Stellarium  1.2
Protected Member Functions
StarWrapperBase Class Referenceabstract

#include <StarWrapper.hpp>

Protected Member Functions

virtual QString getType (void) const Q_DECL_OVERRIDE
 Return object's type. It should be the name of the class.
 
virtual QString getObjectType (void) const Q_DECL_OVERRIDE
 Return object's type. It should be English lowercase name of the type of the object.
 
virtual QString getObjectTypeI18n (void) const Q_DECL_OVERRIDE
 Return object's type. It should be translated lowercase name of the type of the object.
 
virtual QString getEnglishName (void) const Q_DECL_OVERRIDE
 Return object's name in english.
 
virtual QString getNameI18n (void) const Q_DECL_OVERRIDE=0
 Return translated object's name.
 
virtual QString getInfoString (const StelCore *core, const InfoStringGroup &flags) const Q_DECL_OVERRIDE
 StarWrapperBase supports the following InfoStringGroup flags. More...
 
virtual float getBV (void) const =0
 
- Protected Member Functions inherited from StelObject
QString getCommonInfoString (const StelCore *core, const InfoStringGroup &flags) const
 Format the positional info string containing J2000/of date/altaz/hour angle positions and constellation, sidereal time, etc. More...
 
virtual QString getMagnitudeInfoString (const StelCore *core, const InfoStringGroup &flags, const int decimals=1) const
 Format the magnitude info string for the object. More...
 
QString getSolarLunarInfoString (const StelCore *core, const InfoStringGroup &flags) const
 Add a section to the InfoString with just horizontal data for the Sun and Moon, when observed from Earth. More...
 
void postProcessInfoString (QString &str, const InfoStringGroup &flags) const
 Apply post processing on the info string. More...
 

Additional Inherited Members

- Public Types inherited from StelObject
enum  InfoStringGroupFlags {
  None = 0x00000000, Name = 0x00000001, CatalogNumber = 0x00000002, Magnitude = 0x00000004,
  RaDecJ2000 = 0x00000008, RaDecOfDate = 0x00000010, AltAzi = 0x00000020, Distance = 0x00000040,
  Elongation = 0x00000080, Size = 0x00000100, Velocity = 0x00000200, ProperMotion = 0x00000400,
  Extra = 0x00000800, HourAngle = 0x00001000, AbsoluteMagnitude = 0x00002000, GalacticCoord = 0x00004000,
  SupergalacticCoord = 0x00008000, OtherCoord = 0x00010000, ObjectType = 0x00020000, EclipticCoordJ2000 = 0x00040000,
  EclipticCoordOfDate = 0x00080000, IAUConstellation = 0x00100000, SiderealTime = 0x00200000, RTSTime = 0x00400000,
  SolarLunarPosition = 0x00800000, Script = 0x01000000, DebugAid = 0x02000000, NoFont = 0x04000000,
  PlainText = 0x08000000
}
 Used as named bitfield flags as specifiers to filter results of getInfoString. More...
 
- Public Slots inherited from StelObject
virtual void setExtraInfoString (const InfoStringGroup &flags, const QString &str)
 Allow additions to the Info String. More...
 
virtual void addToExtraInfoString (const StelObject::InfoStringGroup &flags, const QString &str)
 Add str to the extra string. More...
 
QStringList getExtraInfoStrings (const InfoStringGroup &flags) const
 Retrieve an (unsorted) QStringList of all extra info strings that match flags. More...
 
void removeExtraInfoStrings (const InfoStringGroup &flags)
 Remove the extraInfoStrings with the given flags. More...
 
- Public Member Functions inherited from StelObject
virtual SphericalRegionP getRegion () const Q_DECL_OVERRIDE
 Default implementation of the getRegion method. More...
 
virtual Vec3d getPointInRegion () const Q_DECL_OVERRIDE
 Default implementation of the getPointInRegion method. More...
 
virtual QVariantMap getInfoMap (const StelCore *core) const
 Return a key/value map with data about an object's position, magnitude and so on. More...
 
virtual QString getID () const =0
 Returns a unique identifier for this object. More...
 
virtual Vec3d getJ2000EquatorialPos (const StelCore *core) const =0
 Get observer-centered equatorial coordinates at equinox J2000.
 
Vec3d getEquinoxEquatorialPos (const StelCore *core) const
 Get observer-centered equatorial coordinate at the current equinox The frame has its Z axis at the planet's current rotation axis At time 2000-01-01 this frame is almost the same as J2000, but ONLY if the observer is on earth.
 
Vec3d getEquinoxEquatorialPosApparent (const StelCore *core) const
 Like getEquinoxEquatorialPos(core), but always adds refraction correction to the position.
 
Vec3d getEquinoxEquatorialPosAuto (const StelCore *core) const
 Like getEquinoxEquatorialPos(core), but adds refraction correction to the position if atmosphere is active.
 
Vec3d getGalacticPos (const StelCore *core) const
 Get observer-centered galactic coordinates.
 
Vec3d getSupergalacticPos (const StelCore *core) const
 Get observer-centered supergalactic coordinates.
 
Vec3d getSiderealPosGeometric (const StelCore *core) const
 Get observer-centered hour angle + declination (at current equinox) It is the geometric position, i.e. More...
 
Vec3d getSiderealPosApparent (const StelCore *core) const
 Get observer-centered hour angle + declination (at current equinox) It is the apparent position, i.e. More...
 
Vec3d getAltAzPosGeometric (const StelCore *core) const
 Get observer-centered alt/az position It is the geometric position, i.e. More...
 
Vec3d getAltAzPosApparent (const StelCore *core) const
 Get observer-centered alt/az position It is the apparent position, i.e. More...
 
Vec3d getAltAzPosAuto (const StelCore *core) const
 Get observer-centered alt/az position It is the automatic position, i.e. More...
 
float getParallacticAngle (const StelCore *core) const
 Get parallactic angle, which is the deviation between zenith angle and north angle. [radians].
 
bool isAboveHorizon (const StelCore *core) const
 Checking position an object above mathematical horizon for current location. More...
 
bool isAboveRealHorizon (const StelCore *core) const
 Checking position an object above real horizon for current location. More...
 
virtual Vec4d getRTSTime (const StelCore *core, const double altitude=0.) const
 Compute time of rise, transit and set for celestial object for current location. More...
 
virtual float getVMagnitude (const StelCore *core) const
 Return object's apparent V magnitude as seen from observer, without including extinction.
 
float getVMagnitudeWithExtinction (const StelCore *core) const
 Return object's apparent V magnitude as seen from observer including extinction. More...
 
virtual float getSelectPriority (const StelCore *) const
 Return a priority value which is used to discriminate objects by priority As for magnitudes, the lower is the higher priority.
 
virtual Vec3f getInfoColor () const
 Get a color used to display info about the object.
 
virtual double getCloseViewFov (const StelCore *) const
 Return the best FOV in degree to use for a close view of the object.
 
virtual double getSatellitesFov (const StelCore *) const
 Return the best FOV in degree to use for a global view of the object satellite system (if there are satellites)
 
virtual double getParentSatellitesFov (const StelCore *) const
 
virtual double getAngularRadius (const StelCore *core) const
 Return the angular radius of a circle containing the object as seen from the observer with the circle center assumed to be at getJ2000EquatorialPos(). More...
 
virtual float getAirmass (const StelCore *core) const
 Return airmass value for the object (for atmosphere-dependent calculations) More...
 
- Static Public Attributes inherited from StelObject
static constexpr InfoStringGroup AllInfo
 A pre-defined "all available" set of specifiers for the getInfoString flags argument to getInfoString. More...
 
static constexpr InfoStringGroup DefaultInfo
 A pre-defined "default" set of specifiers for the getInfoString flags argument to getInfoString It appears useful to propose this set as post-install settings and let users configure more on demand. More...
 
static constexpr InfoStringGroup ShortInfo = static_cast<InfoStringGroup>(Name|CatalogNumber|Magnitude|RaDecJ2000)
 A pre-defined "shortest useful" set of specifiers for the getInfoString flags argument to getInfoString.
 

Detailed Description

A Star (Star1,Star2,Star3,...) cannot be a StelObject. The additional overhead of having a dynamic type would simply be too much. Therefore the StarWrapper is needed when returning Stars as StelObjects, e.g. for searching, and for constellations. The StarWrapper is destroyed when it is not needed anymore, by utilizing reference counting. So there is no chance that more than a few hundreds of StarWrappers are alive simultanousely. Another reason for having the StarWrapper is to encapsulate the differences between the different kinds of Stars (Star1,Star2,Star3).

Member Function Documentation

◆ getInfoString()

virtual QString StarWrapperBase::getInfoString ( const StelCore core,
const InfoStringGroup &  flags 
) const
protectedvirtual
  • Name
  • Magnitude
  • RaDecJ2000
  • RaDec
  • AltAzi
  • PlainText
Parameters
corethe StelCore object
flagsa set of InfoStringGroup items to include in the return value.
Returns
a QString containing an HTML encoded description of the StarWrapperBase.

Implements StelObject.

Reimplemented in StarWrapper1.