GeographicLib::CassiniSoldner Class Reference

Cassini-Soldner projection. More...

#include <GeographicLib/CassiniSoldner.hpp>

List of all members.

Public Member Functions

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



bool Init () const
Math::real LatitudeOrigin () const
Math::real LongitudeOrigin () const
Math::real MajorRadius () const
Math::real Flattening () const

Detailed Description

Cassini-Soldner projection.

Cassini-Soldner projection centered at an arbitrary position, lat0, lon0, on the ellipsoid. This projection is a transverse cylindrical equidistant projection. The projection from (lat, lon) to easting and northing (x, y) is defined by geodesics as follows. Go north along a geodesic a distance y from the central point; then turn clockwise 90 and go a distance x along a geodesic. (Although the initial heading is north, this changes to south if the pole is crossed.) This procedure uniquely defines the reverse projection. The forward projection is constructed as follows. Find the point (lat1, lon1) on the meridian closest to (lat, lon). Here we consider the full meridian so that lon1 may be either lon0 or lon0 + 180. x is the geodesic distance from (lat1, lon1) to (lat, lon), appropriately signed according to which side of the central meridian (lat, lon) lies. y is the shortest distance along the meridian from (lat0, lon0) to (lat1, lon1), again, appropriately signed according to the initial heading. [Note that, in the case of prolate ellipsoids, the shortest meridional path from (lat0, lon0) to (lat1, lon1) may not be the shortest path.] This procedure uniquely defines the forward projection except for a small class of points for which there may be two equally short routes for either leg of the path.

Because of the properties of geodesics, the (x, y) grid is orthogonal. The scale in the easting direction is unity. The scale, k, in the northing direction is unity on the central meridian and increases away from the central meridian. The projection routines return azi, the true bearing of the easting direction, and rk = 1/k, the reciprocal of the scale in the northing direction.

The conversions all take place using a Geodesic object (by default Geodesic::WGS84()). For more information on geodesics see Geodesics on an ellipsoid of revolution. The determination of (lat1, lon1) in the forward projection is by solving the inverse geodesic problem for (lat, lon) and its twin obtained by reflection in the meridional plane. The scale is found by determining where two neighboring geodesics intersecting the central meridian at lat1 and lat1 + dlat1 intersect and taking the ratio of the reduced lengths for the two geodesics between that point and, respectively, (lat1, lon1) and (lat, lon).

Example of use:

// Example of using the GeographicLib::CassiniSoldner class

#include <iostream>
#include <exception>
#include <GeographicLib/Geodesic.hpp>
#include <GeographicLib/CassiniSoldner.hpp>

using namespace std;
using namespace GeographicLib;

int main() {
  try {
    Geodesic geod(Constants::WGS84_a(), Constants::WGS84_f());
    // Alternatively: const Geodesic& geod = Geodesic::WGS84();
    const double lat0 = 48 + 50/60.0, lon0 = 2 + 20/60.0; // Paris
    CassiniSoldner proj(lat0, lon0, geod);
    {
      // Sample forward calculation
      double lat = 50.9, lon = 1.8; // Calais
      double x, y;
      proj.Forward(lat, lon, x, y);
      cout << x << " " << y << "\n";
    }
    {
      // Sample reverse calculation
      double x = -38e3, y = 230e3;
      double lat, lon;
      proj.Reverse(x, y, lat, lon);
      cout << lat << " " << lon << "\n";
    }
  }
  catch (const exception& e) {
    cerr << "Caught exception: " << e.what() << "\n";
    return 1;
  }
  return 0;
}

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

Definition at line 69 of file CassiniSoldner.hpp.


Constructor & Destructor Documentation

GeographicLib::CassiniSoldner::CassiniSoldner ( const Geodesic earth = Geodesic::WGS84()  )  [explicit]

Constructor for CassiniSoldner.

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

This constructor makes an "uninitialized" object. Call Reset to set the central latitude and longitude, prior to calling Forward and Reverse.

Definition at line 16 of file CassiniSoldner.cpp.

GeographicLib::CassiniSoldner::CassiniSoldner ( real  lat0,
real  lon0,
const Geodesic earth = Geodesic::WGS84() 
)

Constructor for CassiniSoldner specifying a center point.

Parameters:
[in] lat0 latitude of center point of projection (degrees).
[in] lon0 longitude of center point of projection (degrees).
[in] earth the Geodesic object to use for geodesic calculations. By default this uses the WGS84 ellipsoid.

lat0 should be in the range [90, 90] and lon0 should be in the range [540, 540).

Definition at line 21 of file CassiniSoldner.cpp.

References Reset().


Member Function Documentation

void GeographicLib::CassiniSoldner::Reset ( real  lat0,
real  lon0 
)

Set the central point of the projection

Parameters:
[in] lat0 latitude of center point of projection (degrees).
[in] lon0 longitude of center point of projection (degrees).

lat0 should be in the range [90, 90] and lon0 should be in the range [540, 540).

Definition at line 27 of file CassiniSoldner.cpp.

References GeographicLib::Geodesic::AZIMUTH, GeographicLib::Math::degree(), GeographicLib::Geodesic::DISTANCE, GeographicLib::Geodesic::DISTANCE_IN, GeographicLib::Geodesic::Flattening(), GeographicLib::Geodesic::LATITUDE, LatitudeOrigin(), GeographicLib::Geodesic::Line(), and GeographicLib::Geodesic::LONGITUDE.

Referenced by CassiniSoldner().

void GeographicLib::CassiniSoldner::Forward ( real  lat,
real  lon,
real &  x,
real &  y,
real &  azi,
real &  rk 
) const

Forward projection, from geographic to Cassini-Soldner.

Parameters:
[in] lat latitude of point (degrees).
[in] lon longitude of point (degrees).
[out] x easting of point (meters).
[out] y northing of point (meters).
[out] azi azimuth of easting direction at point (degrees).
[out] rk reciprocal of azimuthal northing scale at point.

lat should be in the range [90, 90] and lon should be in the range [540, 540). A call to Forward followed by a call to Reverse will return the original (lat, lon) (to within roundoff). The routine does nothing if the origin has not been set.

Definition at line 40 of file CassiniSoldner.cpp.

References GeographicLib::Math::AngDiff(), GeographicLib::Math::AngNormalize(), GeographicLib::Math::degree(), GeographicLib::Geodesic::DISTANCE, GeographicLib::GeodesicLine::GenPosition(), GeographicLib::Geodesic::GEODESICSCALE, Init(), GeographicLib::Geodesic::Inverse(), GeographicLib::Geodesic::Line(), and LongitudeOrigin().

void GeographicLib::CassiniSoldner::Reverse ( real  x,
real  y,
real &  lat,
real &  lon,
real &  azi,
real &  rk 
) const

Reverse projection, from Cassini-Soldner to geographic.

Parameters:
[in] x easting of point (meters).
[in] y northing of point (meters).
[out] lat latitude of point (degrees).
[out] lon longitude of point (degrees).
[out] azi azimuth of easting direction at point (degrees).
[out] rk reciprocal of azimuthal northing scale at point.

A call to Reverse followed by a call to Forward will return the original (x, y) (to within roundoff), provided that x and y are sufficiently small not to "wrap around" the earth. The routine does nothing if the origin has not been set.

Definition at line 88 of file CassiniSoldner.cpp.

References GeographicLib::Geodesic::Direct(), Init(), and GeographicLib::GeodesicLine::Position().

void GeographicLib::CassiniSoldner::Forward ( real  lat,
real  lon,
real &  x,
real &  y 
) const [inline]

CassiniSoldner::Forward without returning the azimuth and scale.

Definition at line 175 of file CassiniSoldner.hpp.

void GeographicLib::CassiniSoldner::Reverse ( real  x,
real  y,
real &  lat,
real &  lon 
) const [inline]

CassiniSoldner::Reverse without returning the azimuth and scale.

Definition at line 184 of file CassiniSoldner.hpp.

bool GeographicLib::CassiniSoldner::Init (  )  const [inline]
Returns:
true if the object has been initialized.

Definition at line 196 of file CassiniSoldner.hpp.

Referenced by Forward(), and Reverse().

Math::real GeographicLib::CassiniSoldner::LatitudeOrigin (  )  const [inline]
Returns:
lat0 the latitude of origin (degrees).

Definition at line 201 of file CassiniSoldner.hpp.

Referenced by Reset().

Math::real GeographicLib::CassiniSoldner::LongitudeOrigin (  )  const [inline]
Returns:
lon0 the longitude of origin (degrees).

Definition at line 207 of file CassiniSoldner.hpp.

Referenced by Forward().

Math::real GeographicLib::CassiniSoldner::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 214 of file CassiniSoldner.hpp.

Math::real GeographicLib::CassiniSoldner::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 220 of file CassiniSoldner.hpp.


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