| /external/chromium/third_party/icu/source/i18n/ |
| astro.h | 134 * equinox. The <i>Declination</i> is the position north or south
151 * @param dec The declination, measured in radians.
155 : ascension(asc), declination(dec) { }
160 * @param dec The declination, measured in radians.
165 declination = dec;
181 //return radToHms(ascension) + "," + radToDms(declination);
194 * The declination, in radians.
199 double declination; member in class:CalendarAstronomer::Equatorial
|
| astro.cpp | 508 double sinD = ::sin(equatorial.declination);
509 double cosD = cos(equatorial.declination);
788 // double H = ::acos(-tanL * ::tan(pos1.declination));
791 // H = ::acos(-tanL * ::tan(pos2.declination));
830 // double dec = (pos1.declination + pos2.declination) / 2;
[all...] |
| /external/icu4c/i18n/ |
| astro.h | 134 * equinox. The <i>Declination</i> is the position north or south
151 * @param dec The declination, measured in radians.
155 : ascension(asc), declination(dec) { }
160 * @param dec The declination, measured in radians.
165 declination = dec;
181 //return radToHms(ascension) + "," + radToDms(declination);
194 * The declination, in radians.
199 double declination; member in class:CalendarAstronomer::Equatorial
|
| astro.cpp | 508 double sinD = ::sin(equatorial.declination);
509 double cosD = cos(equatorial.declination);
788 // double H = ::acos(-tanL * ::tan(pos1.declination));
791 // H = ::acos(-tanL * ::tan(pos2.declination));
830 // double dec = (pos1.declination + pos2.declination) / 2;
[all...] |
