#include #include #include "P_.h" #include "astro.h" static void precess_hiprec P_((double mjd1, double mjd2, double *ra, double *dec)); #define DCOS(x) cos(degrad(x)) #define DSIN(x) sin(degrad(x)) #define DASIN(x) raddeg(asin(x)) #define DATAN2(y,x) raddeg(atan2((y),(x))) /* corrects ra and dec, both in radians, for precession from epoch 1 to epoch 2. * the epochs are given by their modified JDs, mjd1 and mjd2, respectively. * N.B. ra and dec are modifed IN PLACE. */ void precess (mjd1, mjd2, ra, dec) double mjd1, mjd2; /* initial and final epoch modified JDs */ double *ra, *dec; /* ra/dec for mjd1 in, for mjd2 out */ { precess_hiprec (mjd1, mjd2, ra, dec); } /* * Copyright (c) 1990 by Craig Counterman. All rights reserved. * * This software may be redistributed freely, not sold. * This copyright notice and disclaimer of warranty must remain * unchanged. * * No representation is made about the suitability of this * software for any purpose. It is provided "as is" without express or * implied warranty, to the extent permitted by applicable law. * * Rigorous precession. From Astronomical Ephemeris 1989, p. B18 * * 96-06-20 Hayo Hase : theta_a corrected */ static void precess_hiprec (mjd1, mjd2, ra, dec) double mjd1, mjd2; /* initial and final epoch modified JDs */ double *ra, *dec; /* ra/dec for mjd1 in, for mjd2 out */ { static double last_mjd1 = -213.432, last_from; static double last_mjd2 = -213.432, last_to; double zeta_A, z_A, theta_A; double T; double A, B, C; double alpha, delta; double alpha_in, delta_in; double from_equinox, to_equinox; double alpha2000, delta2000; /* convert mjds to years; * avoid the remarkably expensive calls to mjd_year() */ if (last_mjd1 == mjd1) from_equinox = last_from; else { mjd_year (mjd1, &from_equinox); last_mjd1 = mjd1; last_from = from_equinox; } if (last_mjd2 == mjd2) to_equinox = last_to; else { mjd_year (mjd2, &to_equinox); last_mjd2 = mjd2; last_to = to_equinox; } /* convert coords in rads to degs */ alpha_in = raddeg(*ra); delta_in = raddeg(*dec); /* precession progresses about 1 arc second in .047 years */ /* From from_equinox to 2000.0 */ if (fabs (from_equinox-2000.0) > .02) { T = (from_equinox - 2000.0)/100.0; zeta_A = 0.6406161* T + 0.0000839* T*T + 0.0000050* T*T*T; z_A = 0.6406161* T + 0.0003041* T*T + 0.0000051* T*T*T; theta_A = 0.5567530* T - 0.0001185* T*T - 0.0000116* T*T*T; A = DSIN(alpha_in - z_A) * DCOS(delta_in); B = DCOS(alpha_in - z_A) * DCOS(theta_A) * DCOS(delta_in) + DSIN(theta_A) * DSIN(delta_in); C = -DCOS(alpha_in - z_A) * DSIN(theta_A) * DCOS(delta_in) + DCOS(theta_A) * DSIN(delta_in); alpha2000 = DATAN2(A,B) - zeta_A; range (&alpha2000, 360.0); delta2000 = DASIN(C); } else { /* should get the same answer, but this could improve accruacy */ alpha2000 = alpha_in; delta2000 = delta_in; }; /* From 2000.0 to to_equinox */ if (fabs (to_equinox - 2000.0) > .02) { T = (to_equinox - 2000.0)/100.0; zeta_A = 0.6406161* T + 0.0000839* T*T + 0.0000050* T*T*T; z_A = 0.6406161* T + 0.0003041* T*T + 0.0000051* T*T*T; theta_A = 0.5567530* T - 0.0001185* T*T - 0.0000116* T*T*T; A = DSIN(alpha2000 + zeta_A) * DCOS(delta2000); B = DCOS(alpha2000 + zeta_A) * DCOS(theta_A) * DCOS(delta2000) - DSIN(theta_A) * DSIN(delta2000); C = DCOS(alpha2000 + zeta_A) * DSIN(theta_A) * DCOS(delta2000) + DCOS(theta_A) * DSIN(delta2000); alpha = DATAN2(A,B) + z_A; range(&alpha, 360.0); delta = DASIN(C); } else { /* should get the same answer, but this could improve accruacy */ alpha = alpha2000; delta = delta2000; }; *ra = degrad(alpha); *dec = degrad(delta); } #if 0 static void precess_fast (mjd1, mjd2, ra, dec) double mjd1, mjd2; /* initial and final epoch modified JDs */ double *ra, *dec; /* ra/dec for mjd1 in, for mjd2 out */ { #define N degrad (20.0468/3600.0) #define M hrrad (3.07234/3600.0) double nyrs; nyrs = (mjd2 - mjd1)/365.2425; *dec += N * cos(*ra) * nyrs; *ra += (M + (N * sin(*ra) * tan(*dec))) * nyrs; range (ra, 2.0*PI); } #endif /* For RCS Only -- Do Not Edit */ static char *rcsid[2] = {(char *)rcsid, "@(#) $RCSfile: precess.c,v $ $Date: 1998/07/17 23:35:22 $ $Revision: 1.2 $ $Name: $"};