initSidebarItems({"macro":[["Horner_eval!","Evaluates a polynomial using Horner's algorithm"],["apprnt_sidr!","Computes apparent sidereal time for a Julian day"],["ecl_frm_eq!","Computes ecliptic coordinates from equatorial coordinates"],["eq_frm_ecl!","Computes equatorial coordinates from ecliptic coordinates"],["eq_frm_gal!","Computes equatorial coordinates from galactic coordinates"],["gal_frm_eq!","Computes galactic coordinates from equatorial coordinates"],["loc_hz_frm_eq!","Computes local horizontal coordinates from equatorial coordinates"]],"mod":[["aberr","Corrections for aberration"],["angle","Angles for astronomy"],["asteroid","Diameters of asteroids"],["atmos","Corrections for atmospheric refraction"],["binary_star","Binary stars"],["consts","Some physical constants"],["coords","Transform between coordinate systems"],["ecliptic","The Earth's ecliptic"],["interpol","Interpolation of intermediate values of functions"],["lunar","The Earth's moon"],["misc","Miscellaneous routines"],["nutation","Corrections for nutation"],["orbit","Elliptic, parabolic and near-parabolic orbits"],["parallax","Find topocentric coordinates"],["planet","8 Planets of the Solar System"],["pluto","The dwarf planet Pluto"],["precess","Corrections for precession"],["star","Stars"],["sun","The Sun"],["time","Time for astronomy"],["transit","Time of rise, transit and set for a celestial body"],["util","Some programming utilities"]]});