Library "Ephemeris" TODO: add library description here
mercuryElements()
mercuryRates()
venusElements()
venusRates()
earthElements()
earthRates()
marsElements()
marsRates()
jupiterElements()
jupiterRates()
saturnElements()
saturnRates()
uranusElements()
uranusRates()
neptuneElements()
neptuneRates()
rev360(x) Normalize degrees to within [0, 360) Parameters: x (float): degrees to be normalized Returns: Normalized degrees
scaleAngle(longitude, magnitude, harmonic) Scale angle in degrees Parameters: longitude (float) magnitude (float) harmonic (int) Returns: Scaled angle in degrees
julianCenturyInJulianDays() Constant Julian days per century Returns: 36525
julianEpochJ2000() Julian date on J2000 epoch start (2000-01-01) Returns: 2451545.0
meanObliquityForJ2000() Mean obliquity of the ecliptic on J2000 epoch start (2000-01-01) Returns: 23.43928
getJulianDate(Year, Month, Day, Hour, Minute) Convert calendar date to Julian date Parameters: Year (int): calendar year as integer (e.g. 2018) Month (int): calendar month (January = 1, December = 12) Day (int): calendar day of month (e.g. January valid days are 1-31) Hour (int): valid values 0-23 Minute (int): valid values 0-60
julianCenturies(date, epoch_start) Centuries since Julian Epoch 2000-01-01 Parameters: date (float): Julian date to conver to Julian centuries epoch_start (float): Julian date of epoch start (e.g. J2000 epoch = 2451545) Returns: Julian date converted to Julian centuries
julianCenturiesSinceEpochJ2000(julianDate) Calculate Julian centuries since epoch J2000 (2000-01-01) Parameters: julianDate (float): Julian Date in days Returns: Julian centuries since epoch J2000 (2000-01-01)
atan2(y, x) Specialized arctan function Parameters: y (float): radians x (float): radians Returns: special arctan of y/x
eccAnom(ec, m_param, dp) Compute eccentricity of the anomaly Parameters: ec (float): Eccentricity of Orbit m_param (float): Mean Anomaly ? dp (int): Decimal places to round to Returns: Eccentricity of the Anomaly
planetEphemerisCalc(TGen, planetElementId, planetRatesId) Compute planetary ephemeris (longtude relative to Earth or Sun) on a Julian date Parameters: TGen (float): Julian Date planetElementId (float[]): All planet orbital elements in an array. This index references a specific planet's elements. planetRatesId (float[]): All planet orbital rates in an array. This index references a specific planet's rates. Returns: [xGen, yGen, zGen, rGen] X,Y,Z ecliptic rectangular coordinates and R radius from reference body.
calculateRightAscensionAndDeclination(earthX, earthY, earthZ, planetX, planetY, planetZ) Calculate right ascension and declination for a planet relative to Earth Parameters: earthX (float): Earth X ecliptic rectangular coordinate relative to Sun earthY (float): Earth Y ecliptic rectangular coordinate relative to Sun earthZ (float): Earth Z ecliptic rectangular coordinate relative to Sun planetX (float): Planet X ecliptic rectangular coordinate relative to Sun planetY (float): Planet Y ecliptic rectangular coordinate relative to Sun planetZ (float): Planet Z ecliptic rectangular coordinate relative to Sun Returns: [distPlanet, raPlanetDegrees, decPlanet] Planet geocentric orbital radius, geocentric right ascension, and geocentric declination
mercuryHelio(T) Compute Mercury heliocentric longitude on date Parameters: T (float) Returns: Mercury heliocentric longitude on date
venusHelio(T) Compute Venus heliocentric longitude on date Parameters: T (float) Returns: Venus heliocentric longitude on date
earthHelio(T) Compute Earth heliocentric longitude on date Parameters: T (float) Returns: Earth heliocentric longitude on date
marsHelio(T) Compute Mars heliocentric longitude on date Parameters: T (float) Returns: Mars heliocentric longitude on date
jupiterHelio(T) Compute Jupiter heliocentric longitude on date Parameters: T (float) Returns: Jupiter heliocentric longitude on date
saturnHelio(T) Compute Saturn heliocentric longitude on date Parameters: T (float) Returns: Saturn heliocentric longitude on date
neptuneHelio(T) Compute Neptune heliocentric longitude on date Parameters: T (float) Returns: Neptune heliocentric longitude on date
uranusHelio(T) Compute Uranus heliocentric longitude on date Parameters: T (float) Returns: Uranus heliocentric longitude on date
sunGeo(T) Parameters: T (float)
mercuryGeo(T) Parameters: T (float)
venusGeo(T) Parameters: T (float)
marsGeo(T) Parameters: T (float)
jupiterGeo(T) Parameters: T (float)
saturnGeo(T) Parameters: T (float)
neptuneGeo(T) Parameters: T (float)
uranusGeo(T) Parameters: T (float)
moonGeo(T_JD) Parameters: T_JD (float)
mercuryOrbitalPeriod() Mercury orbital period in Earth days Returns: 87.9691
venusOrbitalPeriod() Venus orbital period in Earth days Returns: 224.701
earthOrbitalPeriod() Earth orbital period in Earth days Returns: 365.256363004
marsOrbitalPeriod() Mars orbital period in Earth days Returns: 686.980
jupiterOrbitalPeriod() Jupiter orbital period in Earth days Returns: 4332.59
saturnOrbitalPeriod() Saturn orbital period in Earth days Returns: 10759.22
uranusOrbitalPeriod() Uranus orbital period in Earth days Returns: 30688.5
neptuneOrbitalPeriod() Neptune orbital period in Earth days Returns: 60195.0
jupiterSaturnCompositePeriod()
jupiterNeptuneCompositePeriod()
jupiterUranusCompositePeriod()
saturnNeptuneCompositePeriod()
saturnUranusCompositePeriod()
planetSineWave(julianDateInCenturies, planetOrbitalPeriod, planetHelio) Convert heliocentric longitude of planet into a sine wave Parameters: julianDateInCenturies (float) planetOrbitalPeriod (float): Orbital period of planet in Earth days planetHelio (float): Heliocentric longitude of planet in degrees Returns: Sine of heliocentric longitude on a Julian date
Dengan semangat TradingView yang sesungguhnya, penulis telah menerbitkan Kode Pine ini sebagai pustaka sumber terbuka sehingga programmer Pine lain dari komunitas kami dapat menggunakannya kembali. Hormat untuk penulis! Anda dapat menggunakan pustaka ini secara pribadi atau dalam publikasi sumber terbuka lainnya, namun penggunaan kembali kode ini dalam publikasi diatur oleh Tata Tertib.
Informasi dan publikasi tidak dimaksudkan untuk menjadi, dan bukan merupakan saran keuangan, investasi, perdagangan, atau rekomendasi lainnya yang diberikan atau didukung oleh TradingView. Baca selengkapnya di Persyaratan Penggunaan.