Searched refs:sinL (Results 1 – 4 of 4) sorted by relevance
145 int32 sinL = bbs_sin32_table1G[ indexL ] + oL * bbs_sin32_table1G[ indexL + 1 ]; in bbs_sin32() local149 return -sinL; in bbs_sin32()153 return sinL; in bbs_sin32()161 …int32 sinL = bbs_sin32_table2G[ indexL ] + ( ( o1L * bbs_sin32_table2G[ indexL + 1 ] ) << 3 ) + o… in bbs_sin32()165 return -sinL >> 6; in bbs_sin32()169 return sinL >> 6; in bbs_sin32()
451 double sinL = Math.sin(eclipLong); in eclipticToEquatorial() local458 return new Equatorial(Math.atan2(sinL*cosE - tanB*sinE, cosL), in eclipticToEquatorial()459 Math.asin(sinB*cosE + cosB*sinE*sinL) ); in eclipticToEquatorial()488 double sinL = Math.sin(fLatitude); in eclipticToHorizon() local491 double altitude = Math.asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()492 double azimuth = Math.atan2(-cosD*cosL*sinH, sinD - sinL * Math.sin(altitude)); in eclipticToHorizon()
449 double sinL = Math.sin(eclipLong); in eclipticToEquatorial() local456 return new Equatorial(Math.atan2(sinL*cosE - tanB*sinE, cosL), in eclipticToEquatorial()457 Math.asin(sinB*cosE + cosB*sinE*sinL) ); in eclipticToEquatorial()486 double sinL = Math.sin(fLatitude); in eclipticToHorizon() local489 double altitude = Math.asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()490 double azimuth = Math.atan2(-cosD*cosL*sinH, sinD - sinL * Math.sin(altitude)); in eclipticToHorizon()
470 double sinL = ::sin(eclipLong); in eclipticToEquatorial() local477 result.set(atan2(sinL*cosE - tanB*sinE, cosL), in eclipticToEquatorial()478 asin(sinB*cosE + cosB*sinE*sinL) ); in eclipticToEquatorial()511 double sinL = ::sin(fLatitude); in eclipticToHorizon() local514 double altitude = asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()515 double azimuth = atan2(-cosD*cosL*sinH, sinD - sinL * ::sin(altitude)); in eclipticToHorizon()