.NET wrapper for GeographicLib::GravityModel. More...
#include <GravityModel.h>
Public Types | |
enum | Mask { Mask::NONE, Mask::GRAVITY, Mask::DISTURBANCE, Mask::DISTURBING_POTENTIAL, Mask::SPHERICAL_ANOMALY, Mask::GEOID_HEIGHT, Mask::ALL } |
Public Member Functions | |
~GravityModel () | |
Setting up the gravity model | |
GravityModel (System::String^ name, System::String^ path) | |
Compute gravity in geodetic coordinates | |
double | Gravity (double lat, double lon, double h, [System::Runtime::InteropServices::Out] double% gx, [System::Runtime::InteropServices::Out] double% gy, [System::Runtime::InteropServices::Out] double% gz) |
double | Disturbance (double lat, double lon, double h, [System::Runtime::InteropServices::Out] double% deltax, [System::Runtime::InteropServices::Out] double% deltay, [System::Runtime::InteropServices::Out] double% deltaz) |
double | GeoidHeight (double lat, double lon) |
void | SphericalAnomaly (double lat, double lon, double h, [System::Runtime::InteropServices::Out] double% Dg01, [System::Runtime::InteropServices::Out] double% xi, [System::Runtime::InteropServices::Out] double% eta) |
Compute gravity in geocentric coordinates | |
double | W (double X, double Y, double Z, [System::Runtime::InteropServices::Out] double% gX, [System::Runtime::InteropServices::Out] double% gY, [System::Runtime::InteropServices::Out] double% gZ) |
double | V (double X, double Y, double Z, [System::Runtime::InteropServices::Out] double% GX, [System::Runtime::InteropServices::Out] double% GY, [System::Runtime::InteropServices::Out] double% GZ) |
double | T (double X, double Y, double Z, [System::Runtime::InteropServices::Out] double% deltaX, [System::Runtime::InteropServices::Out] double% deltaY, [System::Runtime::InteropServices::Out] double% deltaZ) |
double | T (double X, double Y, double Z) |
double | U (double X, double Y, double Z, [System::Runtime::InteropServices::Out] double% gammaX, [System::Runtime::InteropServices::Out] double% gammaY, [System::Runtime::InteropServices::Out] double% gammaZ) |
double | Phi (double X, double Y, [System::Runtime::InteropServices::Out] double% fX, [System::Runtime::InteropServices::Out] double% fY) |
Compute gravity on a circle of constant latitude | |
GravityCircle | Circle (double lat, double h, Mask caps) |
Static Public Member Functions | |
static System::String | DefaultGravityName () |
static System::String | DefaultGravityPath () |
Private Types | |
enum | CapType { CapType::CAP_NONE = 0U, CapType::CAP_G = 1U<<0, CapType::CAP_T = 1U<<1, CapType::CAP_DELTA = 1U<<2 | CapType::CAP_T, CapType::CAP_C = 1U<<3, CapType::CAP_GAMMA0 = 1U<<4, CapType::CAP_GAMMA = 1U<<5, CapType::CAP_ALL = 0x3FU } |
Private Member Functions | |
!GravityModel (void) | |
Private Attributes | |
const GeographicLib::GravityModel * | m_pGravityModel |
Inspector functions | |
property System::String | Description { System::String^ get() |
property System::String | DateTime { System::String^ get() |
property System::String | GravityFile { System::String^ get() |
property System::String | GravityModelName { System::String^ get() |
property System::String | GravityModelDirectory { System::String^ get() |
property double | MajorRadius { double get() |
property double | MassConstant { double get() |
property double | ReferenceMassConstant { double get() |
property double | AngularVelocity { double get() |
property double | Flattening { double get() |
NormalGravity | ReferenceEllipsoid () |
.NET wrapper for GeographicLib::GravityModel.
This class allows .NET applications to access GeographicLib::GravityModel.
Evaluate the earth's gravity field according to a model. The supported models treat only the gravitational field exterior to the mass of the earth. When computing the field at points near (but above) the surface of the earth a small correction can be applied to account for the mass of the atomsphere above the point in question; see gravityatmos. Determining the geoid height entails correcting for the mass of the earth above the geoid. The egm96 and egm2008 include separate correction terms to account for this mass.
Definitions and terminology (from Heiskanen and Moritz, Sec 2-13):
See gravity for details of how to install the gravity model and the data format.
References:
C# Example:
Managed C++ Example:
Visual Basic Example:
INTERFACE DIFFERENCES:
The following functions are implemented as properties: Description, DateTime, GravityFile, GravityModelName, GravityModelDirectory, MajorRadius, MassConstant, ReferenceMassConstant, AngularVelocity, and Flattening.
The Circle function accepts the "capabilities mask" as a NETGeographicLib::GravityModel::Mask rather than an unsigned.
Definition at line 83 of file GravityModel.h.
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strongprivate |
Enumerator | |
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CAP_NONE | |
CAP_G | |
CAP_T | |
CAP_DELTA | |
CAP_C | |
CAP_GAMMA0 | |
CAP_GAMMA | |
CAP_ALL |
Definition at line 92 of file GravityModel.h.
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strong |
Bit masks for the capabilities to be given to the GravityCircle object produced by Circle.
Enumerator | |
---|---|
NONE | No capabilities. |
GRAVITY | Allow calls to GravityCircle::Gravity, GravityCircle::W, and GravityCircle::V. |
DISTURBANCE | Allow calls to GravityCircle::Disturbance and GravityCircle::T. |
DISTURBING_POTENTIAL | Allow calls to GravityCircle::T(double lon) (i.e., computing the disturbing potential and not the gravity disturbance vector). |
SPHERICAL_ANOMALY | Allow calls to GravityCircle::SphericalAnomaly. |
GEOID_HEIGHT | Allow calls to GravityCircle::GeoidHeight. |
ALL | All capabilities. |
Definition at line 109 of file GravityModel.h.
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private |
Definition at line 22 of file dotnet/NETGeographicLib/GravityModel.cpp.
GravityModel::GravityModel | ( | System::String^ | name, |
System::String^ | path | ||
) |
Construct a gravity model.
[in] | name | the name of the model. |
[in] | path | (optional) directory for data file. |
GeographicErr | if the data file cannot be found, is unreadable, or is corrupt. |
std::bad_alloc | if the memory necessary for storing the model can't be allocated. |
A filename is formed by appending ".egm" (World Gravity Model) to the name. If path is specified (and is non-empty), then the file is loaded from directory, path. Otherwise the path is given by DefaultGravityPath().
This file contains the metadata which specifies the properties of the model. The coefficients for the spherical harmonic sums are obtained from a file obtained by appending ".cof" to metadata file (so the filename ends in ".egm.cof").
Definition at line 32 of file dotnet/NETGeographicLib/GravityModel.cpp.
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inline |
The destructor calls the finalizer.
Definition at line 177 of file GravityModel.h.
GravityCircle GravityModel::Circle | ( | double | lat, |
double | h, | ||
Mask | caps | ||
) |
Create a GravityCircle object to allow the gravity field at many points with constant lat and h and varying lon to be computed efficiently.
[in] | lat | latitude of the point (degrees). |
[in] | h | the height of the point above the ellipsoid (meters). |
[in] | caps | bitor'ed combination of GravityModel::mask values specifying the capabilities of the resulting GravityCircle object. |
std::bad_alloc | if the memory necessary for creating a GravityCircle can't be allocated. |
The GravityModel::mask values are
The default value of caps is GravityModel::ALL which turns on all the capabilities. If an unsupported function is invoked, it will return NaNs. Note that GravityModel::GEOID_HEIGHT will only be honored if h = 0.
If the field at several points on a circle of latitude need to be calculated then creating a GravityCircle object and using its member functions will be substantially faster, especially for high-degree models. See gravityparallel for an example of using GravityCircle (together with OpenMP) to speed up the computation of geoid heights.
Definition at line 174 of file dotnet/NETGeographicLib/GravityModel.cpp.
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static |
This is the value of the environment variable GEOGRAPHICLIB_GRAVITY_NAME, if set, otherwise, it is "egm96". The GravityModel class does not use this function; it is just provided as a convenience for a calling program when constructing a GravityModel object.
Definition at line 230 of file dotnet/NETGeographicLib/GravityModel.cpp.
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static |
This is the value of the environment variable GEOGRAPHICLIB_GRAVITY_PATH, if set; otherwise, it is $GEOGRAPHICLIB_DATA/gravity if the environment variable GEOGRAPHICLIB_DATA is set; otherwise, it is a compile-time default (/usr/local/share/GeographicLib/gravity on non-Windows systems and C:/ProgramData/GeographicLib/gravity on Windows systems).
Definition at line 217 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::Disturbance | ( | double | lat, |
double | lon, | ||
double | h, | ||
[System::Runtime::InteropServices::Out] double% | deltax, | ||
[System::Runtime::InteropServices::Out] double% | deltay, | ||
[System::Runtime::InteropServices::Out] double% | deltaz | ||
) |
Evaluate the gravity disturbance vector at an arbitrary point above (or below) the ellipsoid.
[in] | lat | the geographic latitude (degrees). |
[in] | lon | the geographic longitude (degrees). |
[in] | h | the height above the ellipsoid (meters). |
[out] | deltax | the easterly component of the disturbance vector (m s−2). |
[out] | deltay | the northerly component of the disturbance vector (m s−2). |
[out] | deltaz | the upward component of the disturbance vector (m s−2). |
Definition at line 67 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::GeoidHeight | ( | double | lat, |
double | lon | ||
) |
Evaluate the geoid height.
[in] | lat | the geographic latitude (degrees). |
[in] | lon | the geographic longitude (degrees). |
This calls NormalGravity::U for ReferenceEllipsoid(). Some approximations are made in computing the geoid height so that the results of the NGA codes are reproduced accurately. Details are given in gravitygeoid.
Definition at line 81 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::Gravity | ( | double | lat, |
double | lon, | ||
double | h, | ||
[System::Runtime::InteropServices::Out] double% | gx, | ||
[System::Runtime::InteropServices::Out] double% | gy, | ||
[System::Runtime::InteropServices::Out] double% | gz | ||
) |
Evaluate the gravity at an arbitrary point above (or below) the ellipsoid.
[in] | lat | the geographic latitude (degrees). |
[in] | lon | the geographic longitude (degrees). |
[in] | h | the height above the ellipsoid (meters). |
[out] | gx | the easterly component of the acceleration (m s−2). |
[out] | gy | the northerly component of the acceleration (m s−2). |
[out] | gz | the upward component of the acceleration (m s−2); this is usually negative. |
The function includes the effects of the earth's rotation.
Definition at line 53 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::Phi | ( | double | X, |
double | Y, | ||
[System::Runtime::InteropServices::Out] double% | fX, | ||
[System::Runtime::InteropServices::Out] double% | fY | ||
) |
Evaluate the centrifugal acceleration in geocentric coordinates.
[in] | X | geocentric coordinate of point (meters). |
[in] | Y | geocentric coordinate of point (meters). |
[out] | fX | the X component of the centrifugal acceleration (m s−2). |
[out] | fY | the Y component of the centrifugal acceleration (m s−2). |
This calls NormalGravity::Phi for ReferenceEllipsoid().
Definition at line 162 of file dotnet/NETGeographicLib/GravityModel.cpp.
NormalGravity GravityModel::ReferenceEllipsoid | ( | ) |
Definition at line 243 of file dotnet/NETGeographicLib/GravityModel.cpp.
void GravityModel::SphericalAnomaly | ( | double | lat, |
double | lon, | ||
double | h, | ||
[System::Runtime::InteropServices::Out] double% | Dg01, | ||
[System::Runtime::InteropServices::Out] double% | xi, | ||
[System::Runtime::InteropServices::Out] double% | eta | ||
) |
Evaluate the components of the gravity anomaly vector using the spherical approximation.
[in] | lat | the geographic latitude (degrees). |
[in] | lon | the geographic longitude (degrees). |
[in] | h | the height above the ellipsoid (meters). |
[out] | Dg01 | the gravity anomaly (m s−2). |
[out] | xi | the northerly component of the deflection of the vertical (degrees). |
[out] | eta | the easterly component of the deflection of the vertical (degrees). |
The spherical approximation (see Heiskanen and Moritz, Sec 2-14) is used so that the results of the NGA codes are reproduced accurately. approximations used here. Details are given in gravitygeoid.
Definition at line 87 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::T | ( | double | X, |
double | Y, | ||
double | Z | ||
) |
Evaluate disturbing potential in geocentric coordinates.
[in] | X | geocentric coordinate of point (meters). |
[in] | Y | geocentric coordinate of point (meters). |
[in] | Z | geocentric coordinate of point (meters). |
Definition at line 142 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::T | ( | double | X, |
double | Y, | ||
double | Z, | ||
[System::Runtime::InteropServices::Out] double% | deltaX, | ||
[System::Runtime::InteropServices::Out] double% | deltaY, | ||
[System::Runtime::InteropServices::Out] double% | deltaZ | ||
) |
Evaluate the components of the gravity disturbance in geocentric coordinates.
[in] | X | geocentric coordinate of point (meters). |
[in] | Y | geocentric coordinate of point (meters). |
[in] | Z | geocentric coordinate of point (meters). |
[out] | deltaX | the X component of the gravity disturbance (m s−2). |
[out] | deltaY | the Y component of the gravity disturbance (m s−2). |
[out] | deltaZ | the Z component of the gravity disturbance (m s−2). |
Definition at line 128 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::U | ( | double | X, |
double | Y, | ||
double | Z, | ||
[System::Runtime::InteropServices::Out] double% | gammaX, | ||
[System::Runtime::InteropServices::Out] double% | gammaY, | ||
[System::Runtime::InteropServices::Out] double% | gammaZ | ||
) |
Evaluate the components of the acceleration due to normal gravity and the centrifugal acceleration in geocentric coordinates.
[in] | X | geocentric coordinate of point (meters). |
[in] | Y | geocentric coordinate of point (meters). |
[in] | Z | geocentric coordinate of point (meters). |
[out] | gammaX | the X component of the normal acceleration (m s−2). |
[out] | gammaY | the Y component of the normal acceleration (m s−2). |
[out] | gammaZ | the Z component of the normal acceleration (m s−2). |
This calls NormalGravity::U for ReferenceEllipsoid().
Definition at line 148 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::V | ( | double | X, |
double | Y, | ||
double | Z, | ||
[System::Runtime::InteropServices::Out] double% | GX, | ||
[System::Runtime::InteropServices::Out] double% | GY, | ||
[System::Runtime::InteropServices::Out] double% | GZ | ||
) |
Evaluate the components of the acceleration due to gravity in geocentric coordinates.
[in] | X | geocentric coordinate of point (meters). |
[in] | Y | geocentric coordinate of point (meters). |
[in] | Z | geocentric coordinate of point (meters). |
[out] | GX | the X component of the acceleration (m s−2). |
[out] | GY | the Y component of the acceleration (m s−2). |
[out] | GZ | the Z component of the acceleration (m s−2). |
Definition at line 114 of file dotnet/NETGeographicLib/GravityModel.cpp.
double GravityModel::W | ( | double | X, |
double | Y, | ||
double | Z, | ||
[System::Runtime::InteropServices::Out] double% | gX, | ||
[System::Runtime::InteropServices::Out] double% | gY, | ||
[System::Runtime::InteropServices::Out] double% | gZ | ||
) |
Evaluate the components of the acceleration due to gravity and the centrifugal acceleration in geocentric coordinates.
[in] | X | geocentric coordinate of point (meters). |
[in] | Y | geocentric coordinate of point (meters). |
[in] | Z | geocentric coordinate of point (meters). |
[out] | gX | the X component of the acceleration (m s−2). |
[out] | gY | the Y component of the acceleration (m s−2). |
[out] | gZ | the Z component of the acceleration (m s−2). |
This calls NormalGravity::U for ReferenceEllipsoid().
Definition at line 100 of file dotnet/NETGeographicLib/GravityModel.cpp.
property double NETGeographicLib::GravityModel::AngularVelocity { double get() |
Definition at line 483 of file GravityModel.h.
property System::String NETGeographicLib::GravityModel::DateTime { System::String^ get() |
Definition at line 441 of file GravityModel.h.
property System::String NETGeographicLib::GravityModel::Description { System::String^ get() |
Definition at line 436 of file GravityModel.h.
property double NETGeographicLib::GravityModel::Flattening { double get() |
Definition at line 488 of file GravityModel.h.
property System::String NETGeographicLib::GravityModel::GravityFile { System::String^ get() |
Definition at line 446 of file GravityModel.h.
property System::String NETGeographicLib::GravityModel::GravityModelDirectory { System::String^ get() |
Definition at line 458 of file GravityModel.h.
property System::String NETGeographicLib::GravityModel::GravityModelName { System::String^ get() |
Definition at line 452 of file GravityModel.h.
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private |
Definition at line 87 of file GravityModel.h.
property double NETGeographicLib::GravityModel::MajorRadius { double get() |
Definition at line 463 of file GravityModel.h.
property double NETGeographicLib::GravityModel::MassConstant { double get() |
Definition at line 471 of file GravityModel.h.
property double NETGeographicLib::GravityModel::ReferenceMassConstant { double get() |
Definition at line 477 of file GravityModel.h.