1 | #include "erfa.h"
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2 |
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3 | int eraAtoi13(const char *type, double ob1, double ob2,
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4 | double utc1, double utc2, double dut1,
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5 | double elong, double phi, double hm, double xp, double yp,
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6 | double phpa, double tc, double rh, double wl,
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7 | double *ri, double *di)
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8 | /*
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9 | ** - - - - - - - - - -
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10 | ** e r a A t o i 1 3
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11 | ** - - - - - - - - - -
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12 | **
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13 | ** Observed place to CIRS. The caller supplies UTC, site coordinates,
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14 | ** ambient air conditions and observing wavelength.
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15 | **
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16 | ** Given:
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17 | ** type char[] type of coordinates - "R", "H" or "A" (Notes 1,2)
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18 | ** ob1 double observed Az, HA or RA (radians; Az is N=0,E=90)
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19 | ** ob2 double observed ZD or Dec (radians)
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20 | ** utc1 double UTC as a 2-part...
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21 | ** utc2 double ...quasi Julian Date (Notes 3,4)
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22 | ** dut1 double UT1-UTC (seconds, Note 5)
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23 | ** elong double longitude (radians, east +ve, Note 6)
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24 | ** phi double geodetic latitude (radians, Note 6)
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25 | ** hm double height above the ellipsoid (meters, Notes 6,8)
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26 | ** xp,yp double polar motion coordinates (radians, Note 7)
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27 | ** phpa double pressure at the observer (hPa = mB, Note 8)
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28 | ** tc double ambient temperature at the observer (deg C)
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29 | ** rh double relative humidity at the observer (range 0-1)
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30 | ** wl double wavelength (micrometers, Note 9)
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31 | **
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32 | ** Returned:
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33 | ** ri double* CIRS right ascension (CIO-based, radians)
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34 | ** di double* CIRS declination (radians)
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35 | **
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36 | ** Returned (function value):
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37 | ** int status: +1 = dubious year (Note 2)
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38 | ** 0 = OK
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39 | ** -1 = unacceptable date
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40 | **
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41 | ** Notes:
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42 | **
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43 | ** 1) "Observed" Az,ZD means the position that would be seen by a
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44 | ** perfect geodetically aligned theodolite. (Zenith distance is
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45 | ** used rather than altitude in order to reflect the fact that no
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46 | ** allowance is made for depression of the horizon.) This is
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47 | ** related to the observed HA,Dec via the standard rotation, using
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48 | ** the geodetic latitude (corrected for polar motion), while the
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49 | ** observed HA and RA are related simply through the Earth rotation
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50 | ** angle and the site longitude. "Observed" RA,Dec or HA,Dec thus
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51 | ** means the position that would be seen by a perfect equatorial
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52 | ** with its polar axis aligned to the Earth's axis of rotation.
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53 | **
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54 | ** 2) Only the first character of the type argument is significant.
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55 | ** "R" or "r" indicates that ob1 and ob2 are the observed right
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56 | ** ascension and declination; "H" or "h" indicates that they are
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57 | ** hour angle (west +ve) and declination; anything else ("A" or
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58 | ** "a" is recommended) indicates that ob1 and ob2 are azimuth
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59 | ** (north zero, east 90 deg) and zenith distance.
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60 | **
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61 | ** 3) utc1+utc2 is quasi Julian Date (see Note 2), apportioned in any
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62 | ** convenient way between the two arguments, for example where utc1
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63 | ** is the Julian Day Number and utc2 is the fraction of a day.
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64 | **
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65 | ** However, JD cannot unambiguously represent UTC during a leap
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66 | ** second unless special measures are taken. The convention in the
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67 | ** present function is that the JD day represents UTC days whether
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68 | ** the length is 86399, 86400 or 86401 SI seconds.
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69 | **
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70 | ** Applications should use the function eraDtf2d to convert from
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71 | ** calendar date and time of day into 2-part quasi Julian Date, as
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72 | ** it implements the leap-second-ambiguity convention just
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73 | ** described.
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74 | **
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75 | ** 4) The warning status "dubious year" flags UTCs that predate the
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76 | ** introduction of the time scale or that are too far in the
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77 | ** future to be trusted. See eraDat for further details.
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78 | **
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79 | ** 5) UT1-UTC is tabulated in IERS bulletins. It increases by exactly
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80 | ** one second at the end of each positive UTC leap second,
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81 | ** introduced in order to keep UT1-UTC within +/- 0.9s. n.b. This
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82 | ** practice is under review, and in the future UT1-UTC may grow
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83 | ** essentially without limit.
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84 | **
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85 | ** 6) The geographical coordinates are with respect to the ERFA_WGS84
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86 | ** reference ellipsoid. TAKE CARE WITH THE LONGITUDE SIGN: the
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87 | ** longitude required by the present function is east-positive
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88 | ** (i.e. right-handed), in accordance with geographical convention.
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89 | **
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90 | ** 7) The polar motion xp,yp can be obtained from IERS bulletins. The
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91 | ** values are the coordinates (in radians) of the Celestial
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92 | ** Intermediate Pole with respect to the International Terrestrial
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93 | ** Reference System (see IERS Conventions 2003), measured along the
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94 | ** meridians 0 and 90 deg west respectively. For many
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95 | ** applications, xp and yp can be set to zero.
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96 | **
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97 | ** 8) If hm, the height above the ellipsoid of the observing station
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98 | ** in meters, is not known but phpa, the pressure in hPa (=mB), is
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99 | ** available, an adequate estimate of hm can be obtained from the
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100 | ** expression
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101 | **
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102 | ** hm = -29.3 * tsl * log ( phpa / 1013.25 );
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103 | **
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104 | ** where tsl is the approximate sea-level air temperature in K
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105 | ** (See Astrophysical Quantities, C.W.Allen, 3rd edition, section
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106 | ** 52). Similarly, if the pressure phpa is not known, it can be
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107 | ** estimated from the height of the observing station, hm, as
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108 | ** follows:
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109 | **
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110 | ** phpa = 1013.25 * exp ( -hm / ( 29.3 * tsl ) );
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111 | **
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112 | ** Note, however, that the refraction is nearly proportional to
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113 | ** the pressure and that an accurate phpa value is important for
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114 | ** precise work.
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115 | **
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116 | ** 9) The argument wl specifies the observing wavelength in
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117 | ** micrometers. The transition from optical to radio is assumed to
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118 | ** occur at 100 micrometers (about 3000 GHz).
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119 | **
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120 | ** 10) The accuracy of the result is limited by the corrections for
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121 | ** refraction, which use a simple A*tan(z) + B*tan^3(z) model.
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122 | ** Providing the meteorological parameters are known accurately and
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123 | ** there are no gross local effects, the predicted astrometric
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124 | ** coordinates should be within 0.05 arcsec (optical) or 1 arcsec
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125 | ** (radio) for a zenith distance of less than 70 degrees, better
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126 | ** than 30 arcsec (optical or radio) at 85 degrees and better
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127 | ** than 20 arcmin (optical) or 30 arcmin (radio) at the horizon.
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128 | **
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129 | ** Without refraction, the complementary functions eraAtio13 and
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130 | ** eraAtoi13 are self-consistent to better than 1 microarcsecond
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131 | ** all over the celestial sphere. With refraction included,
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132 | ** consistency falls off at high zenith distances, but is still
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133 | ** better than 0.05 arcsec at 85 degrees.
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134 | **
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135 | ** 12) It is advisable to take great care with units, as even unlikely
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136 | ** values of the input parameters are accepted and processed in
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137 | ** accordance with the models used.
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138 | **
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139 | ** Called:
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140 | ** eraApio13 astrometry parameters, CIRS-observed, 2013
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141 | ** eraAtoiq quick observed to CIRS
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142 | **
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143 | ** Copyright (C) 2013-2017, NumFOCUS Foundation.
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144 | ** Derived, with permission, from the SOFA library. See notes at end of file.
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145 | */
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146 | {
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147 | int j;
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148 | eraASTROM astrom;
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149 |
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150 |
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151 | /* Star-independent astrometry parameters for CIRS->observed. */
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152 | j = eraApio13(utc1, utc2, dut1, elong, phi, hm, xp, yp,
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153 | phpa, tc, rh, wl, &astrom);
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154 |
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155 | /* Abort if bad UTC. */
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156 | if ( j < 0 ) return j;
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157 |
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158 | /* Transform observed to CIRS. */
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159 | eraAtoiq(type, ob1, ob2, &astrom, ri, di);
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160 |
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161 | /* Return OK/warning status. */
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162 | return j;
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163 |
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164 | /* Finished. */
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165 |
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166 | }
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167 | /*----------------------------------------------------------------------
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168 | **
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169 | **
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170 | ** Copyright (C) 2013-2017, NumFOCUS Foundation.
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171 | ** All rights reserved.
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172 | **
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173 | ** This library is derived, with permission, from the International
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174 | ** Astronomical Union's "Standards of Fundamental Astronomy" library,
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175 | ** available from http://www.iausofa.org.
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176 | **
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177 | ** The ERFA version is intended to retain identical functionality to
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178 | ** the SOFA library, but made distinct through different function and
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179 | ** file names, as set out in the SOFA license conditions. The SOFA
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180 | ** original has a role as a reference standard for the IAU and IERS,
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181 | ** and consequently redistribution is permitted only in its unaltered
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182 | ** state. The ERFA version is not subject to this restriction and
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183 | ** therefore can be included in distributions which do not support the
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184 | ** concept of "read only" software.
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185 | **
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186 | ** Although the intent is to replicate the SOFA API (other than
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187 | ** replacement of prefix names) and results (with the exception of
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188 | ** bugs; any that are discovered will be fixed), SOFA is not
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189 | ** responsible for any errors found in this version of the library.
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190 | **
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191 | ** If you wish to acknowledge the SOFA heritage, please acknowledge
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192 | ** that you are using a library derived from SOFA, rather than SOFA
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193 | ** itself.
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194 | **
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195 | **
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196 | ** TERMS AND CONDITIONS
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197 | **
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198 | ** Redistribution and use in source and binary forms, with or without
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199 | ** modification, are permitted provided that the following conditions
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200 | ** are met:
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201 | **
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202 | ** 1 Redistributions of source code must retain the above copyright
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203 | ** notice, this list of conditions and the following disclaimer.
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204 | **
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205 | ** 2 Redistributions in binary form must reproduce the above copyright
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206 | ** notice, this list of conditions and the following disclaimer in
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207 | ** the documentation and/or other materials provided with the
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208 | ** distribution.
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209 | **
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210 | ** 3 Neither the name of the Standards Of Fundamental Astronomy Board,
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211 | ** the International Astronomical Union nor the names of its
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212 | ** contributors may be used to endorse or promote products derived
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213 | ** from this software without specific prior written permission.
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214 | **
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215 | ** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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216 | ** "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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217 | ** LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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218 | ** FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
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219 | ** COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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220 | ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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221 | ** BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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222 | ** LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
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223 | ** CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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224 | ** LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
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225 | ** ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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226 | ** POSSIBILITY OF SUCH DAMAGE.
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227 | **
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228 | */
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