StelCore.hpp   StelCore.hpp 
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//! Add one [Earth, solar] hour to the current simulation time. //! Add one [Earth, solar] hour to the current simulation time.
void addHour(); void addHour();
//! Add one [Earth, solar] day to the current simulation time. //! Add one [Earth, solar] day to the current simulation time.
void addDay(); void addDay();
//! Add one [Earth, solar] week to the current simulation time. //! Add one [Earth, solar] week to the current simulation time.
void addWeek(); void addWeek();
//! Add one sidereal day to the simulation time. The length of time depends //! Add one sidereal day to the simulation time. The length of time depends
//! on the current planetary body on which the observer is located. //! on the current planetary body on which the observer is located.
void addSiderealDay(); void addSiderealDay();
//! Add seven sidereal days to the simulation time. The length of ti
me depends
//! on the current planetary body on which the observer is located.
void addSiderealWeek();
//! Add one sidereal year to the simulation time. The length of time depends //! Add one sidereal year to the simulation time. The length of time depends
//! on the current planetary body on which the observer is located. Sidereal year //! on the current planetary body on which the observer is located. Sidereal year
//! connected to orbital period of planets. //! connected to orbital period of planets.
void addSiderealYear(); void addSiderealYear();
//! Add n sidereal years to the simulation time. The length of time depends //! Add n sidereal years to the simulation time. The length of time depends
//! on the current planetary body on which the observer is located. Sidereal year //! on the current planetary body on which the observer is located. Sidereal year
//! connected to orbital period of planets. //! connected to orbital period of planets.
void addSiderealYears(float n=100.f); void addSiderealYears(float n=100.f);
//! Subtract one [Earth, solar] minute to the current simulation tim e. //! Subtract one [Earth, solar] minute to the current simulation tim e.
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//! Subtract one [Earth, solar] hour to the current simulation time. //! Subtract one [Earth, solar] hour to the current simulation time.
void subtractHour(); void subtractHour();
//! Subtract one [Earth, solar] day to the current simulation time. //! Subtract one [Earth, solar] day to the current simulation time.
void subtractDay(); void subtractDay();
//! Subtract one [Earth, solar] week to the current simulation time. //! Subtract one [Earth, solar] week to the current simulation time.
void subtractWeek(); void subtractWeek();
//! Subtract one sidereal day to the simulation time. The length of time depends //! Subtract one sidereal day to the simulation time. The length of time depends
//! on the current planetary body on which the observer is located. //! on the current planetary body on which the observer is located.
void subtractSiderealDay(); void subtractSiderealDay();
//! Subtract seven sidereal days to the simulation time. The length
of time depends
//! on the current planetary body on which the observer is located.
void subtractSiderealWeek();
//! Subtract one sidereal year to the simulation time. The length of time depends //! Subtract one sidereal year to the simulation time. The length of time depends
//! on the current planetary body on which the observer is located. Sidereal year //! on the current planetary body on which the observer is located. Sidereal year
//! connected to orbital period of planets. //! connected to orbital period of planets.
void subtractSiderealYear(); void subtractSiderealYear();
//! Subtract n sidereal years to the simulation time. The length of time depends //! Subtract n sidereal years to the simulation time. The length of time depends
//! on the current planetary body on which the observer is located. Sidereal year //! on the current planetary body on which the observer is located. Sidereal year
//! connected to orbital period of planets. //! connected to orbital period of planets.
void subtractSiderealYears(float n=100.f); void subtractSiderealYears(float n=100.f);
//! Add one synodic month to the simulation time. //! Add one synodic month to the simulation time.
void addSynodicMonth(); void addSynodicMonth();
//! Add one saros (223 synodic months) to the simulation time.
void addSaros();
//! Add one draconic year to the simulation time. //! Add one draconic year to the simulation time.
void addDraconicYear(); void addDraconicYear();
//! Add one draconic month to the simulation time. //! Add one draconic month to the simulation time.
void addDraconicMonth(); void addDraconicMonth();
//! Add one anomalistic month to the simulation time. //! Add one anomalistic month to the simulation time.
void addAnomalisticMonth(); void addAnomalisticMonth();
//! Add one anomalistic year to the simulation time. //! Add one anomalistic year to the simulation time.
void addAnomalisticYear(); void addAnomalisticYear();
//! Add n anomalistic years to the simulation time. //! Add n anomalistic years to the simulation time.
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//! Add n Julian years to the simulation time. //! Add n Julian years to the simulation time.
void addJulianYears(float n=100.f); void addJulianYears(float n=100.f);
//! Add one Gaussian year to the simulation time. The Gaussian Year is 365.2568983 days, and is C.F.Gauss's value for the Sidereal Year. //! Add one Gaussian year to the simulation time. The Gaussian Year is 365.2568983 days, and is C.F.Gauss's value for the Sidereal Year.
//! Note that 1 GaussY=2 π/k where k is the Gaussian gravitationa l constant. A massless body orbits one solar mass in 1AU distance in a Gaus sian Year. //! Note that 1 GaussY=2 π/k where k is the Gaussian gravitationa l constant. A massless body orbits one solar mass in 1AU distance in a Gaus sian Year.
void addGaussianYear(); void addGaussianYear();
//! Subtract one synodic month to the simulation time. //! Subtract one synodic month to the simulation time.
void subtractSynodicMonth(); void subtractSynodicMonth();
//! Subtract one saros (223 synodic months) to the simulation time.
void subtractSaros();
//! Subtract one draconic year to the simulation time. //! Subtract one draconic year to the simulation time.
void subtractDraconicYear(); void subtractDraconicYear();
//! Subtract one draconic month to the simulation time. //! Subtract one draconic month to the simulation time.
void subtractDraconicMonth(); void subtractDraconicMonth();
//! Subtract one anomalistic month to the simulation time. //! Subtract one anomalistic month to the simulation time.
void subtractAnomalisticMonth(); void subtractAnomalisticMonth();
//! Subtract one anomalistic year to the simulation time. //! Subtract one anomalistic year to the simulation time.
void subtractAnomalisticYear(); void subtractAnomalisticYear();
//! Subtract n anomalistic years to the simulation time. //! Subtract n anomalistic years to the simulation time.
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