starainrt
3ffdbe0034
- 新增日食、月食、本地可见性、中心线、半影区域、SVG 图示与沙罗周期信息 - 新增行星冲合、留、方照、物理星历、视直径、相位、亮肢角、轨道节点等计算 - 新增木星伽利略卫星位置、现象与接触事件计算 - 新增恒星星表、星座判定、自行修正与观测辅助能力 - 新增 coord、formula、orbit、sundial、lite/sun、lite/moon 等扩展包 - 完善农历年号、月相英文别名、视差角、大气质量、折射、日晷与双星计算 - 增加 NASA、JPL Horizons、IMCCE 等回归测试数据与基线测试 - 重构基础算法文件组织,补充大量公开 API 注释和语义回归测试 - 更新中文和英文 README,补充示例、精度说明、SVG 配图
144 lines
5.1 KiB
Go
144 lines
5.1 KiB
Go
package moon
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import (
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"errors"
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"time"
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"b612.me/astro/basic"
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lite "b612.me/astro/lite/internal"
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. "b612.me/astro/tools"
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)
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var (
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ERR_MOON_NEVER_RISE = errors.New("ERROR:极夜,月亮在今日永远在地平线下!")
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ERR_MOON_NEVER_SET = errors.New("ERROR:极昼,月亮在今日永远在地平线上!")
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ERR_NOT_TODAY = errors.New("ERROR:月亮已在(昨日/明日)(升起/降下)")
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)
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// TrueLo 轻量真黄经 / lightweight true ecliptic longitude.
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func TrueLo(date time.Time) float64 {
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return lite.MoonGeocentric(basic.Date2JDE(date.UTC())).Longitude
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}
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// TrueBo 轻量真黄纬 / lightweight true ecliptic latitude.
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func TrueBo(date time.Time) float64 {
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return lite.MoonGeocentric(basic.Date2JDE(date.UTC())).Latitude
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}
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// TrueRa 轻量真赤经 / lightweight true right ascension.
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func TrueRa(date time.Time) float64 {
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return lite.MoonGeocentric(basic.Date2JDE(date.UTC())).RightAscension
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}
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// TrueDec 轻量真赤纬 / lightweight true declination.
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func TrueDec(date time.Time) float64 {
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return lite.MoonGeocentric(basic.Date2JDE(date.UTC())).Declination
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}
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// TrueRaDec 轻量真赤经、真赤纬 / lightweight true right ascension and declination.
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func TrueRaDec(date time.Time) (float64, float64) {
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state := lite.MoonGeocentric(basic.Date2JDE(date.UTC()))
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return state.RightAscension, state.Declination
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}
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// ApparentRa 轻量站心视赤经 / lightweight topocentric apparent right ascension.
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func ApparentRa(date time.Time, lon, lat float64) float64 {
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state := lite.MoonTopocentric(basic.Date2JDE(date.UTC()), lon, lat, 0)
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return state.RightAscension
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}
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// ApparentDec 轻量站心视赤纬 / lightweight topocentric apparent declination.
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func ApparentDec(date time.Time, lon, lat float64) float64 {
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state := lite.MoonTopocentric(basic.Date2JDE(date.UTC()), lon, lat, 0)
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return state.Declination
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}
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// ApparentRaDec 轻量站心视赤经、视赤纬 / lightweight topocentric apparent right ascension and declination.
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func ApparentRaDec(date time.Time, lon, lat float64) (float64, float64) {
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state := lite.MoonTopocentric(basic.Date2JDE(date.UTC()), lon, lat, 0)
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return state.RightAscension, state.Declination
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}
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// HourAngle 轻量时角 / lightweight hour angle.
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func HourAngle(date time.Time, lon, lat float64) float64 {
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_, _, hourAngle := lite.HorizontalCoordinates(ApparentRa(date, lon, lat), ApparentDec(date, lon, lat), basic.Date2JDE(date.UTC()), lon, lat)
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return hourAngle
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}
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// Azimuth 轻量方位角 / lightweight azimuth.
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func Azimuth(date time.Time, lon, lat float64) float64 {
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_, azimuth, _ := lite.HorizontalCoordinates(ApparentRa(date, lon, lat), ApparentDec(date, lon, lat), basic.Date2JDE(date.UTC()), lon, lat)
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return azimuth
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}
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// Altitude 轻量高度角 / lightweight altitude.
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func Altitude(date time.Time, lon, lat float64) float64 {
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altitude, _, _ := lite.HorizontalCoordinates(ApparentRa(date, lon, lat), ApparentDec(date, lon, lat), basic.Date2JDE(date.UTC()), lon, lat)
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return altitude
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}
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// Zenith 轻量天顶距 / lightweight zenith distance.
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func Zenith(date time.Time, lon, lat float64) float64 {
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return 90 - Altitude(date, lon, lat)
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}
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// SunMoonLoDiff 轻量日月黄经差 / lightweight Moon-Sun ecliptic-longitude difference.
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func SunMoonLoDiff(date time.Time) float64 {
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jd := basic.Date2JDE(date.UTC())
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return Limit360(lite.MoonGeocentric(jd).Longitude - lite.SunApparentLo(jd))
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}
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// PhaseAge 轻量月龄 / lightweight lunar age in days.
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func PhaseAge(date time.Time) float64 {
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return lite.SynodicMonthDays * SunMoonLoDiff(date) / 360.0
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}
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// Phase 轻量受照比例 / lightweight illuminated fraction.
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func Phase(date time.Time) float64 {
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return 0.5 * (1 - Cos(SunMoonLoDiff(date)))
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}
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// RiseTime 轻量月出时刻 / lightweight moonrise time.
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func RiseTime(date time.Time, lon, lat, height float64, aero bool) (time.Time, error) {
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return riseSetTime(date, lon, lat, height, aero, true)
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}
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// SetTime 轻量月落时刻 / lightweight moonset time.
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func SetTime(date time.Time, lon, lat, height float64, aero bool) (time.Time, error) {
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return riseSetTime(date, lon, lat, height, aero, false)
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}
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func riseSetTime(date time.Time, lon, lat, height float64, aero, isRise bool) (time.Time, error) {
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localMidnight := time.Date(date.Year(), date.Month(), date.Day(), 0, 0, 0, 0, date.Location())
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localJD := basic.Date2JDE(localMidnight)
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_, offset := localMidnight.Zone()
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timezone := float64(offset) / 3600.0
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targetAltitude := -basic.HeightDegreeByLat(height, lat)
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if aero {
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targetAltitude -= 0.83333
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}
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altitudeFn := func(localJD float64) float64 {
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utJD := localJD - timezone/24.0
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state := lite.MoonTopocentric(utJD, lon, lat, height)
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altitude, _, _ := lite.HorizontalCoordinates(state.RightAscension, state.Declination, utJD, lon, lat)
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return altitude
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}
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eventJD, err := lite.SearchRiseSet(localJD, targetAltitude, 15, isRise, altitudeFn)
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if err != nil {
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switch {
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case errors.Is(err, lite.ErrNeverRise):
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return time.Time{}, ERR_MOON_NEVER_RISE
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case errors.Is(err, lite.ErrNeverSet):
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return time.Time{}, ERR_MOON_NEVER_SET
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case errors.Is(err, lite.ErrNotOnThisDate):
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return time.Time{}, ERR_NOT_TODAY
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default:
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return time.Time{}, err
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}
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}
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return basic.JDE2DateByZone(eventJD, date.Location(), true), nil
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}
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