1 | /*
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2 | *+
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3 | * Name:
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4 | * palMapqk
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5 |
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6 | * Purpose:
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7 | * Quick mean to apparent place
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8 |
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9 | * Language:
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10 | * Starlink ANSI C
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11 |
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12 | * Type of Module:
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13 | * Library routine
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14 |
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15 | * Invocation:
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16 | * void palMapqk ( double rm, double dm, double pr, double pd,
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17 | * double px, double rv, double amprms[21],
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18 | * double *ra, double *da );
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19 |
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20 | * Arguments:
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21 | * rm = double (Given)
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22 | * Mean RA (radians)
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23 | * dm = double (Given)
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24 | * Mean declination (radians)
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25 | * pr = double (Given)
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26 | * RA proper motion, changes per Julian year (radians)
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27 | * pd = double (Given)
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28 | * Dec proper motion, changes per Julian year (radians)
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29 | * px = double (Given)
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30 | * Parallax (arcsec)
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31 | * rv = double (Given)
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32 | * Radial velocity (km/s, +ve if receding)
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33 | * amprms = double [21] (Given)
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34 | * Star-independent mean-to-apparent parameters (see palMappa).
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35 | * ra = double * (Returned)
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36 | * Apparent RA (radians)
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37 | * dec = double * (Returned)
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38 | * Apparent dec (radians)
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39 |
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40 | * Description:
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41 | * Quick mean to apparent place: transform a star RA,Dec from
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42 | * mean place to geocentric apparent place, given the
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43 | * star-independent parameters.
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44 | *
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45 | * Use of this routine is appropriate when efficiency is important
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46 | * and where many star positions, all referred to the same equator
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47 | * and equinox, are to be transformed for one epoch. The
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48 | * star-independent parameters can be obtained by calling the
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49 | * palMappa routine.
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50 | *
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51 | * If the parallax and proper motions are zero the palMapqkz
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52 | * routine can be used instead.
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53 |
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54 | * Notes:
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55 | * - The reference frames and timescales used are post IAU 2006.
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56 | * - The mean place rm, dm and the vectors amprms[1-3] and amprms[4-6]
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57 | * are referred to the mean equinox and equator of the epoch
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58 | * specified when generating the precession/nutation matrix
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59 | * amprms[12-20]. In the call to palMappa (q.v.) normally used
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60 | * to populate amprms, this epoch is the first argument (eq).
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61 | * - Strictly speaking, the routine is not valid for solar-system
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62 | * sources, though the error will usually be extremely small.
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63 | * However, to prevent gross errors in the case where the
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64 | * position of the Sun is specified, the gravitational
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65 | * deflection term is restrained within about 920 arcsec of the
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66 | * centre of the Sun's disc. The term has a maximum value of
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67 | * about 1.85 arcsec at this radius, and decreases to zero as
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68 | * the centre of the disc is approached.
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69 |
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70 | * Authors:
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71 | * PTW: Patrick T. Wallace
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72 | * TIMJ: Tim Jenness (JAC, Hawaii)
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73 | * {enter_new_authors_here}
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74 |
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75 | * History:
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76 | * 2012-03-01 (TIMJ):
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77 | * Initial version with documentation from SLA/F
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78 | * Adapted with permission from the Fortran SLALIB library.
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79 | * {enter_further_changes_here}
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80 |
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81 | * Copyright:
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82 | * Copyright (C) 2000 Rutherford Appleton Laboratory
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83 | * Copyright (C) 2012 Science and Technology Facilities Council.
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84 | * All Rights Reserved.
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85 |
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86 | * Licence:
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87 | * This program is free software; you can redistribute it and/or
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88 | * modify it under the terms of the GNU General Public License as
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89 | * published by the Free Software Foundation; either version 3 of
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90 | * the License, or (at your option) any later version.
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91 | *
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92 | * This program is distributed in the hope that it will be
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93 | * useful, but WITHOUT ANY WARRANTY; without even the implied
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94 | * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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95 | * PURPOSE. See the GNU General Public License for more details.
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96 | *
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97 | * You should have received a copy of the GNU General Public License
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98 | * along with this program; if not, write to the Free Software
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99 | * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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100 | * MA 02110-1301, USA.
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101 |
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102 | * Bugs:
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103 | * {note_any_bugs_here}
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104 | *-
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105 | */
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106 |
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107 | #include "pal.h"
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108 | #include "palmac.h"
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109 | #include "pal1sofa.h"
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110 |
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111 | void palMapqk ( double rm, double dm, double pr, double pd,
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112 | double px, double rv, double amprms[21],
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113 | double *ra, double *da ) {
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114 |
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115 | /* local constants */
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116 | const double VF = 0.210945028; /* Km/s to AU/year */
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117 |
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118 | /* Local Variables: */
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119 | int i;
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120 | double ab1, abv[3], p[3], w, p1dv, p2[3], p3[3];
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121 | double pmt, gr2e, eb[3], q[3], pxr, em[3];
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122 | double pde, pdep1, p1[3], ehn[3], pn[3];
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123 |
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124 | /* Unpack scalar and vector parameters. */
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125 | pmt = amprms[0];
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126 | gr2e = amprms[7];
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127 | ab1 = amprms[11];
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128 | for( i = 0; i < 3; i++ ) {
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129 | eb[i] = amprms[i+1];
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130 | ehn[i] = amprms[i+4];
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131 | abv[i] = amprms[i+8];
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132 | }
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133 |
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134 | /* Spherical to x,y,z. */
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135 | eraS2c( rm, dm, q);
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136 |
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137 | /* Space motion (radians per year) */
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138 | pxr = px * PAL__DAS2R;
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139 | w = VF * rv * pxr;
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140 | em[0] = -pr * q[1] - pd * cos(rm) * sin(dm) + w * q[0];
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141 | em[1] = pr * q[0] - pd * sin(rm) * sin(dm) + w * q[1];
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142 | em[2] = pd * cos(dm) + w * q[2];
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143 |
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144 | /* Geocentric direction of star (normalised) */
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145 | for( i = 0; i < 3; i++ ) {
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146 | p[i] = q[i] + pmt * em[i] - pxr * eb[i];
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147 | }
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148 | eraPn( p, &w, pn );
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149 |
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150 | /* Light deflection (restrained within the Sun's disc) */
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151 | pde = eraPdp( pn, ehn );
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152 | pdep1 = pde + 1.0;
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153 | w = gr2e / ( pdep1 > 1.0e-5 ? pdep1 : 1.0e-5 );
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154 | for( i = 0; i < 3; i++) {
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155 | p1[i] = pn[i] + w * ( ehn[i] - pde * pn[i] );
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156 | }
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157 |
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158 | /* Aberration (normalisation omitted). */
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159 | p1dv = eraPdp( p, abv );
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160 | w = 1.0 + p1dv / ( ab1 + 1.0 );
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161 | for( i = 0; i < 3; i++ ) {
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162 | p2[i] = ( ab1 * p1[i] ) + ( w * abv[i] );
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163 | }
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164 |
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165 | /* Precession and nutation. */
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166 | eraRxp( (double(*)[3]) &rms[12], p2, p3 );
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167 |
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168 | /* Geocentric apparent RA,dec. */
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169 | eraC2s( p3, ra, da );
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170 | *ra = eraAnp( *ra );
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171 |
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172 | }
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