial radius of the ellipsoid (meters). This is the value inherited from the Geodesic object used in the constructor.

Definition at line 194 of file Gnomonic.hpp.

◆ Reverse() [1/2]

void GeographicLib::Gnomonic::Reverse ( real  lat0,
real  lon0,
real  x,
real  y,
real lat,
real lon 
) const
inline

Gnomonic::Reverse without returning the azimuth and scale.

Definition at line 181 of file Gnomonic.hpp.

◆ Reverse() [2/2]

void GeographicLib::Gnomonic::Reverse ( real  lat0,
real  lon0,
real  x,
real  y,
real lat,
real lon,
real azi,
real rk 
) const

Reverse projection, from gnomonic to geographic.

Parameters
[in]lat0latitude of center point of projection (degrees).
[in]lon0longitude of center point of projection (degrees).
[in]xeasting of point (meters).
[in]ynorthing of point (meters).
[out]latlatitude of point (degrees).
[out]lonlongitude of point (degrees).
[out]aziazimuth of geodesic at point (degrees).
[out]rkreciprocal of azimuthal scale at point.

lat0 should be in the range [−90°, 90°]. lat will be in the range [−90°, 90°] and lon will be in the range [−180°, 180°]. The scale of the projection is 1/rk2 in the "radial" direction, azi clockwise from true north, and is 1/rk in the direction perpendicular to this. Even though all inputs should return a valid lat and lon, it's possible that the procedure fails to converge for very large x or y; in this case NaNs are returned for all the output arguments. A call to Reverse followed by a call to Forward will return the original (x, y) (to roundoff).

Definition at line 47 of file src/Gnomonic.cpp.

Member Data Documentation

◆ _a

real GeographicLib::Gnomonic::_a
private

Definition at line 107 of file Gnomonic.hpp.

◆ _earth

Geodesic GeographicLib::Gnomonic::_earth
private

Definition at line 106 of file Gnomonic.hpp.

◆ _f

real GeographicLib::Gnomonic::_f
private

Definition at line 107 of file Gnomonic.hpp.

◆ eps0_

real GeographicLib::Gnomonic::eps0_
private

Definition at line 105 of file Gnomonic.hpp.

◆ eps_

real GeographicLib::Gnomonic::eps_
private

Definition at line 105 of file Gnomonic.hpp.

◆ numit_

const int GeographicLib::Gnomonic::numit_ = 10
staticprivate

Definition at line 108 of file Gnomonic.hpp.


The documentation for this class was generated from the following files:
e
Array< double, 1, 3 > e(1./3., 0.5, 2.)
GeographicLib
Namespace for GeographicLib.
Definition: JacobiConformal.hpp:15
x
set noclip points set clip one set noclip two set bar set border lt lw set xdata set ydata set zdata set x2data set y2data set boxwidth set dummy x
Definition: gnuplot_common_settings.hh:12
GeographicLib::Gnomonic
Gnomonic projection
Definition: Gnomonic.hpp:102
main
int main(int argc, char **argv)
Definition: cmake/example_cmake_find_gtsam/main.cpp:63
example::lat0
const double lat0
Definition: testGPSFactor.cpp:41
example::lon0
const double lon0
Definition: testGPSFactor.cpp:41
y
Scalar * y
Definition: level1_cplx_impl.h:124
GeographicLib::Constants::WGS84_a
static T WGS84_a()
Definition: Constants.hpp:159
std
Definition: BFloat16.h:88
Gnomonic.hpp
Header for GeographicLib::Gnomonic class.
GeographicLib::Constants::WGS84_f
static T WGS84_f()
Definition: Constants.hpp:169
lon
static const double lon
Definition: testGeographicLib.cpp:34
GeographicLib::Geodesic
Geodesic calculations
Definition: Geodesic.hpp:172
Geodesic.hpp
Header for GeographicLib::Geodesic class.
lat
static const double lat
Definition: testGeographicLib.cpp:34


gtsam
Author(s):
autogenerated on Sun Dec 22 2024 04:23:28