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|
/*
*+
* Name:
* palOne2One
* Purpose:
* File containing simple PAL wrappers for SLA routines that are identical in SOFA
* Invocation:
* Matches SLA API
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Description:
* Some SOFA/ERFA routines are identical to their SLA counterparts. PAL provides
* direct counterparts to these although it is generally a better idea to
* use the SOFA/ERFA routine directly in new code.
*
* The PAL routines with direct equivalents in SOFA/ERFA are:
* - palCldj
* - palDbear
* - palDaf2r
* - palDav2m
* - palDcc2s
* - palDcs2c
* - palDd2tf
* - palDimxv
* - palDm2av
* - palDjcl
* - palDmxm
* - palDmxv
* - palDpav
* - palDr2af
* - palDr2tf
* - palDranrm
* - palDsep
* - palDsepv
* - palDtf2d
* - palDtf2r
* - palDvdv
* - palDvn
* - palDvxv
* - palEpb
* - palEpb2d
* - palEpj
* - palEpj2d
* - palEqeqx
* - palFk5hz
* - palGmst
* - palGmsta
* - palHfk5z
* - palRefcoq
* Authors:
* TIMJ: Tim Jenness (JAC, Hawaii)
* DSB: David S Berry (JAC, Hawaii)
* {enter_new_authors_here}
* Notes:
* - Do not call these functions from other PAL functions. Always use
* the SOFA/ERFA routines directly in new code.
* - These are implemented as real functions rather than C preprocessor
* macros so there may be a performance penalty in using the PAL
* version instead of the SOFA/ERFA version.
* - Routines that take MJDs have SOFA/ERFA equivalents that have an explicit
* MJD offset included.
* - palEqeqx, palGmst and palGmsta use the IAU 2006 precession model.
* History:
* 2012-02-10 (TIMJ):
* Initial version
* Adapted with permission from the Fortran SLALIB library.
* 2012-03-23 (TIMJ):
* Update prologue.
* 2012-05-09 (DSBJ):
* Move palDrange into a separate file.
* 2014-07-15 (TIMJ):
* SOFA now has palRefcoq equivalent.
* {enter_further_changes_here}
* Copyright:
* Copyright (C) 2014 Tim Jenness
* Copyright (C) 2012 Science and Technology Facilities Council.
* All Rights Reserved.
* Licence:
* This program 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 3 of the License, or (at your option) any later
* version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
* License along with this program. If not, see
* <http://www.gnu.org/licenses/>.
* Bugs:
* {note_any_bugs_here}
*-
*/
#include "pal.h"
#include "palmac.h"
#include "pal1sofa.h"
/*
*+
* Name:
* palCldj
* Purpose:
* Gregorian Calendar to Modified Julian Date
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palCldj( int iy, int im, int id, double *djm, int *j );
* Arguments:
* iy = int (Given)
* Year in Gregorian calendar
* im = int (Given)
* Month in Gregorian calendar
* id = int (Given)
* Day in Gregorian calendar
* djm = double * (Returned)
* Modified Julian Date (JD-2400000.5) for 0 hrs
* j = int * (Returned)
* status: 0 = OK, 1 = bad year (MJD not computed),
* 2 = bad month (MJD not computed), 3 = bad day (MJD computed).
* Description:
* Gregorian calendar to Modified Julian Date.
* Notes:
* - Uses eraCal2jd(). See SOFA/ERFA documentation for details.
*-
*/
void palCldj ( int iy, int im, int id, double *djm, int *j ) {
double djm0;
*j = eraCal2jd( iy, im, id, &djm0, djm );
}
/*
*+
* Name:
* palDbear
* Purpose:
* Bearing (position angle) of one point on a sphere relative to another
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* pa = palDbear( double a1, double b1, double a2, double b2 );
* Arguments:
* a1 = double (Given)
* Longitude of point A (e.g. RA) in radians.
* a2 = double (Given)
* Latitude of point A (e.g. Dec) in radians.
* b1 = double (Given)
* Longitude of point B in radians.
* b2 = double (Given)
* Latitude of point B in radians.
* Returned Value:
* The result is the bearing (position angle), in radians, of point
* A2,B2 as seen from point A1,B1. It is in the range +/- pi. If
* A2,B2 is due east of A1,B1 the bearing is +pi/2. Zero is returned
* if the two points are coincident.
* Description:
* Bearing (position angle) of one point in a sphere relative to another.
* Notes:
* - Uses eraPas(). See SOFA/ERFA documentation for details.
*-
*/
double palDbear ( double a1, double b1, double a2, double b2 ) {
return eraPas( a1, b1, a2, b2 );
}
/*
*+
* Name:
* palDaf2r
* Purpose:
* Convert degrees, arcminutes, arcseconds to radians
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDaf2r( int ideg, int iamin, double asec, double *rad, int *j );
* Arguments:
* ideg = int (Given)
* Degrees.
* iamin = int (Given)
* Arcminutes.
* iasec = double (Given)
* Arcseconds.
* rad = double * (Returned)
* Angle in radians.
* j = int * (Returned)
* Status: 0 = OK, 1 = "ideg" out of range 0-359,
* 2 = "iamin" outside of range 0-59,
* 2 = "asec" outside range 0-59.99999
* Description:
* Convert degrees, arcminutes, arcseconds to radians.
* Notes:
* - Uses eraAf2a(). See SOFA/ERFA documentation for details.
*-
*/
/* Arguments differ slightly. Assumes that the sign is always positive
and dealt with externally. */
void palDaf2r ( int ideg, int iamin, double asec, double *rad, int *j ) {
*j = eraAf2a( ' ', ideg, iamin, asec, rad );
}
/*
*+
* Name:
* palDav2m
* Purpose:
* Form the rotation matrix corresponding to a given axial vector.
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDav2m( double axvec[3], double rmat[3][3] );
* Arguments:
* axvec = double [3] (Given)
* Axial vector (radians)
* rmat = double [3][3] (Returned)
* Rotation matrix.
* Description:
* A rotation matrix describes a rotation about some arbitrary axis,
* called the Euler axis. The "axial vector" supplied to this routine
* has the same direction as the Euler axis, and its magnitude is the
* amount of rotation in radians.
* Notes:
* - Uses eraRv2m(). See SOFA/ERFA documentation for details.
*-
*/
void palDav2m ( double axvec[3], double rmat[3][3] ) {
eraRv2m( axvec, rmat );
}
/*
*+
* Name:
* palDcc2s
* Purpose:
* Cartesian to spherical coordinates
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDcc2s( double v[3], double *a, double *b );
* Arguments:
* v = double [3] (Given)
* x, y, z vector.
* a = double * (Returned)
* Spherical coordinate (radians)
* b = double * (Returned)
* Spherical coordinate (radians)
* Description:
* The spherical coordinates are longitude (+ve anticlockwise looking
* from the +ve latitude pole) and latitude. The Cartesian coordinates
* are right handed, with the x axis at zero longitude and latitude, and
* the z axis at the +ve latitude pole.
* Notes:
* - Uses eraC2s(). See SOFA/ERFA documentation for details.
*-
*/
void palDcc2s ( double v[3], double *a, double *b ) {
eraC2s( v, a, b );
}
/*
*+
* Name:
* palDcs2c
* Purpose:
* Spherical coordinates to direction cosines
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDcs2c( double a, double b, double v[3] );
* Arguments:
* a = double (Given)
* Spherical coordinate in radians (ra, long etc).
* b = double (Given)
* Spherical coordinate in radians (dec, lat etc).
* v = double [3] (Returned)
* x, y, z vector
* Description:
* The spherical coordinates are longitude (+ve anticlockwise looking
* from the +ve latitude pole) and latitude. The Cartesian coordinates
* are right handed, with the x axis at zero longitude and latitude, and
* the z axis at the +ve latitude pole.
* Notes:
* - Uses eraS2c(). See SOFA/ERFA documentation for details.
*-
*/
void palDcs2c ( double a, double b, double v[3] ) {
eraS2c( a, b, v );
}
/*
*+
* Name:
* palDd2tf
* Purpose:
* Convert an interval in days into hours, minutes, seconds
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDd2tf( int ndp, double days, char *sign, int ihmsf[4] );
* Arguments:
* ndp = int (Given)
* Number of decimal places of seconds
* days = double (Given)
* Interval in days
* sign = char * (Returned)
* '+' or '-' (single character, not string)
* ihmsf = int [4] (Returned)
* Hours, minutes, seconds, fraction
* Description:
* Convert and interval in days into hours, minutes, seconds.
* Notes:
* - Uses eraD2tf(). See SOFA/ERFA documentation for details.
*-
*/
void palDd2tf ( int ndp, double days, char *sign, int ihmsf[4] ) {
eraD2tf( ndp, days, sign, ihmsf );
}
/*
*+
* Name:
* palDimxv
* Purpose:
* Perform the 3-D backward unitary transformation
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDimxv( double dm[3][3], double va[3], double vb[3] );
* Arguments:
* dm = double [3][3] (Given)
* Matrix
* va = double [3] (Given)
* vector
* vb = double [3] (Returned)
* Result vector
* Description:
* Perform the 3-D backward unitary transformation.
* Notes:
* - Uses eraTrxp(). See SOFA/ERFA documentation for details.
*-
*/
void palDimxv ( double dm[3][3], double va[3], double vb[3] ) {
eraTrxp( dm, va, vb );
}
/*
*+
* Name:
* palDm2av
* Purpose:
* From a rotation matrix, determine the corresponding axial vector
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDm2av( double rmat[3][3], double axvec[3] );
* Arguments:
* rmat = double [3][3] (Given)
* Rotation matrix
* axvec = double [3] (Returned)
* Axial vector (radians)
* Description:
* A rotation matrix describes a rotation about some arbitrary axis,
* called the Euler axis. The "axial vector" returned by this routine
* has the same direction as the Euler axis, and its magnitude is the
* amount of rotation in radians. (The magnitude and direction can be
* separated by means of the routine palDvn.)
* Notes:
* - Uses eraRm2v(). See SOFA/ERFA documentation for details.
*-
*/
void palDm2av ( double rmat[3][3], double axvec[3] ) {
eraRm2v( rmat, axvec );
}
/*
*+
* Name:
* palDjcl
* Purpose:
* Modified Julian Date to Gregorian year, month, day and fraction of day
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDjcl( double djm, int *iy, int *im, int *id, double *fd, int *j );
* Arguments:
* djm = double (Given)
* modified Julian Date (JD-2400000.5)
* iy = int * (Returned)
* year
* im = int * (Returned)
* month
* id = int * (Returned)
* day
* fd = double * (Returned)
* Fraction of day.
* Description:
* Modified Julian Date to Gregorian year, month, day and fraction of day.
* Notes:
* - Uses eraJd2cal(). See SOFA/ERFA documentation for details.
*-
*/
/* Requires additional SLA MJD reference date */
void palDjcl ( double djm, int *iy, int *im, int *id, double *fd, int *j ) {
*j = eraJd2cal( PAL__MJD0, djm, iy, im, id, fd );
}
/*
*+
* Name:
* palDmxm
* Purpose:
* Product of two 3x3 matrices
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDmxm( double a[3][3], double b[3][3], double c[3][3] );
* Arguments:
* a = double [3][3] (Given)
* Matrix
* b = double [3][3] (Given)
* Matrix
* c = double [3][3] (Returned)
* Matrix result
* Description:
* Product of two 3x3 matrices.
* Notes:
* - Uses eraRxr(). See SOFA/ERFA documentation for details.
*-
*/
void palDmxm ( double a[3][3], double b[3][3], double c[3][3] ) {
eraRxr( a, b, c );
}
/*
*+
* Name:
* palDmxv
* Purpose:
* Performs the 3-D forward unitary transformation
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDmxv( double dm[3][3], double va[3], double vb[3] );
* Arguments:
* dm = double [3][3] (Given)
* matrix
* va = double [3] (Given)
* vector
* dp = double [3] (Returned)
* result vector
* Description:
* Performs the 3-D forward unitary transformation.
* Notes:
* - Uses eraRxp(). See SOFA/ERFA documentation for details.
*-
*/
void palDmxv ( double dm[3][3], double va[3], double vb[3] ) {
eraRxp( dm, va, vb );
}
/*
*+
* Name:
* palDpav
* Purpose:
* Position angle of one celestial direction with respect to another
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* pa = palDpav( double v1[3], double v2[3] );
* Arguments:
* v1 = double [3] (Given)
* direction cosines of one point.
* v2 = double [3] (Given)
* direction cosines of the other point.
* Returned Value:
* The result is the bearing (position angle), in radians, of point
* V2 with respect to point V1. It is in the range +/- pi. The
* sense is such that if V2 is a small distance east of V1, the
* bearing is about +pi/2. Zero is returned if the two points
* are coincident.
* Description:
* Position angle of one celestial direction with respect to another.
* Notes:
* - The coordinate frames correspond to RA,Dec, Long,Lat etc.
* - Uses eraPap(). See SOFA/ERFA documentation for details.
*-
*/
double palDpav ( double v1[3], double v2[3] ) {
return eraPap( v1, v2 );
}
/*
*+
* Name:
* palDr2af
* Purpose:
* Convert an angle in radians to degrees, arcminutes, arcseconds
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDr2af( int ndp, double angle, char *sign, int idmsf[4] );
* Arguments:
* ndp = int (Given)
* number of decimal places of arcseconds
* angle = double (Given)
* angle in radians
* sign = char * (Returned)
* '+' or '-' (single character)
* idmsf = int [4] (Returned)
* Degrees, arcminutes, arcseconds, fraction
* Description:
* Convert an angle in radians to degrees, arcminutes, arcseconds.
* Notes:
* - Uses eraA2af(). See SOFA/ERFA documentation for details.
*-
*/
void palDr2af ( int ndp, double angle, char *sign, int idmsf[4] ) {
eraA2af( ndp, angle, sign, idmsf );
}
/*
*+
* Name:
* palDr2tf
* Purpose:
* Convert an angle in radians to hours, minutes, seconds
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDr2tf ( int ndp, double angle, char *sign, int ihmsf[4] );
* Arguments:
* ndp = int (Given)
* number of decimal places of arcseconds
* angle = double (Given)
* angle in radians
* sign = char * (Returned)
* '+' or '-' (single character)
* idmsf = int [4] (Returned)
* Hours, minutes, seconds, fraction
* Description:
* Convert an angle in radians to hours, minutes, seconds.
* Notes:
* - Uses eraA2tf(). See SOFA/ERFA documentation for details.
*-
*/
void palDr2tf( int ndp, double angle, char *sign, int ihmsf[4] ) {
eraA2tf( ndp, angle, sign, ihmsf );
}
/*
*+
* Name:
* palDranrm
* Purpose:
* Normalize angle into range 0-2 pi
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* norm = palDranrm( double angle );
* Arguments:
* angle = double (Given)
* angle in radians
* Returned Value:
* Angle expressed in the range 0-2 pi
* Description:
* Normalize angle into range 0-2 pi.
* Notes:
* - Uses eraAnp(). See SOFA/ERFA documentation for details.
*-
*/
double palDranrm ( double angle ) {
return eraAnp( angle );
}
/*
*+
* Name:
* palDsep
* Purpose:
* Angle between two points on a sphere
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* ang = palDsep( double a1, double b1, double a2, double b2 );
* Arguments:
* a1 = double (Given)
* Spherical coordinate of one point (radians)
* b1 = double (Given)
* Spherical coordinate of one point (radians)
* a2 = double (Given)
* Spherical coordinate of other point (radians)
* b2 = double (Given)
* Spherical coordinate of other point (radians)
* Returned Value:
* Angle, in radians, between the two points. Always positive.
* Description:
* Angle between two points on a sphere.
* Notes:
* - The spherical coordinates are [RA,Dec], [Long,Lat] etc, in radians.
* - Uses eraSeps(). See SOFA/ERFA documentation for details.
*-
*/
double palDsep ( double a1, double b1, double a2, double b2 ) {
return eraSeps( a1, b1, a2, b2 );
}
/*
*+
* Name:
* palDsepv
* Purpose:
* Angle between two vectors
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* ang = palDsepv( double v1[3], double v2[3] );
* Arguments:
* v1 = double [3] (Given)
* First vector
* v2 = double [3] (Given)
* Second vector
* Returned Value:
* Angle, in radians, between the two points. Always positive.
* Description:
* Angle between two vectors.
* Notes:
* - Uses eraSepp(). See SOFA/ERFA documentation for details.
*-
*/
double palDsepv ( double v1[3], double v2[3] ) {
return eraSepp( v1, v2 );
}
/*
*+
* Name:
* palDtf2d
* Purpose:
* Convert hours, minutes, seconds to days
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDtf2d( int ihour, int imin, double sec, double *days, int *j );
* Arguments:
* ihour = int (Given)
* Hours
* imin = int (Given)
* Minutes
* sec = double (Given)
* Seconds
* days = double * (Returned)
* Interval in days
* j = int * (Returned)
* status: 0 = ok, 1 = ihour outside range 0-23,
* 2 = imin outside range 0-59, 3 = sec outside range 0-59.999...
* Description:
* Convert hours, minutes, seconds to days.
* Notes:
* - Uses eraTf2d(). See SOFA/ERFA documentation for details.
*-
*/
/* Assumes that the sign is always positive and is dealt with externally */
void palDtf2d ( int ihour, int imin, double sec, double *days, int *j ) {
*j = eraTf2d( ' ', ihour, imin, sec, days );
}
/*
*+
* Name:
* palDtf2r
* Purpose:
* Convert hours, minutes, seconds to radians
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDtf2r( int ihour, int imin, double sec, double *rad, int *j );
* Arguments:
* ihour = int (Given)
* Hours
* imin = int (Given)
* Minutes
* sec = double (Given)
* Seconds
* days = double * (Returned)
* Angle in radians
* j = int * (Returned)
* status: 0 = ok, 1 = ihour outside range 0-23,
* 2 = imin outside range 0-59, 3 = sec outside range 0-59.999...
* Description:
* Convert hours, minutes, seconds to radians.
* Notes:
* - Uses eraTf2a(). See SOFA/ERFA documentation for details.
*-
*/
/* Assumes that the sign is dealt with outside this routine */
void palDtf2r ( int ihour, int imin, double sec, double *rad, int *j ) {
*j = eraTf2a( ' ', ihour, imin, sec, rad );
}
/*
*+
* Name:
* palDvdv
* Purpose:
* Scalar product of two 3-vectors
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* prod = palDvdv ( double va[3], double vb[3] );
* Arguments:
* va = double [3] (Given)
* First vector
* vb = double [3] (Given)
* Second vector
* Returned Value:
* Scalar product va.vb
* Description:
* Scalar product of two 3-vectors.
* Notes:
* - Uses eraPdp(). See SOFA/ERFA documentation for details.
*-
*/
double palDvdv ( double va[3], double vb[3] ) {
return eraPdp( va, vb );
}
/*
*+
* Name:
* palDvn
* Purpose:
* Normalizes a 3-vector also giving the modulus
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDvn( double v[3], double uv[3], double *vm );
* Arguments:
* v = double [3] (Given)
* vector
* uv = double [3] (Returned)
* unit vector in direction of "v"
* vm = double * (Returned)
* modulus of "v"
* Description:
* Normalizes a 3-vector also giving the modulus.
* Notes:
* - Uses eraPn(). See SOFA/ERFA documentation for details.
*-
*/
/* Note that the arguments are flipped */
void palDvn ( double v[3], double uv[3], double *vm ) {
eraPn( v, vm, uv );
}
/*
*+
* Name:
* palDvxv
* Purpose:
* Vector product of two 3-vectors
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palDvxv( double va[3], double vb[3], double vc[3] );
* Arguments:
* va = double [3] (Given)
* First vector
* vb = double [3] (Given)
* Second vector
* vc = double [3] (Returned)
* Result vector
* Description:
* Vector product of two 3-vectors.
* Notes:
* - Uses eraPxp(). See SOFA/ERFA documentation for details.
*-
*/
void palDvxv ( double va[3], double vb[3], double vc[3] ) {
eraPxp( va, vb, vc );
}
/*
*+
* Name:
* palEpb
* Purpose:
* Conversion of modified Julian Data to Besselian Epoch
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* epb = palEpb ( double date );
* Arguments:
* date = double (Given)
* Modified Julian Date (JD - 2400000.5)
* Returned Value:
* Besselian epoch.
* Description:
* Conversion of modified Julian Data to Besselian Epoch.
* Notes:
* - Uses eraEpb(). See SOFA/ERFA documentation for details.
*-
*/
/* Requires additional SLA MJD reference date */
double palEpb ( double date ) {
return eraEpb( PAL__MJD0, date );
}
/*
*+
* Name:
* palEpb2d
* Purpose:
* Conversion of Besselian Epoch to Modified Julian Date
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* mjd = palEpb2d ( double epb );
* Arguments:
* epb = double (Given)
* Besselian Epoch
* Returned Value:
* Modified Julian Date (JD - 2400000.5)
* Description:
* Conversion of Besselian Epoch to Modified Julian Date.
* Notes:
* - Uses eraEpb2jd(). See SOFA/ERFA documentation for details.
*-
*/
double palEpb2d ( double epb ) {
double djm0, djm;
eraEpb2jd( epb, &djm0, &djm );
return djm;
}
/*
*+
* Name:
* palEpj
* Purpose:
* Conversion of Modified Julian Date to Julian Epoch
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* epj = palEpj ( double date );
* Arguments:
* date = double (Given)
* Modified Julian Date (JD - 2400000.5)
* Returned Value:
* The Julian Epoch.
* Description:
* Conversion of Modified Julian Date to Julian Epoch.
* Notes:
* - Uses eraEpj(). See SOFA/ERFA documentation for details.
*-
*/
/* Requires additional SLA MJD reference date */
double palEpj ( double date ) {
return eraEpj( PAL__MJD0, date );
}
/*
*+
* Name:
* palEpj2d
* Purpose:
* Conversion of Julian Epoch to Modified Julian Date
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* mjd = palEpj2d ( double epj );
* Arguments:
* epj = double (Given)
* Julian Epoch.
* Returned Value:
* Modified Julian Date (JD - 2400000.5)
* Description:
* Conversion of Julian Epoch to Modified Julian Date.
* Notes:
* - Uses eraEpj2d(). See SOFA/ERFA documentation for details.
*-
*/
double palEpj2d ( double epj ) {
double djm0, djm;
eraEpj2jd( epj, &djm0, &djm );
return djm;
}
/*
*+
* Name:
* palEqeqx
* Purpose:
* Equation of the equinoxes (IAU 2000/2006)
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palEqeqx( double date );
* Arguments:
* date = double (Given)
* TT as Modified Julian Date (JD-400000.5)
* Description:
* Equation of the equinoxes (IAU 2000/2006).
* Notes:
* - Uses eraEe06a(). See SOFA/ERFA documentation for details.
*-
*/
/* Requires additional SLA MJD reference date */
double palEqeqx ( double date ) {
return eraEe06a( PAL__MJD0, date );
}
/*
*+
* Name:
* palFk5hz
* Purpose:
* Transform an FK5 (J2000) star position into the frame of the
* Hipparcos catalogue.
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palFk5hz ( double r5, double d5, double epoch,
* double *rh, double *dh );
* Arguments:
* r5 = double (Given)
* FK5 RA (radians), equinox J2000, epoch "epoch"
* d5 = double (Given)
* FK5 dec (radians), equinox J2000, epoch "epoch"
* epoch = double (Given)
* Julian epoch
* rh = double * (Returned)
* RA (radians)
* dh = double * (Returned)
* Dec (radians)
* Description:
* Transform an FK5 (J2000) star position into the frame of the
* Hipparcos catalogue.
* Notes:
* - Assumes zero Hipparcos proper motion.
* - Uses eraEpj2jd() and eraFk5hz.
* See SOFA/ERFA documentation for details.
*-
*/
void palFk5hz ( double r5, double d5, double epoch,
double *rh, double *dh ) {
/* Need to convert epoch to Julian date first */
double date1, date2;
eraEpj2jd( epoch, &date1, &date2 );
eraFk5hz( r5, d5, date1, date2, rh, dh );
}
/*
*+
* Name:
* palGmst
* Purpose:
* Greenwich mean sidereal time (consistent with IAU 2006 precession).
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* mst = palGmst ( double ut1 );
* Arguments:
* ut1 = double (Given)
* Universal time (UT1) expressed as modified Julian Date (JD-2400000.5)
* Returned Value:
* Greenwich mean sidereal time
* Description:
* Greenwich mean sidereal time (consistent with IAU 2006 precession).
* Notes:
* - Uses eraGmst06(). See SOFA/ERFA documentation for details.
*-
*/
/* Note that SOFA/ERFA has more accurate time arguments
and we use the 2006 precession model */
double palGmst ( double ut1 ) {
return eraGmst06( PAL__MJD0, ut1, PAL__MJD0, ut1 );
}
/*
*+
* Name:
* palGmsta
* Purpose:
* Greenwich mean sidereal time (consistent with IAU 2006 precession).
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* mst = palGmsta ( double date, double ut1 );
* Arguments:
* date = double (Given)
* UT1 date (MJD: integer part of JD-2400000.5)
* ut1 = double (Given)
* UT1 time (fraction of a day)
* Returned Value:
* Greenwich mean sidereal time (in range 0 to 2 pi)
* Description:
* Greenwich mean sidereal time (consistent with IAU 2006 precession).
* Notes:
* - For best accuracy use eraGmst06() directly.
* - Uses eraGmst06(). See SOFA/ERFA documentation for details.
*-
*/
/* Slightly better but still not as accurate as SOFA/ERFA */
double palGmsta( double date, double ut ) {
date += PAL__MJD0;
return eraGmst06( date, ut, date, ut );
}
/*
*+
* Name:
* palHfk5z
* Purpose:
* Hipparcos star position to FK5 J2000
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palHfk5z( double rh, double dh, double epoch,
* double *r5, double *d5, double *dr5, double *dd5 );
* Arguments:
* rh = double (Given)
* Hipparcos RA (radians)
* dh = double (Given)
* Hipparcos Dec (radians)
* epoch = double (Given)
* Julian epoch (TDB)
* r5 = double * (Returned)
* RA (radians, FK5, equinox J2000, epoch "epoch")
* d5 = double * (Returned)
* Dec (radians, FK5, equinox J2000, epoch "epoch")
* Description:
* Transform a Hipparcos star position into FK5 J2000, assuming
* zero Hipparcos proper motion.
* Notes:
* - Uses eraEpj2jd and eraHfk5z(). See SOFA/ERFA documentation for details.
*-
*/
void palHfk5z ( double rh, double dh, double epoch,
double *r5, double *d5, double *dr5, double *dd5 ) {
/* Need to convert epoch to Julian date first */
double date1, date2;
eraEpj2jd( epoch, &date1, &date2 );
eraHfk5z( rh, dh, date1, date2, r5, d5, dr5, dd5 );
}
/*
*+
* Name:
* palRefcoq
* Purpose:
* Determine the constants A and B in the atmospheric refraction model
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palRefcoq( double tdk, double pmb, double rh, double wl,
* double *refa, double *refb );
* Arguments:
* tdk = double (Given)
* Ambient temperature at the observer (K)
* pmb = double (Given)
* Pressure at the observer (millibar)
* rh = double (Given)
* Relative humidity at the observer (range 0-1)
* wl = double (Given)
* Effective wavelength of the source (micrometre).
* Radio refraction is chosen by specifying wl > 100 micrometres.
* refa = double * (Returned)
* tan Z coefficient (radian)
* refb = double * (Returned)
* tan**3 Z coefficient (radian)
* Description:
* Determine the constants A and B in the atmospheric refraction
* model dZ = A tan Z + B tan**3 Z. This is a fast alternative
* to the palRefco routine.
*
* Z is the "observed" zenith distance (i.e. affected by refraction)
* and dZ is what to add to Z to give the "topocentric" (i.e. in vacuo)
* zenith distance.
* Notes:
* - Uses eraRefco(). See SOFA/ERFA documentation for details.
* - Note that the SOFA/ERFA routine uses different order of
* of arguments and uses deg C rather than K.
*-
*/
void palRefcoq ( double tdk, double pmb, double rh, double wl,
double *refa, double *refb ) {
/* Note that SLA (and therefore PAL) uses units of kelvin
but SOFA/ERFA uses deg C */
eraRefco( pmb, tdk - 273.15, rh, wl, refa, refb );
}
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