StelObject Class Reference

The base abstract class for sky objects used in Stellarium like Stars, Planets, Constellations etc... More...

#include <StelObject.hpp>

Public Types
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
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
SphericalRegionP	getRegion () const override
	Default implementation of the getRegion method. More...
Vec3d	getPointInRegion () const override
	Default implementation of the getPointInRegion method. More...
virtual QString	getInfoString (const StelCore *core, const InfoStringGroup &flags=StelObject::AllInfo) const =0
	Write I18n information about the object in QString. 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	getType () const =0
	Return object's type. It should be the name of the class.
virtual QString	getObjectType () const =0
	Return object's type. More...
virtual QString	getObjectTypeI18n () const =0
	Return object's type. It should be translated lowercase name of the type of the object.
virtual QString	getID () const =0
	Returns a unique identifier for this object. More...
virtual QString	getEnglishName () const =0
	Return object's name in english.
virtual QString	getNameI18n () const =0
	Return translated object's name.
virtual Vec3d	getJ2000EquatorialPos (const StelCore *core) const =0
	Get observer-centered equatorial coordinates at equinox J2000, including aberration.
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 float knownVMag=-1000.f) 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
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.

Protected Member Functions
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...

Detailed Description

The base abstract class for sky objects used in Stellarium like Stars, Planets, Constellations etc...

Normally you should use StelObjectP instead of StelObject* which have by default the same behaviour, but which can be added reference counting if needed.

See also

StelObjectP

Member Enumeration Documentation

InfoStringGroupFlags

enum StelObject::InfoStringGroupFlags

Used as named bitfield flags as specifiers to filter results of getInfoString.

The precise definition of these should be documented in the getInfoString documentation for the derived classes for all specifiers which are defined in that derivative. Use InfoStringGroup instead.

Enumerator
None	Show Nothing.
Name	An object's name.
CatalogNumber	Catalog numbers.
Magnitude	Magnitude related data.
RaDecJ2000	The equatorial position (J2000 ref)
RaDecOfDate	The equatorial position (of date)
AltAzi	The position (Altitude/Azimuth)
Distance	Info about an object's distance.
Elongation	Info about elongation, phase angle etc. Most useful for Planets, but possible for all objects.
Size	Info about an object's size.
Velocity	Info about object's velocity.
ProperMotion	Annual proper motion (for stars) or hourly motion (for Planets)
Extra	Derived class-specific extra fields.
HourAngle	The hour angle + DE (of date)
AbsoluteMagnitude	The absolute magnitude.
GalacticCoord	The galactic position.
SupergalacticCoord	The supergalactic position.
OtherCoord	Unspecified additional coordinates. These can be "injected" into the extraInfoStrings by plugins.
ObjectType	The type of the object (star, planet, etc.)
EclipticCoordJ2000	The ecliptic position (J2000.0 ref) [+ XYZ of VSOP87A (used mainly for debugging, not public)].
EclipticCoordOfDate	The ecliptic position (of date)
IAUConstellation	Three-letter constellation code (And, Boo, Cas, ...)
SiderealTime	Mean and Apparent Sidereal Time.
RTSTime	Time of rise, transit and set of celestial object.
SolarLunarPosition	Show Solar and Lunar horizontal position (on Earth location only)
Script	Should be used by Scripts only which can inject extraInfoStrings.
DebugAid	Can be used for development only, place messages into extraInfoStrings. Comment them away or delete for releases.
PlainText	Strip HTML tags from output.

Member Function Documentation

addToExtraInfoString

virtual void StelObject::addToExtraInfoString ( const StelObject::InfoStringGroup &  flags, const QString &  str  )

virtualslot

Add str to the extra string.

This should be preferable over hard setting. Can be used by plugins to show extra info for the selected object, or for debugging. The strings will be shown in the InfoString for the selected object, below the default fields per-flag. Additional coordinates not fitting into one of the predefined coordinate sets should be flagged with OtherCoords, and must be adapted to table or non-table layout as required. The line ending must be given explicitly, usually just end a line with "<br/>", except when it may end up in a Table or appended to a line. See getCommonInfoString() or the respective getInfoString() in the subclasses for details of use.

Note

: If this breaks some const declaration, you can use StelObjectMgr::addToExtraInfoString() instead.

getAirmass()

virtual float StelObject::getAirmass ( const StelCore *  core ) const

virtual

Return airmass value for the object (for atmosphere-dependent calculations)

Parameters

core

Returns

airmass value or -1.f if calculations are not applicable or meaningless

getAltAzPosApparent()

Vec3d StelObject::getAltAzPosApparent

(

const StelCore *

core

)

const

Get observer-centered alt/az position It is the apparent position, i.e.

taking the refraction effect into account. The frame has its Z axis at the zenith

getAltAzPosAuto()

Vec3d StelObject::getAltAzPosAuto

(

const StelCore *

core

)

const

Get observer-centered alt/az position It is the automatic position, i.e.

taking the refraction effect into account if atmosphere is on. The frame has its Z axis at the zenith

getAltAzPosGeometric()

Vec3d StelObject::getAltAzPosGeometric

(

const StelCore *

core

)

const

Get observer-centered alt/az position It is the geometric position, i.e.

without taking refraction effect into account. The frame has its Z axis at the zenith

getAngularRadius()

virtual double StelObject::getAngularRadius ( const StelCore *  core ) const

inlinevirtual

Return the angular radius of a circle containing the object as seen from the observer with the circle center assumed to be at getJ2000EquatorialPos().

Returns

radius in degree. This value is the apparent angular size of the object, and is independent of the current FOV.

Note

The default implementation just returns zero.

Reimplemented in Planet, NomenclatureItem, Nebula, and Satellite.

getCommonInfoString()

QString StelObject::getCommonInfoString ( const StelCore *  core, const InfoStringGroup &  flags  ) const

protected

Format the positional info string containing J2000/of date/altaz/hour angle positions and constellation, sidereal time, etc.

for the object FIXME: We should split this and provide shorter virtual methods for various parts of the InfoString. The ExtraInfoStrings should be placed per flag, where they best fit.

getExtraInfoStrings

QStringList StelObject::getExtraInfoStrings ( const InfoStringGroup &  flags ) const

slot

Retrieve an (unsorted) QStringList of all extra info strings that match flags.

Normally the order matches the order of addition, but this cannot be guaranteed.

Note

: Usually objects should keep their extraInfoStrings to themselves. But there are cases where StelObjectMgr::setExtraInfoString() has been set.

getID()

virtual QString StelObject::getID ( ) const

pure virtual

Returns a unique identifier for this object.

The ID should be unique for all objects of the same type, but may freely conflict with IDs of other types, so getType() must also be tested.

With this it should be possible to at least identify the same object in a different instance of Stellarium running the same version, but it would even be better if the ID provides some degree of forward-compatibility. For some object types (e.g. planets) this may simply return getEnglishName(), but better candidates may be official designations or at least (stable) internal IDs.

An object may have multiple IDs (different catalog numbers, etc). StelObjectMgr::searchByID() should search through all ID variants, but this method only returns one of them.

Implemented in StarWrapper3, StarWrapper2, StarWrapper1, Planet, NomenclatureItem, CustomObject, Supernova, Satellite, Quasar, Pulsar, Nova, MissingStar, MeteorShower, Exoplanet, Nebula, and TelescopeClient.

getInfoMap()

virtual QVariantMap StelObject::getInfoMap ( const StelCore *  core ) const

virtual

Return a key/value map with data about an object's position, magnitude and so on.

Useful in a context like scripting. Derived objects can add their own special information tags.

Parameters

core	the current StelCore

Returns

a map of object data. Keys:

• above-horizon : true, if celestial body is above horizon
• altitude : apparent altitude angle in decimal degrees
• azimuth : apparent azimuth angle in decimal degrees
• altitude-geometric : geometric altitude angle in decimal degrees
• azimuth-geometric : geometric azimuth angle in decimal degrees
• airmass : number of airmasses the object's light had to pass through the atmosphere. For negative altitudes this number may be meaningless.
• ra : right ascension angle (current date frame) in decimal degrees
• dec : declination angle (current date frame) in decimal degrees
• raJ2000 : right ascension angle (J2000 frame) in decimal degrees
• decJ2000 : declination angle (J2000 frame) in decimal degrees
• parallacticAngle : parallactic angle in decimal degrees (for non-star objects only)
• hourAngle-dd : hour angle in decimal degrees
• hourAngle-hms : hour angle in HMS format (formatted string)
• iauConstellation : 3-letter abbreviation of IAU constellation (string)
• meanSidTm : mean sidereal time, in decimal degrees (on Earth only!)
• appSidTm : mean sidereal time, in decimal degrees (on Earth only!)
• glong : galactic longitude in decimal degrees
• glat : galactic latitude in decimal degrees
• sglong : supergalactic longitude in decimal degrees
• sglat : supergalactic latitude in decimal degrees
• ecliptic-obliquity : mean ecliptic obliquity of date in decimal degrees
• elong : ecliptic longitude in decimal degrees (on Earth only!)
• elat : ecliptic latitude in decimal degrees (on Earth only!)
• elongJ2000 : ecliptic longitude (Earth's J2000 frame) in decimal degrees
• elatJ2000 : ecliptic latitude (Earth's J2000 frame) in decimal degrees
• vmag : visual magnitude
• vmage : visual magnitude (after atmospheric extinction)
• size: angular size (diameter) in radians
• size-dd : angular size (diameter) in decimal degrees
• size-deg : angular size (diameter) in decimal degrees (formatted string)
• size-dms : angular size (diameter) in DMS format
• rise : time of rise in HM format
• rise-dhr : time of rise in decimal hours
• transit : time of transit in HM format
• transit-dhr : time of transit in decimal hours
• set : time of set in HM format
• set-dhr : time of set in decimal hours
• name : english name of the object
• localized-name : localized name
• type: type of object' class
• object-type: English lowercase name of the type of the object

Note

Coordinate values may need modulo operation to bring them into ranges [0..360].

Reimplemented in StarWrapper1, Planet, Nebula, Comet, Supernova, Satellite, Quasar, Pulsar, Nova, MeteorShower, and Exoplanet.

getInfoString()

virtual QString StelObject::getInfoString ( const StelCore *  core, const InfoStringGroup &  flags = StelObject::AllInfo  ) const

pure virtual

Write I18n information about the object in QString.

Parameters

core	the StelCore object to use
flags	a set of InfoStringGroup flags which are used to filter the return value - including specified types of information and altering the output format.

Returns

an HTML string containing information about the StelObject.

Implemented in StarWrapper1, StarWrapperBase, Planet, NomenclatureItem, Nebula, CustomObject, TelescopeClient, Supernova, Satellite, Quasar, Pulsar, Nova, MissingStar, MeteorShower, and Exoplanet.

getMagnitudeInfoString()

virtual QString StelObject::getMagnitudeInfoString ( const StelCore *  core, const InfoStringGroup &  flags, const int  decimals = 1  ) const

protectedvirtual

Format the magnitude info string for the object.

Parameters

core
flags
decimals	significant digits after the comma.

Reimplemented in Nebula, and Supernova.

getObjectType()

virtual QString StelObject::getObjectType ( ) const

pure virtual

Return object's type.

It should be English lowercase name of the astronomical type of the object. The purpose of this string is a distinction or further refinement over object class name retrieved with getType(): Planet objects can be planets, moons, or even the Sun. The Sun should however return "star". Nebula objects should return their actual type like "open cluster", "galaxy", "nebula", ...

Implemented in StarWrapperBase, Planet, NomenclatureItem, CustomObject, TelescopeClient, Supernova, Satellite, Quasar, Pulsar, Nova, MissingStar, MeteorShower, Exoplanet, StarWrapper1, and Nebula.

getPointInRegion()

Vec3d StelObject::getPointInRegion ( ) const

inlineoverridevirtual

Default implementation of the getPointInRegion method.

Return the J2000 Equatorial Position of the object.

Implements StelRegionObject.

getRegion()

SphericalRegionP StelObject::getRegion ( ) const

inlineoverridevirtual

Default implementation of the getRegion method.

Return the spatial region of the object.

Implements StelRegionObject.

getRTSTime()

virtual Vec4d StelObject::getRTSTime ( const StelCore *  core, const double  altitude = 0.  ) const

virtual

Compute time of rise, transit and set for celestial object for current location.

Parameters

core	the currently active StelCore object
altitude	(optional; default=0) altitude of the object, degrees. Setting this to -6. for the Sun will find begin and end for civil twilight.

Returns

Vec4d - time of rise, transit and set closest to current time; JD.

Note

The fourth element flags particular conditions:

• +100. for circumpolar objects. Rise and set give lower culmination times.
• -100. for objects never rising. Rise and set give transit times.
• -1000. is used as "invalid" value. The result should then not be used.
• +20. (Planet objects only) no transit time on current date.
• +30. (Planet objects only) no rise time on current date.
• +40. (Planet objects only) no set time on current date.

This is an abbreviated version of the method implemented in the Planet class.

Reimplemented in Planet, and NomenclatureItem.

getSiderealPosApparent()

Vec3d StelObject::getSiderealPosApparent

(

const StelCore *

core

)

const

Get observer-centered hour angle + declination (at current equinox) It is the apparent position, i.e.

taking the refraction effect into account. The frame has its Z axis at the planet's current rotation axis

getSiderealPosGeometric()

Vec3d StelObject::getSiderealPosGeometric

(

const StelCore *

core

)

const

Get observer-centered hour angle + declination (at current equinox) It is the geometric position, i.e.

without taking refraction effect into account. The frame has its Z axis at the planet's current rotation axis

getSolarLunarInfoString()

QString StelObject::getSolarLunarInfoString ( const StelCore *  core, const InfoStringGroup &  flags  ) const

protected

Add a section to the InfoString with just horizontal data for the Sun and Moon, when observed from Earth.

The application of this is to have quick info while observing other objects.

getVMagnitudeWithExtinction()

float StelObject::getVMagnitudeWithExtinction	(	const StelCore *	core,
		const float	knownVMag = -1000.f
	)		const

Return object's apparent V magnitude as seen from observer including extinction.

Extinction obviously only if atmosphere=on. If you already know vMag, it is wise to provide it in the optional

Parameters

knownVMag.

Else it is called from getVMagnitude() which may be costly.

isAboveHorizon()

bool StelObject::isAboveHorizon

(

const StelCore *

core

)

const

Checking position an object above mathematical horizon for current location.

Returns

true if object an above mathematical horizon

isAboveRealHorizon()

bool StelObject::isAboveRealHorizon

(

const StelCore *

core

)

const

Checking position an object above real horizon for current location.

Returns

true if object an above real horizon (uses test for landscapes)

postProcessInfoString()

void StelObject::postProcessInfoString ( QString &  str, const InfoStringGroup &  flags  ) const

protected

Apply post processing on the info string.

This also removes all extraInfoStrings possibly injected by modules (plugins) etc., except for Script and DebugAid types.

removeExtraInfoStrings

void StelObject::removeExtraInfoStrings ( const InfoStringGroup &  flags )

slot

Remove the extraInfoStrings with the given flags.

This is a finer-grained removal than just extraInfoStrings.remove(flags), as it allows a combination of flags. After display, InfoPanel::setTextFromObjects() auto-clears the strings of the selected object using the AllInfo constant. extraInfoStrings having been set with the DebugAid and Script flags have to be removed by separate calls of this method. Those which have been set by scripts have to persist at least as long as the selection remains active. The behaviour of DebugAid texts depends on the use case.

Note

: Usually objects should keep their extraInfoStrings to themselves. But there are cases where StelObjectMgr::setExtraInfoString() has been set.

setExtraInfoString

virtual void StelObject::setExtraInfoString ( const InfoStringGroup &  flags, const QString &  str  )

virtualslot

Allow additions to the Info String.

Can be used by plugins to show extra info for the selected object, or for debugging. Hard-set this string group to a single str, or delete all messages when str==""

Note

This should be used with caution. Usually you want to use addToExtraInfoString().

: If this breaks some const declaration, you can use StelObjectMgr::setExtraInfoString() instead.

Field Documentation

AllInfo

constexpr InfoStringGroup StelObject::AllInfo

staticconstexpr

Initial value:

= static_cast<InfoStringGroup>(Name|CatalogNumber|Magnitude|RaDecJ2000|RaDecOfDate|AltAzi|
                                       Distance|Elongation|Size|Velocity|ProperMotion|Extra|HourAngle|AbsoluteMagnitude|
                                       GalacticCoord|SupergalacticCoord|OtherCoord|ObjectType|EclipticCoordJ2000|
                                       EclipticCoordOfDate|IAUConstellation|SiderealTime|RTSTime|SolarLunarPosition)

A pre-defined "all available" set of specifiers for the getInfoString flags argument to getInfoString.

DefaultInfo

constexpr InfoStringGroup StelObject::DefaultInfo

staticconstexpr

Initial value:

= static_cast<InfoStringGroup>(Name|CatalogNumber|Magnitude|RaDecOfDate|HourAngle|AltAzi|OtherCoord|
                                              Distance|Elongation|Size|Velocity|Extra|IAUConstellation|SiderealTime|RTSTime)

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.