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

Geocentric coordinates More...

#include <Geocentric.hpp>

Public Member Functions

void Forward (real lat, real lon, real h, real &X, real &Y, real &Z) const
 
void Forward (real lat, real lon, real h, real &X, real &Y, real &Z, std::vector< real > &M) const
 
 Geocentric ()
 
 Geocentric (real a, real f)
 
void Reverse (real X, real Y, real Z, real &lat, real &lon, real &h) const
 
void Reverse (real X, real Y, real Z, real &lat, real &lon, real &h, std::vector< real > &M) const
 
Inspector functions
bool Init () const
 
Math::real MajorRadius () const
 
Math::real Flattening () const
 

Static Public Member Functions

static const GeocentricWGS84 ()
 

Private Types

typedef Math::real real
 

Private Member Functions

void IntForward (real lat, real lon, real h, real &X, real &Y, real &Z, real M[dim2_]) const
 
void IntReverse (real X, real Y, real Z, real &lat, real &lon, real &h, real M[dim2_]) const
 

Static Private Member Functions

static void Rotate (real M[dim2_], real x, real y, real z, real &X, real &Y, real &Z)
 
static void Rotation (real sphi, real cphi, real slam, real clam, real M[dim2_])
 
static void Unrotate (real M[dim2_], real X, real Y, real Z, real &x, real &y, real &z)
 

Private Attributes

real _a
 
real _e2
 
real _e2a
 
real _e2m
 
real _e4a
 
real _f
 
real _maxrad
 

Static Private Attributes

static const size_t dim2_ = dim_ * dim_
 
static const size_t dim_ = 3
 

Friends

class GravityCircle
 
class GravityModel
 
class LocalCartesian
 
class MagneticCircle
 
class MagneticModel
 
class NormalGravity
 

Detailed Description

Geocentric coordinates

Convert between geodetic coordinates latitude = lat, longitude = lon, height = h (measured vertically from the surface of the ellipsoid) to geocentric coordinates (X, Y, Z). The origin of geocentric coordinates is at the center of the earth. The Z axis goes thru the north pole, lat = 90°. The X axis goes thru lat = 0, lon = 0. Geocentric coordinates are also known as earth centered, earth fixed (ECEF) coordinates.

The conversion from geographic to geocentric coordinates is straightforward. For the reverse transformation we use

Several changes have been made to ensure that the method returns accurate results for all finite inputs (even if h is infinite). The changes are described in Appendix B of

Vermeille similarly updated his method in

See geocentric for more information.

The errors in these routines are close to round-off. Specifically, for points within 5000 km of the surface of the ellipsoid (either inside or outside the ellipsoid), the error is bounded by 7 nm (7 nanometers) for the WGS84 ellipsoid. See geocentric for further information on the errors.

Example of use:

// Example of using the GeographicLib::Geocentric class
#include <iostream>
#include <exception>
#include <cmath>
using namespace std;
using namespace GeographicLib;
int main() {
try {
// Alternatively: const Geocentric& earth = Geocentric::WGS84();
{
// Sample forward calculation
double lat = 27.99, lon = 86.93, h = 8820; // Mt Everest
double X, Y, Z;
earth.Forward(lat, lon, h, X, Y, Z);
cout << floor(X / 1000 + 0.5) << " "
<< floor(Y / 1000 + 0.5) << " "
<< floor(Z / 1000 + 0.5) << "\n";
}
{
// Sample reverse calculation
double X = 302e3, Y = 5636e3, Z = 2980e3;
double lat, lon, h;
earth.Reverse(X, Y, Z, lat, lon, h);
cout << lat << " " << lon << " " << h << "\n";
}
}
catch (const exception& e) {
cerr << "Caught exception: " << e.what() << "\n";
return 1;
}
}

CartConvert is a command-line utility providing access to the functionality of Geocentric and LocalCartesian.

Definition at line 67 of file Geocentric.hpp.

Member Typedef Documentation

◆ real

Definition at line 69 of file Geocentric.hpp.

Constructor & Destructor Documentation

◆ Geocentric() [1/2]

GeographicLib::Geocentric::Geocentric ( real  a,
real  f 
)

Constructor for a ellipsoid with

Parameters
[in]aequatorial radius (meters).
[in]fflattening of ellipsoid. Setting f = 0 gives a sphere. Negative f gives a prolate ellipsoid.
Exceptions
GeographicErrif a or (1 − f) a is not positive.

Definition at line 16 of file src/Geocentric.cpp.

◆ Geocentric() [2/2]

GeographicLib::Geocentric::Geocentric ( )
inline

A default constructor (for use by NormalGravity).

Definition at line 118 of file Geocentric.hpp.

Member Function Documentation

◆ Flattening()

Math::real GeographicLib::Geocentric::Flattening ( ) const
inline
Returns
f the flattening of the ellipsoid. This is the value used in the constructor.

Definition at line 254 of file Geocentric.hpp.

◆ Forward() [1/2]

void GeographicLib::Geocentric::Forward ( real  lat,
real  lon,
real  h,
real X,
real Y,
real Z 
) const
inline

Convert from geodetic to geocentric coordinates.

Parameters
[in]latlatitude of point (degrees).
[in]lonlongitude of point (degrees).
[in]hheight of point above the ellipsoid (meters).
[out]Xgeocentric coordinate (meters).
[out]Ygeocentric coordinate (meters).
[out]Zgeocentric coordinate (meters).

lat should be in the range [−90°, 90°].

Definition at line 132 of file Geocentric.hpp.

◆ Forward() [2/2]

void GeographicLib::Geocentric::Forward ( real  lat,
real  lon,
real  h,
real X,
real Y,
real Z,
std::vector< real > &  M 
) const
inline

Convert from geodetic to geocentric coordinates and return rotation matrix.

Parameters
[in]latlatitude of point (degrees).
[in]lonlongitude of point (degrees).
[in]hheight of point above the ellipsoid (meters).
[out]Xgeocentric coordinate (meters).
[out]Ygeocentric coordinate (meters).
[out]Zgeocentric coordinate (meters).
[out]Mif the length of the vector is 9, fill with the rotation matrix in row-major order.

Let v be a unit vector located at (lat, lon, h). We can express v as column vectors in one of two ways

  • in east, north, up coordinates (where the components are relative to a local coordinate system at (lat, lon, h)); call this representation v1.
  • in geocentric X, Y, Z coordinates; call this representation v0.

Then we have v0 = Mv1.

Definition at line 161 of file Geocentric.hpp.

◆ Init()

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

Definition at line 242 of file Geocentric.hpp.

◆ IntForward()

void GeographicLib::Geocentric::IntForward ( real  lat,
real  lon,
real  h,
real X,
real Y,
real Z,
real  M[dim2_] 
) const
private

Definition at line 36 of file src/Geocentric.cpp.

◆ IntReverse()

void GeographicLib::Geocentric::IntReverse ( real  X,
real  Y,
real  Z,
real lat,
real lon,
real h,
real  M[dim2_] 
) const
private

Definition at line 51 of file src/Geocentric.cpp.

◆ MajorRadius()

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

Definition at line 247 of file Geocentric.hpp.

◆ Reverse() [1/2]

void GeographicLib::Geocentric::Reverse ( real  X,
real  Y,
real  Z,
real lat,
real lon,
real h 
) const
inline

Convert from geocentric to geodetic to coordinates.

Parameters
[in]Xgeocentric coordinate (meters).
[in]Ygeocentric coordinate (meters).
[in]Zgeocentric coordinate (meters).
[out]latlatitude of point (degrees).
[out]lonlongitude of point (degrees).
[out]hheight of point above the ellipsoid (meters).

In general there are multiple solutions and the result which maximizes h is returned. If there are still multiple solutions with different latitudes (applies only if Z = 0), then the solution with lat > 0 is returned. If there are still multiple solutions with different longitudes (applies only if X = Y = 0) then lon = 0 is returned. The value of h returned satisfies h ≥ − a (1 − e2) / sqrt(1 − e2 sin2lat). The value of lon returned is in the range [−180°, 180°].

Definition at line 194 of file Geocentric.hpp.

◆ Reverse() [2/2]

void GeographicLib::Geocentric::Reverse ( real  X,
real  Y,
real  Z,
real lat,
real lon,
real h,
std::vector< real > &  M 
) const
inline

Convert from geocentric to geodetic to coordinates.

Parameters
[in]Xgeocentric coordinate (meters).
[in]Ygeocentric coordinate (meters).
[in]Zgeocentric coordinate (meters).
[out]latlatitude of point (degrees).
[out]lonlongitude of point (degrees).
[out]hheight of point above the ellipsoid (meters).
[out]Mif the length of the vector is 9, fill with the rotation matrix in row-major order.

Let v be a unit vector located at (lat, lon, h). We can express v as column vectors in one of two ways

  • in east, north, up coordinates (where the components are relative to a local coordinate system at (lat, lon, h)); call this representation v1.
  • in geocentric X, Y, Z coordinates; call this representation v0.

Then we have v1 = MTv0, where MT is the transpose of M.

Definition at line 223 of file Geocentric.hpp.

◆ Rotate()

static void GeographicLib::Geocentric::Rotate ( real  M[dim2_],
real  x,
real  y,
real  z,
real X,
real Y,
real Z 
)
inlinestaticprivate

Definition at line 81 of file Geocentric.hpp.

◆ Rotation()

void GeographicLib::Geocentric::Rotation ( real  sphi,
real  cphi,
real  slam,
real  clam,
real  M[dim2_] 
)
staticprivate

Definition at line 155 of file src/Geocentric.cpp.

◆ Unrotate()

static void GeographicLib::Geocentric::Unrotate ( real  M[dim2_],
real  X,
real  Y,
real  Z,
real x,
real y,
real z 
)
inlinestaticprivate

Definition at line 89 of file Geocentric.hpp.

◆ WGS84()

const Geocentric & GeographicLib::Geocentric::WGS84 ( )
static

A global instantiation of Geocentric with the parameters for the WGS84 ellipsoid.

Definition at line 31 of file src/Geocentric.cpp.

Friends And Related Function Documentation

◆ GravityCircle

friend class GravityCircle
friend

Definition at line 73 of file Geocentric.hpp.

◆ GravityModel

friend class GravityModel
friend

Definition at line 74 of file Geocentric.hpp.

◆ LocalCartesian

friend class LocalCartesian
friend

Definition at line 70 of file Geocentric.hpp.

◆ MagneticCircle

friend class MagneticCircle
friend

Definition at line 71 of file Geocentric.hpp.

◆ MagneticModel

friend class MagneticModel
friend

Definition at line 72 of file Geocentric.hpp.

◆ NormalGravity

friend class NormalGravity
friend

Definition at line 75 of file Geocentric.hpp.

Member Data Documentation

◆ _a

real GeographicLib::Geocentric::_a
private

Definition at line 78 of file Geocentric.hpp.

◆ _e2

real GeographicLib::Geocentric::_e2
private

Definition at line 78 of file Geocentric.hpp.

◆ _e2a

real GeographicLib::Geocentric::_e2a
private

Definition at line 78 of file Geocentric.hpp.

◆ _e2m

real GeographicLib::Geocentric::_e2m
private

Definition at line 78 of file Geocentric.hpp.

◆ _e4a

real GeographicLib::Geocentric::_e4a
private

Definition at line 78 of file Geocentric.hpp.

◆ _f

real GeographicLib::Geocentric::_f
private

Definition at line 78 of file Geocentric.hpp.

◆ _maxrad

real GeographicLib::Geocentric::_maxrad
private

Definition at line 78 of file Geocentric.hpp.

◆ dim2_

const size_t GeographicLib::Geocentric::dim2_ = dim_ * dim_
staticprivate

Definition at line 77 of file Geocentric.hpp.

◆ dim_

const size_t GeographicLib::Geocentric::dim_ = 3
staticprivate

Definition at line 76 of file Geocentric.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
gtsam::Y
GaussianFactorGraphValuePair Y
Definition: HybridGaussianProductFactor.cpp:29
X
#define X
Definition: icosphere.cpp:20
h
const double h
Definition: testSimpleHelicopter.cpp:19
main
int main(int argc, char **argv)
Definition: cmake/example_cmake_find_gtsam/main.cpp:63
GeographicLib::Geocentric
Geocentric coordinates
Definition: Geocentric.hpp:67
Geocentric.hpp
Header for GeographicLib::Geocentric class.
GeographicLib::Constants::WGS84_a
static T WGS84_a()
Definition: Constants.hpp:159
std
Definition: BFloat16.h:88
GeographicLib::Constants::WGS84_f
static T WGS84_f()
Definition: Constants.hpp:169
lon
static const double lon
Definition: testGeographicLib.cpp:34
Z
#define Z
Definition: icosphere.cpp:21
floor
const EIGEN_DEVICE_FUNC FloorReturnType floor() const
Definition: ArrayCwiseUnaryOps.h:481
lat
static const double lat
Definition: testGeographicLib.cpp:34


gtsam
Author(s):
autogenerated on Sat Nov 16 2024 04:15:06