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/**
* \file NETGeographicLib/AzimuthalEquidistant.cpp
* \brief Implementation for NETGeographicLib::AzimuthalEquidistant class
*
* NETGeographicLib is copyright (c) Scott Heiman (2013)
* GeographicLib is Copyright (c) Charles Karney (2010-2012)
* <charles@karney.com> and licensed under the MIT/X11 License.
* For more information, see
* http://geographiclib.sourceforge.net/
**********************************************************************/
#include "stdafx.h"
#include "GeographicLib/AzimuthalEquidistant.hpp"
#include "AzimuthalEquidistant.h"
#include "NETGeographicLib.h"
using namespace NETGeographicLib;
const char BADALLOC[] = "Failed to allocate memory for a GeographicLib::AzimuthalEquidistant";
//*****************************************************************************
AzimuthalEquidistant::!AzimuthalEquidistant()
{
if ( m_pAzimuthalEquidistant != NULL )
{
delete m_pAzimuthalEquidistant;
m_pAzimuthalEquidistant = NULL;
}
}
//*****************************************************************************
AzimuthalEquidistant::AzimuthalEquidistant(void)
{
try
{
m_pAzimuthalEquidistant = new GeographicLib::AzimuthalEquidistant( GeographicLib::Geodesic::WGS84() );
}
catch ( std::bad_alloc )
{
throw gcnew GeographicErr( BADALLOC );
}
}
//*****************************************************************************
AzimuthalEquidistant::AzimuthalEquidistant( Geodesic^ g )
{
try
{
const GeographicLib::Geodesic* pGeodesic =
reinterpret_cast<const GeographicLib::Geodesic*>(
g->GetUnmanaged()->ToPointer() );
m_pAzimuthalEquidistant = new GeographicLib::AzimuthalEquidistant( *pGeodesic );
}
catch ( std::bad_alloc )
{
throw gcnew GeographicErr( BADALLOC );
}
}
//*****************************************************************************
void AzimuthalEquidistant::Forward(double lat0, double lon0, double lat, double lon,
double% x, double% y, double% azi, double% rk)
{
double lx, ly, lazi, lrk;
m_pAzimuthalEquidistant->Forward( lat0, lon0, lat, lon,
lx, ly, lazi, lrk );
x = lx;
y = ly;
azi = lazi;
rk = lrk;
}
//*****************************************************************************
void AzimuthalEquidistant::Reverse(double lat0, double lon0, double x, double y,
double% lat, double% lon, double% azi, double% rk)
{
double llat, llon, lazi, lrk;
m_pAzimuthalEquidistant->Reverse(lat0, lon0, x, y,
llat, llon, lazi, lrk);
lat = llat;
lon = llon;
azi = lazi;
rk = lrk;
}
//*****************************************************************************
void AzimuthalEquidistant::Forward(double lat0, double lon0, double lat, double lon,
double% x, double% y)
{
double azi, rk, lx, ly;
m_pAzimuthalEquidistant->Forward(lat0, lon0, lat, lon, lx, ly, azi, rk);
x = lx;
y = ly;
}
//*****************************************************************************
void AzimuthalEquidistant::Reverse(double lat0, double lon0, double x, double y,
double% lat, double% lon)
{
double azi, rk, llat, llon;
m_pAzimuthalEquidistant->Reverse(lat0, lon0, x, y, llat, llon, azi, rk);
lat = llat;
lon = llon;
}
//*****************************************************************************
double AzimuthalEquidistant::MajorRadius::get()
{ return m_pAzimuthalEquidistant->MajorRadius(); }
//*****************************************************************************
double AzimuthalEquidistant::Flattening::get()
{ return m_pAzimuthalEquidistant->Flattening(); }
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