Lines Matching defs:DEG_RAD
206 #define DEG_RAD ( CalendarAstronomer::PI / 180 ) // degrees -> radians
275 fLongitude = normPI(longitude * (double)DEG_RAD);
276 fLatitude = normPI(latitude * (double)DEG_RAD);
553 // return (281.2208444 + (1.719175 + 0.000452778*T)*T) * DEG_RAD;
563 // //return (279.6966778 + (36000.76892 + 0.0003025*T)*T) * DEG_RAD;
569 // return (279.6966778 + (-0.3262541582718024 + 0.0003025*T)*T) * DEG_RAD;
758 .533 * DEG_RAD, // Angular Diameter
759 34. /60.0 * DEG_RAD, // Refraction correction
783 // double lambda2 = lambda1 + 0.985647*DEG_RAD;
832 // double x = 0.830725 * DEG_RAD; // parallax+refraction+diameter
941 // double E = M + e*(180/PI) * ::sin(M*DEG_RAD) * ( 1.0 + e*cos(M*DEG_RAD) );
947 // /* r * cos(v) = */ double A = cos(E*DEG_RAD) - e;
948 // /* r * ::sin(v) = */ double B = ::sqrt(1 - e*e) * ::sin(E*DEG_RAD);
972 // double sRA = ::atan2(sin(slon*DEG_RAD) * cos(oblecl*DEG_RAD), cos(slon*DEG_RAD))*RAD_DEG;
974 // double sin_sDec = ::sin(oblecl*DEG_RAD) * ::sin(slon*DEG_RAD);
1011 // double h0 = -50/60 * DEG_RAD;
1015 // (cos(fLatitude) * cos(sDec*DEG_RAD)))*RAD_DEG;
1277 .533 * DEG_RAD, // Angular Diameter
1278 34 /60.0 * DEG_RAD, // Refraction correction
1414 eclipObliquity *= DEG_RAD;
