/usr/include/ossim/projection/ossimTransCylEquAreaProjection.h is in libossim-dev 1.7.21-3ubuntu2.
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//
// License: See top level LICENSE.txt file.
//
// Author: Garrett Potts (gpotts@imagelinks.com)
//
// Description:
//
// Calls Geotrans Transverse Cylindrical Equal Area
// projection code.
//*******************************************************************
// $Id: ossimTransCylEquAreaProjection.h 9968 2006-11-29 14:01:53Z gpotts $
#ifndef ossimTransCylEquAreaProjection_HEADER
#define ossimTransCylEquAreaProjection_HEADER
#include <ossim/projection/ossimMapProjection.h>
class ossimTransCylEquAreaProjection : public ossimMapProjection
{
public:
ossimTransCylEquAreaProjection(const ossimEllipsoid& ellipsoid = ossimEllipsoid(6378137, 6356752.3142),
const ossimGpt& origin = ossimGpt());
ossimTransCylEquAreaProjection(const ossimEllipsoid& ellipsoid,
const ossimGpt& origin,
double falseEasting,
double falseNorthing,
double scaleFactor);
~ossimTransCylEquAreaProjection(){}
virtual ossimObject *dup()const{return new ossimTransCylEquAreaProjection(*this);}
virtual ossimGpt inverse(const ossimDpt &eastingNorthing)const;
virtual ossimDpt forward(const ossimGpt &latLon)const;
virtual void update();
/*!
* SetFalseEasting. The value is in meters.
* Update is then called so we can pre-compute paramters
*/
void setFalseEasting(double falseEasting);
/*!
* SetFalseNorthing. The value is in meters.
* Update is then called so we can pre-compute paramters
*/
void setFalseNorthing(double falseNorthing);
/*
* Set's scale and then update.
*/
void setScaleFactor(double scaleFactor);
/*!
* Sets both false easting and northing values. The values are
* expected to be in meters.
* Update is then called so we can pre-compute paramters
*/
void setFalseEastingNorthing(double falseEasting, double falseNorthing);
void setParameters(double falseEasting,
double falseNorthing,
double scaleFactor);
void setDefaults();
double getFalseEasting()const{return Tcea_False_Easting;}
double getFalseNorthing()const{return Tcea_False_Northing;}
double getScaleFactor()const{return Tcea_Scale_Factor;}
/*!
* Method to save the state of an object to a keyword list.
* Return true if ok or false on error.
*/
virtual bool saveState(ossimKeywordlist& kwl,
const char* prefix=0)const;
/*!
* Method to the load (recreate) the state of an object from a keyword
* list. Return true if ok or false on error.
*/
virtual bool loadState(const ossimKeywordlist& kwl,
const char* prefix=0);
private:
mutable double Tcea_a; /* Semi-major axis of ellipsoid in meters */
mutable double Tcea_f; /* Flattening of ellipsoid */
mutable double es2; /* Eccentricity (0.08181919084262188000) squared */
mutable double es4; /* es2 * es2 */
mutable double es6; /* es4 * es2 */
mutable double es; /* sqrt(es2) */
mutable double M0;
mutable double qp;
mutable double One_MINUS_es2; /* 1.0 - es2 */
mutable double One_OVER_2es; /* 1.0 / (2.0 * es) */
mutable double a0; /* es2 / 3.0 + 31.0 * es4 / 180.0 + 517.0 * es6 / 5040.0 */
mutable double a1; /* 23.0 * es4 / 360.0 + 251.0 * es6 / 3780.0 */
mutable double a2; /* 761.0 * es6 / 45360.0 */
mutable double b0; /* 3.0 * e1 / 2.0 - 27.0 * e3 / 32.0 */
mutable double b1; /* 21.0 * e2 / 16.0 - 55.0 * e4 / 32.0 */
mutable double b2; /* 151.0 * e3 / 96.0 */
mutable double b3; /* 1097.0 * e4 / 512.0 */
mutable double c0;/* 1.0 - es2 / 4.0 - 3.0 * es4 / 64.0 - 5.0 * es6 / 256.0 */
mutable double c1;/* 3.0 * es2 / 8.0 + 3.0 * es4 / 32.0 + 45.0 * es6 / 1024.0 */
mutable double c2; /* 15.0 * es4 / 256.0 + 45.0 * es6 / 1024.0 */
mutable double c3; /* 35.0 * es6 / 3072.0 */
/* Transverse Cylindrical Equal Area projection Parameters */
mutable double Tcea_Origin_Lat; /* Latitude of origin in radians */
mutable double Tcea_Origin_Long; /* Longitude of origin in radians */
mutable double Tcea_False_Northing; /* False northing in meters */
mutable double Tcea_False_Easting; /* False easting in meters */
mutable double Tcea_Scale_Factor; /* Scale factor */
/* Maximum variance for easting and northing values for WGS 84.
*/
mutable double Tcea_Min_Easting;
mutable double Tcea_Max_Easting;
mutable double Tcea_Min_Northing;
mutable double Tcea_Max_Northing;
/*
* The function Set_Trans_Cyl_Eq_Area_Parameters receives the ellipsoid parameters and
* Transverse Cylindrical Equal Area projcetion parameters as inputs, and sets the corresponding
* state variables. If any errors occur, the error code(s) are returned by the function,
* otherwise TCEA_NO_ERROR is returned.
*
* a : Semi-major axis of ellipsoid, in meters (input)
* f : Flattening of ellipsoid (input)
* Origin_Latitude : Latitude in radians at which the (input)
* point scale factor is 1.0
* Central_Meridian : Longitude in radians at the center of (input)
* the projection
* False_Easting : A coordinate value in meters assigned to the
* central meridian of the projection. (input)
* False_Northing : A coordinate value in meters assigned to the
* origin latitude of the projection (input)
* Scale_Factor : Multiplier which reduces distances in the
* projection to the actual distance on the
* ellipsoid (input)
*/
long Set_Trans_Cyl_Eq_Area_Parameters(double a,
double f,
double Origin_Latitude,
double Central_Meridian,
double False_Easting,
double False_Northing,
double Scale_Factor);
/*!
* The function Get_Trans_Cyl_Eq_Area_Parameters returns the current ellipsoid
* parameters, Transverse Cylindrical Equal Area projection parameters, and scale factor.
*
* a : Semi-major axis of ellipsoid, in meters (output)
* f : Flattening of ellipsoid (output)
* Origin_Latitude : Latitude in radians at which the (output)
* point scale factor is 1.0
* Central_Meridian : Longitude in radians at the center of (output)
* the projection
* False_Easting : A coordinate value in meters assigned to the
* central meridian of the projection. (output)
* False_Northing : A coordinate value in meters assigned to the
* origin latitude of the projection (output)
* Scale_Factor : Multiplier which reduces distances in the
* projection to the actual distance on the
* ellipsoid (output)
*/
void Get_Trans_Cyl_Eq_Area_Parameters(double *a,
double *f,
double *Origin_Latitude,
double *Central_Meridian,
double *False_Easting,
double *False_Northing,
double *Scale_Factor)const;
/*!
* The function Convert_Geodetic_To_Trans_Cyl_Eq_Area converts geodetic (latitude and
* longitude) coordinates to Transverse Cylindrical Equal Area projection easting, and northing
* coordinates, according to the current ellipsoid and Transverse Cylindrical Equal Area projection
* parameters. If any errors occur, the error code(s) are returned by the
* function, otherwise TCEA_NO_ERROR is returned.
*
* Latitude : Latitude (phi) in radians (input)
* Longitude : Longitude (lambda) in radians (input)
* Easting : Easting (X) in meters (output)
* Northing : Northing (Y) in meters (output)
*/
long Convert_Geodetic_To_Trans_Cyl_Eq_Area (double Latitude,
double Longitude,
double *Easting,
double *Northing)const;
/*!
* The function Convert_Trans_Cyl_Eq_Area_To_Geodetic converts Transverse Cylindrical Equal Area
* projection easting and northing coordinates to geodetic (latitude and longitude) coordinates.
* coordinates, according to the current ellipsoid and Transverse Cylindrical Equal Area projection
* If any errors occur, the error code(s) are returned by the function, otherwise TCEA_NO_ERROR
* is returned.
*
* Easting : Easting (X) in meters (input)
* Northing : Northing (Y) in meters (input)
* Latitude : Latitude (phi) in radians (output)
* Longitude : Longitude (lambda) in radians (output)
*/
long Convert_Trans_Cyl_Eq_Area_To_Geodetic(double Easting,
double Northing,
double *Latitude,
double *Longitude)const;
TYPE_DATA
};
#endif
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