libnova-devel/html/lunar_8h_source.html

 /*

  *  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 of the License, or (at your option) any later version.

  *

  *  This library 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 General Public License

  *  along with this program; if not, write to the Free Software

  *  Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

  *

  *  Copyright (C) 2000 - 2005 Liam Girdwood

  */


 #ifndef _LN_LUNAR_H

 #define _LN_LUNAR_H


 #include <libnova/ln_types.h>


 #define LN_LUNAR_STANDART_HORIZON       0.125


 #ifdef __cplusplus

 extern "C" {

 #endif


 double LIBNOVA_EXPORT ln_get_lunar_sdiam(double JD);


 int LIBNOVA_EXPORT ln_get_lunar_rst(double JD, struct ln_lnlat_posn *observer,

     struct ln_rst_time *rst);


 /* ELP 2000-82B theory */

 void LIBNOVA_EXPORT ln_get_lunar_geo_posn(double JD, struct ln_rect_posn *moon,

     double precision);


 void LIBNOVA_EXPORT ln_get_lunar_equ_coords_prec(double JD,

     struct ln_equ_posn *position, double precision);


 void LIBNOVA_EXPORT ln_get_lunar_equ_coords(double JD,

     struct ln_equ_posn *position);


 void LIBNOVA_EXPORT ln_get_lunar_ecl_coords(double JD,

     struct ln_lnlat_posn *position, double precision);


 double LIBNOVA_EXPORT ln_get_lunar_phase(double JD);


 double LIBNOVA_EXPORT ln_get_lunar_disk(double JD);


 double LIBNOVA_EXPORT ln_get_lunar_earth_dist(double JD);


 double LIBNOVA_EXPORT ln_get_lunar_bright_limb(double JD);


 double LIBNOVA_EXPORT ln_get_lunar_long_asc_node(double JD);


 double LIBNOVA_EXPORT ln_get_lunar_long_perigee(double JD);


 double LIBNOVA_EXPORT ln_get_lunar_arg_latitude(double JD);


 void LIBNOVA_EXPORT ln_get_lunar_opt_libr_coords(double JD, struct ln_lnlat_posn *position);


 void LIBNOVA_EXPORT ln_get_lunar_subsolar_coords(double JD, struct ln_lnlat_posn *position);


 double LIBNOVA_EXPORT ln_lunar_next_phase(double jd, double phase);


 double LIBNOVA_EXPORT ln_lunar_previous_phase(double jd, double phase);


 double LIBNOVA_EXPORT ln_lunar_next_apsis(double jd, int apogee);


 double LIBNOVA_EXPORT ln_lunar_previous_apsis(double jd, int apogee);


 double LIBNOVA_EXPORT ln_lunar_next_node(double jd, int mode);


 double LIBNOVA_EXPORT ln_lunar_previous_node(double jd, int mode);


 #ifdef __cplusplus

 };

 #endif


 #endif

ln_lunar_previous_phase
double LIBNOVA_EXPORT ln_lunar_previous_phase(double jd, double phase)
Find previous moon phase relative to given time expressed as Julian Day.
Definition: lunar.c:1553

ln_lunar_previous_apsis
double LIBNOVA_EXPORT ln_lunar_previous_apsis(double jd, int apogee)
Find previous moon apogee or perigee relative to given time expressed as Julian Day.
Definition: lunar.c:1606

ln_lunar_next_phase
double LIBNOVA_EXPORT ln_lunar_next_phase(double jd, double phase)
Find next moon phase relative to given time expressed as Julian Day.
Definition: lunar.c:1528

ln_lunar_next_node
double LIBNOVA_EXPORT ln_lunar_next_node(double jd, int mode)
Find next moon node relative to given time expressed as Julian Day.
Definition: lunar.c:1634

ln_get_lunar_geo_posn
void LIBNOVA_EXPORT ln_get_lunar_geo_posn(double JD, struct ln_rect_posn *moon, double precision)
Calculate the rectangular geocentric lunar cordinates.
Definition: lunar.c:1094

ln_lunar_next_apsis
double LIBNOVA_EXPORT ln_lunar_next_apsis(double jd, int apogee)
Find next moon apogee or perigee relative to given time expressed as Julian Day.
Definition: lunar.c:1578

ln_get_lunar_long_perigee
double LIBNOVA_EXPORT ln_get_lunar_long_perigee(double JD)
Calculate the longitude of the Moon's mean perigee.
Definition: lunar.c:1410

ln_get_lunar_equ_coords_prec
void LIBNOVA_EXPORT ln_get_lunar_equ_coords_prec(double JD, struct ln_equ_posn *position, double precision)
Calculate lunar equatorial coordinates.
Definition: lunar.c:1197

ln_get_lunar_bright_limb
double LIBNOVA_EXPORT ln_get_lunar_bright_limb(double JD)
Calculate the position angle of the Moon's bright limb.
Definition: lunar.c:1321

ln_get_lunar_ecl_coords
void LIBNOVA_EXPORT ln_get_lunar_ecl_coords(double JD, struct ln_lnlat_posn *position, double precision)
Calculate lunar ecliptical coordinates.
Definition: lunar.c:1229

ln_get_lunar_long_asc_node
double LIBNOVA_EXPORT ln_get_lunar_long_asc_node(double JD)
Calculate the longitude of the Moon's mean ascending node.
Definition: lunar.c:1388

ln_get_lunar_rst
int LIBNOVA_EXPORT ln_get_lunar_rst(double JD, struct ln_lnlat_posn *observer, struct ln_rst_time *rst)
Calculate the time of rise, set and transit for the Moon.
Definition: lunar.c:1357

ln_get_lunar_disk
double LIBNOVA_EXPORT ln_get_lunar_disk(double JD)
Calculate the illuminated fraction of the Moons disk.
Definition: lunar.c:1300

ln_get_lunar_arg_latitude
double LIBNOVA_EXPORT ln_get_lunar_arg_latitude(double JD)
Calculate the Moon's argument of latitude (mean distance of the Moon from its ascending node)
Definition: lunar.c:1431

ln_get_lunar_sdiam
double LIBNOVA_EXPORT ln_get_lunar_sdiam(double JD)
Calculate the semidiameter of the Moon in arc seconds.
Definition: lunar.c:1372

ln_get_lunar_phase
double LIBNOVA_EXPORT ln_get_lunar_phase(double JD)
Calculate the phase angle of the Moon.
Definition: lunar.c:1269

ln_get_lunar_equ_coords
void LIBNOVA_EXPORT ln_get_lunar_equ_coords(double JD, struct ln_equ_posn *position)
Calculate lunar equatorial coordinates.
Definition: lunar.c:1214

ln_lunar_previous_node
double LIBNOVA_EXPORT ln_lunar_previous_node(double jd, int mode)
Find previous lunar node relative to given time expressed as Julian Day.
Definition: lunar.c:1657

ln_get_lunar_opt_libr_coords
void LIBNOVA_EXPORT ln_get_lunar_opt_libr_coords(double JD, struct ln_lnlat_posn *position)
Calculate selenographic optical libration coordinates.
Definition: lunar.c:1476

ln_get_lunar_earth_dist
double LIBNOVA_EXPORT ln_get_lunar_earth_dist(double JD)
Calculate the distance between the Earth and the Moon.
Definition: lunar.c:1253

ln_equ_posn
Equatorial Coordinates.
Definition: ln_types.h:176

ln_lnlat_posn
Ecliptical (or celestial) Longitude and Latitude.
Definition: ln_types.h:204

ln_rect_posn
Rectangular coordinates.
Definition: ln_types.h:239

ln_rst_time
Rise, Set and Transit times.
Definition: ln_types.h:314