/usr/include/terralib/kernel/TeDatum.h is in libterralib-dev 4.3.0+dfsg.2-10.
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TerraLib - a library for developing GIS applications.
Copyright 2001-2007 INPE and Tecgraf/PUC-Rio.
This code is part of the TerraLib library.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
You should have received a copy of the GNU Lesser General Public
License along with this library.
The authors reassure the license terms regarding the warranties.
They specifically disclaim any warranties, including, but not limited to,
the implied warranties of merchantability and fitness for a particular purpose.
The library provided hereunder is on an "as is" basis, and the authors have no
obligation to provide maintenance, support, updates, enhancements, or modifications.
In no event shall INPE and Tecgraf / PUC-Rio be held liable to any party for direct,
indirect, special, incidental, or consequential damages arising out of the use
of this library and its documentation.
*************************************************************************************/
/*! \file TeDatum.h
\brief This file contains structures and definitions to support the concept of a planimetric datum
*/
#ifndef __TERRALIB_INTERNAL_DATUM_H
#define __TERRALIB_INTERNAL_DATUM_H
#include <string>
#include "TeUtils.h"
//! Number of supported datum in TerraLib
const int NUM_DATUM = 11;
TL_DLL const char** TeGetDatumList();
//! Implements valid Datum options and related parameters which account for different earth spheroids.
/*! Specifies planimetric TeDatum parameters to be used for defining geodetic
coordinates, which are necessary to establish a map projection system.
It encapsulates the following important information regarding
a planimetric Datum such as:
\li Datum name;
\li Earth equatorial radius;
\li Earth flatenning;
\li Datum shifts.
\author
Ubirajara Freitas, Julio d'Alge.
\sa TeDatumFactory
*/
class TL_DLL TeDatum
{
private:
std::string name_; //!< Planimetric TeDatum name
double rd_, //!< Earth equatorial radius (m)
flt_; //!< Earth flattening
public:
double dx_, //!< TeDatum shift along x axis (m)
dy_, //!< TeDatum shift along y axis (m)
dz_; //!< TeDatum shift along z axis (m)
//! Constructor.
TeDatum ( std::string name = "Spherical", double rd = 6.371000e+06 , double flt = 0.,
double dx = 0., double dy= 0., double dz = 0.):
name_ ( name ),
rd_ ( rd ),
flt_ ( flt ),
dx_ ( dx ),
dy_ ( dy ),
dz_ ( dz )
{ }
//! Copy constructor
TeDatum(const TeDatum& other);
//! Operator =
TeDatum& operator=(const TeDatum& rhs);
//! Destructor.
~TeDatum () {}
//! Returns the datum name
std::string name() const
{ return name_;}
//! Sets the datum name
void name(const std::string& name)
{ name_ = name; }
//! Returns Earth equatorial radius (m)
double radius() const
{ return rd_; }
//! Sets Earth equatorial radius (m)
void radius(const double rd)
{ rd_ = rd; }
//! Returns the Earth equatorial radius (m) (m)
double flattening() const
{ return flt_; }
//! Sets the Earth equatorial radius (m) (m)
void flattening(const double flt)
{ flt_ = flt; }
//! Returns the shift along x axis (m)
double xShift() const
{ return dx_; }
//! Returns the shift along y axis (m)
double yShift() const
{ return dy_; }
//! Returns the shift along z axis (m)
double zShift() const
{ return dz_; }
//! Verifies if current TeDatum is equal to TeDatum& dat.
bool operator== (const TeDatum& dat) const
{
return (TeFPEquals(rd_,dat.rd_,0.0000000001)
&& TeFPEquals(flt_,dat.flt_,0.0000000001)
&& TeFPEquals(dx_,dat.dx_,0.0000000001)
&& TeFPEquals(dy_,dat.dy_,0.0000000001)
&& TeFPEquals(dz_,dat.dz_,0.0000000001));
}
//! Returns the Datum description in PROJ4 format
string getProj4Description();
//! Returns the Datum description in WKT format
string getWKTDescription();
};
//! Produces a Datum accordingly to an specified name
class TL_DLL TeDatumFactory
{
public:
//! Builds a datum from a TerraLib name
static TeDatum make ( const std::string& name );
//! Builds a datum from its EPSG code
static TeDatum makeFromEPSGCode(const std::string epsgCode);
//! Builds a datum from its OGC's WKT description
static TeDatum makeFromWKT(const std::string wktDatumDescription);
};
/*!
\fn findDatum(double semiMajor, double flatenning, TeDatum& datum)
\brief Tries to find the a TeDatum according to givem semi major axis and earth flattening
*/
TL_DLL bool findDatum(double semiMajor, double flatenning, TeDatum& datum);
#endif
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