Gyoto
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The camera with which the Astrobj is observed. More...
#include <GyotoScreen.h>
Classes | |
class | Angles |
1D specifier for an arbitrary angle coordinate set. More... | |
class | Bucket |
Class containing arbitrary 2D-points. More... | |
class | Coord1dSet |
Set of 1-d coordinates: indices or angles. More... | |
class | Coord2dSet |
Class to specify a set of points on the Screen. More... | |
class | Empty |
A dummy, empty 2D set. More... | |
class | Grid |
Class containing 2D-points organized in a grid. More... | |
class | Indices |
1D specifier for an arbitrary pixel coordinate set. More... | |
class | Range |
1D coordinated specifier for a range More... | |
class | RepeatAngle |
1D specifier for an angle that is repeated. More... | |
Public Types | |
enum | CoordType_e { angle , pixel } |
Enum to specify whether a coordinate set (Coord1dSet or Coord2dSet) holds pixel values or angles. | |
typedef Gyoto::SmartPointer< Gyoto::SmartPointee > | Subcontractor_t(Gyoto::FactoryMessenger *, std::vector< std::string > const &) |
A subcontractor builds an object upon order from the Factory. More... | |
Public Member Functions | |
virtual Property const * | getProperties () const |
Get list of properties. More... | |
Screen () | |
Default constructor. | |
Screen (const Screen &) | |
Copy constructor. | |
Screen * | clone () const |
Cloner. | |
virtual | ~Screen () |
Destructor. | |
void | setProjection (const double paln, const double inclination, const double argument) |
Set inclination etc. | |
void | setProjection (const double distance, const double paln, const double inclination, const double argument) |
Set distance, inclination etc. | |
void | distance (double dist) |
Set distance from observer. More... | |
void | dMax (double dist) |
Set ray-tracing maximum distance. More... | |
void | distance (double dist, const std::string &unit) |
Set distance from observer. More... | |
void | inclination (double) |
Set inclination relative to line-of-sight. More... | |
void | inclination (double, const std::string &unit) |
Set inclination relative to line-of-sight. More... | |
void | PALN (double) |
Set position angle of the line of nodes. | |
void | PALN (double, const std::string &unit) |
Set position angle of the line of nodes. | |
void | argument (double) |
Set angle beetwen line of nodes and X axis of object. | |
void | argument (double, const std::string &unit) |
Set angle beetwen line of nodes and X axis of object. | |
void | spectrometer (SmartPointer< Spectrometer::Generic > spectro) |
Set Screen::spectro_. | |
SmartPointer< Spectrometer::Generic > | spectrometer () const |
Get Screen::spectro_. | |
void | freqObs (double fo) |
Set freq_obs_. More... | |
void | freqObs (double fo, const std::string &unit) |
Set freq_obs_. More... | |
double | freqObs () const |
Get freq_obs_. | |
double | freqObs (const std::string &unit) const |
Get freq_obs_. More... | |
void | setObserverPos (const double pos[4]) |
Alternative way to set projection. More... | |
void | observerKind (const std::string &kind) |
std::string | observerKind () const |
void | setFourVel (const double coord[4]) |
Sets the observer's 4-velocity. | |
void | setScreen1 (const double coord[4]) |
Sets the screen vector e1. | |
void | setScreen2 (const double coord[4]) |
Sets the screen vector e2. | |
void | setScreen3 (const double coord[4]) |
Sets the screen vector e3 (normal) | |
int | coordKind () const |
Get coordinate kind. More... | |
double | distance () const |
Get distance from observer. More... | |
double | distance (const std::string &) const |
Get distance from observer. More... | |
double | dMax () const |
Get maximum ray-tracing distance. More... | |
double | inclination () const |
Get inclination relative to line-of-sight. More... | |
double | inclination (const std::string &) const |
Get inclination relative to line-of-sight. More... | |
double | PALN () const |
Get position angle of the line of nodes. | |
double | PALN (const std::string &) const |
Get position angle of the line of nodes. | |
double | argument () const |
Get angle between line of nodes and X axis of object. | |
double | argument (const std::string &) const |
Get angle between line of nodes and X axis of object. | |
SmartPointer< Metric::Generic > | metric () const |
Get Screen::gg_. | |
void | metric (SmartPointer< Metric::Generic > gg) |
Set Screen::gg_. | |
double | time () const |
Get observing date in seconds. | |
double | time (const std::string &) const |
Get observing date in seconds. | |
void | time (double, const std::string &) |
Set observing date in specified unit. | |
void | time (double) |
Set observing date in seconds. | |
double | fieldOfView () const |
Get Screen::fov_ in radians. | |
double | fieldOfView (std::string const &unit) const |
Get Screen::fov_ in specified unit. | |
void | fieldOfView (double) |
Set Screen::fov_ in radians. | |
void | fieldOfView (double, const std::string &unit) |
Set Screen::fov_ in specified unit. | |
double | azimuthalFieldOfView () const |
Get Screen::azimuthal_fov_. | |
void | azimuthalFieldOfView (double ff) |
Set Screen::azimuthal_fov_. | |
void | dangle1 (double) |
Set increment to first position angle. | |
void | dangle1 (double, const std::string &unit) |
Set increment to first position angle in specified unit. | |
double | dangle1 () const |
Get increment to first position angle. | |
double | dangle1 (std::string const &unit) const |
Get increment to first position angle in specified unit. | |
void | dangle2 (double) |
Set increment to second position angle. | |
void | dangle2 (double, const std::string &unit) |
Set increment to second position angle in specified unit. | |
double | dangle2 () const |
Get increment to second position angle. | |
double | dangle2 (std::string const &unit) const |
Get increment to second position angle in specified unit. | |
void | anglekind (int) |
Set Screen::anglekind_. | |
void | anglekind (std::string const &) |
std::string | anglekind () const |
size_t | resolution () const |
Get Screen::npix_. | |
void | resolution (size_t) |
Set Screen::npix_. | |
void | mask (double const *const mm, size_t resolution=0) |
Set mask_ from array. More... | |
double const * | mask () const |
Retrieve const pointer to mask_. | |
void | maskFile (std::string const &fname) |
std::string | maskFile () const |
bool | operator() (size_t, size_t) |
Whether this pixel should be ray-traced. More... | |
void | getObserverPos (double dest[4]) const |
4-Position of the observer relative to the metric More... | |
void | getFourVel (double dest[4]) const |
Get copy of Screen::fourvel_. More... | |
void | fourVel (std::vector< double > const &) |
std::vector< double > | fourVel () const |
void | screenVector1 (std::vector< double > const &) |
std::vector< double > | screenVector1 () const |
void | screenVector2 (std::vector< double > const &) |
std::vector< double > | screenVector2 () const |
void | screenVector3 (std::vector< double > const &) |
std::vector< double > | screenVector3 () const |
void | getScreen1 (double dest[4]) const |
Get copy of Screen::screen1_. More... | |
void | getScreen2 (double dest[4]) const |
Get copy of Screen::screen2_. More... | |
void | getScreen3 (double dest[4]) const |
Get copy of Screen::screen3_. More... | |
void | getRayCoord (double x, double y, double dest[8]) const |
Get 8-coordinate of Photon hitting screen from a given direction. More... | |
void | getRayTriad (double coord[8], double Ephi[4], double Etheta[4]) const |
Get polarization triad. More... | |
void | getRayCoord (const size_t i, const size_t j, double dest[8]) const |
Get 8-coordinate of Photon hitting screen pixel. More... | |
void | coordToSky (const double pos[4], double dest[3]) const |
Convert 4-position to 3-sky position. | |
void | coordToXYZ (const double pos[4], double dest[3]) const |
Convert 4-position to 3-cartesian coordinates. | |
void | computeBaseVectors () |
Compute base vectors according to projection parameters. | |
std::ostream & | print (std::ostream &) const |
Display. More... | |
std::ostream & | printBaseVectors (std::ostream &) const |
Debug helper. | |
void | fillProperty (Gyoto::FactoryMessenger *fmp, Property const &p) const |
Output a single Property to XML. More... | |
void | incRefCount () |
Increment the reference counter. Warning: Don't mess with the counter. | |
int | decRefCount () |
Decrement the reference counter and return current value. Warning: Don't mess with the counter. | |
int | getRefCount () |
Get the current number of references. | |
virtual bool | isThreadSafe () const |
Whether this class is thread-safe. More... | |
void | set (Property const &p, Value val) |
Set Value of a Property. | |
void | set (Property const &p, Value val, std::string const &unit) |
Set Value (expressed in unit) of a Property. | |
void | set (std::string const &pname, Value val) |
Set Value of a Property. | |
void | set (std::string const &pname, Value val, std::string const &unit) |
Set Value (expressed in unit) of a Property. | |
Value | get (Property const &p) const |
Get Value of a Property. | |
Value | get (std::string const &pname) const |
Get Value of a Property. | |
Value | get (Property const &p, std::string const &unit) const |
Get Value of a Property, converted to unit. | |
Value | get (std::string const &pname, std::string const &unit) const |
Get Value of a Property, converted to unit. | |
Property const * | property (std::string const pname) const |
Find property by name. More... | |
virtual void | fillElement (Gyoto::FactoryMessenger *fmp) const |
Fill the XML element for this Object. More... | |
virtual void | setParameters (Gyoto::FactoryMessenger *fmp) |
Main loop for parsing Properties from XML description. More... | |
virtual int | setParameter (std::string name, std::string content, std::string unit) |
Set parameter by name. More... | |
virtual void | setParameter (Gyoto::Property const &p, std::string const &name, std::string const &content, std::string const &unit) |
Set parameter by Property (and name) More... | |
std::string | describeProperty (Gyoto::Property const &p) const |
Format desrciption for a property. More... | |
void | help () const |
Print (to stdout) some help on this class. More... | |
Static Public Member Functions | |
static SmartPointer< Screen > | Subcontractor (FactoryMessenger *fmp) |
Instanciate a Screen from XML entity. | |
Public Attributes | |
GYOTO_OBJECT_THREAD_SAFETY | |
Static Public Attributes | |
static GYOTO_OBJECT Property const | properties [] |
Protected Attributes | |
std::string | kind_ |
The "kind" that is output in the XML entity. More... | |
std::vector< std::string > | plugins_ |
The plug-ins that needs to be loaded to access this instance's class. More... | |
Private Types | |
enum | anglekind_e { equatorial_angles =0 , rectilinear =1 , spherical_angles =2 } |
typedef int | anglekind_t |
Private Attributes | |
double | tobs_ |
Observing date in s. | |
double | fov_ |
Field-of-view in rad. | |
double | azimuthal_fov_ |
Azimuthal field-of-view for Spherical Angles images. Maximal extent of image in the azimuthal b-angle direction. | |
size_t | npix_ |
Resolution in pixels. | |
double * | mask_ |
Mask with 0 where the ray-tracing should not be performed. | |
std::string | mask_filename_ |
Last read or written FITS file. More... | |
double | distance_ |
Distance to the observer in m. | |
double | dmax_ |
Maximum distance from which the photons are launched (geometrical units) | |
anglekind_t | anglekind_ |
Screen angles kind (0: equatorial, 1: spherical) | |
double | euler_ [3] |
Euler angles. More... | |
double | ex_ [3] |
Sky coordinate of base X vector. | |
double | ey_ [3] |
Sky coordinate of base Y vector. | |
double | ez_ [3] |
Sky coordinate of base Z vector. | |
double | fourvel_ [4] |
Observer's 4-velocity. | |
double | screen1_ [4] |
Screen e1 vector. | |
double | screen2_ [4] |
Screen e2 vector. | |
double | screen3_ [4] |
Screen e3 vector (normal) | |
double | dangle1_ |
Increment to first position angle of Screen; can be typically alpha if in Equatorial Angles, or a if in Spherical Angles. | |
double | dangle2_ |
Increment to second position angle of Screen; can be typically delta if in Equatorial Angles, or b if in Spherical Angles. | |
SmartPointer< Metric::Generic > | gg_ |
The Metric in this end of the Universe. | |
SmartPointer< Spectrometer::Generic > | spectro_ |
Gyoto::Spectrometer::Generic subclass instance used for quantities Spectrum and BinSpectrum. | |
double | freq_obs_ |
Frequency at which the observer observes. More... | |
obskind_t | observerkind_ |
What kind of observer are we considering? (At infinity, ZAMO...) | |
int | refCount |
Reference counter. | |
pthread_mutex_t | mutex_ |
A mutex. More... | |
Friends | |
class | Gyoto::SmartPointer< Gyoto::Screen > |
The camera with which the Astrobj is observed.
In the observer-centric point-of-view, the center of the Metric's coordinate system is positioned relatively to the observing Screen using three Euler angles and the distance (in meters). The three Euler angles are:
In addition, the Screen conveys:
The scalar FreqObs defines the observing frequency for Scenery quantity Intensity.
Likewise, a Gyoto::Spectrometer defines for which frequencies spectra are computed (when the Quantity Spectrum is requested in the Scenery).
For the sake of theoreticians, there is an alternate way of specifying the relative position of the Screen and Metric, by specifying the 4-coordinates of the Screen in the Metric's coordinate system (in that case, eerything is specified in geometrical units).
So an XML stanza for a Screen may look like that:
or like that:
Units can be specified using the unit attribute in the XML file, for instance:
Possible units are (with [] noting the default):
When the distance is really large and most of the ray-tracing would happen de facto in flat space, the camera is transported to a location at a reasonable distance from the metric and the images are scaled accordingly. The default value for this distance should be fine, but it can be customized using the "dmax" attribute of the "Distance" element. "dmax" is always expressed in geometrical units:
Symptoms when dmax is too large include pixelization of the image (neighbouring photons are numerically identical) and other numerical overflows. dmax is too small when it is apparent that changing it yields projection effects. dmax must be large compared to rmax in the Astrobj and ideally, changing it by an order of magnitude should not yield significant changes in the ray-traced image.
A mask may be used to limit ray-tracing to only some portions of the field. The Scenery checks whether a mask is to be used using Screen::operator()(size_t i, size_t j). The mask can be loaded from a FITS file as a square image of doubles:
The mask needs to be have the same size as the Screen itself, so loading a mask also sets the resolution, and changing the resolution after setting a mask also removes the mask. The content of the Mask entity is parsed by Factory::fullPath(), so it can be an absolute path, a path relative to where the XML file is stored, or relative to the current working directory if prefixed with "`pwd`/".
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inherited |
A subcontractor builds an object upon order from the Factory.
Various classes need to provide a subcontractor to be able to instantiate themselves upon order from the Factory. A subcontractor is a function (often a static member function) which accepts a pointer to a FactoryMessenger as unique parameter, communicates with the Factory using this messenger to read an XML description of the object to build, and returns this objet. SmartPointee::Subcontractor_t* is just generic enough a typedef to cast to and from other subcontractor types: Astrobj::Subcontractor_t, Metric::Subcontractor_t, Spectrum::Subcontractor_t. A subcontractor needs to be registered using the relevant Register() function: Astrobj::Register(), Metric::Register(), Spectrum::Register().
int Gyoto::Screen::coordKind | ( | ) | const |
Get coordinate kind.
From Screen::gg_.
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inherited |
Format desrciption for a property.
Returns a string containing the name(s) and type of the property, as well as whether it supports unit.
double Gyoto::Screen::distance | ( | ) | const |
Get distance from observer.
In meters.
double Gyoto::Screen::distance | ( | const std::string & | ) | const |
Get distance from observer.
In specified unit. Get distance from observer
void Gyoto::Screen::distance | ( | double | dist | ) |
Set distance from observer.
dist | Distance in meters. |
void Gyoto::Screen::distance | ( | double | dist, |
const std::string & | unit | ||
) |
Set distance from observer.
dist | the distance expressed in the specified unit; |
unit | convertible to meters |
double Gyoto::Screen::dMax | ( | ) | const |
Get maximum ray-tracing distance.
In geometrical units.
void Gyoto::Screen::dMax | ( | double | dist | ) |
Set ray-tracing maximum distance.
dist | Distance in geometrical units. |
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virtualinherited |
Fill the XML element for this Object.
The base implementation simply calls fillProperty() for each Property defined for the Object.
Derived classes should avoid overriding fillElement(). It may make sense occasionally, e.g. to make sure that the metric is output first.
To customize how a given Property is rendered, it is better to override fillProperty().
If this method is overridden, the implementation should in general call fillElement() on the direct base.
Reimplemented in Gyoto::Astrobj::Complex, Gyoto::Spectrometer::Complex, and Gyoto::Scenery.
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virtual |
Output a single Property to XML.
The base implementation decides what to do based on the p.type. The format matches how setParameters() an setParameter() would interpret the XML descition.
Overriding this method should be avoided, but makes sense in some cases (for instance Screen::fillProperty() selects a different unit for Distance based on its magnitude, so that stellar sizes are expressed in solar radii while smaller sizes can be expressed in meters and larger sizes in parsecs).
Overriding implementation should fall-back on calling the implementation in the direct parent class:
Reimplemented from Gyoto::Object.
double Gyoto::Screen::freqObs | ( | const std::string & | unit | ) | const |
Get freq_obs_.
unit | string: unit in which freq_obs_ should be returned is expressed, convertible to Herz or meters or energy. |
void Gyoto::Screen::freqObs | ( | double | fo | ) |
Set freq_obs_.
fo | double: observing frequency in Hz |
void Gyoto::Screen::freqObs | ( | double | fo, |
const std::string & | unit | ||
) |
Set freq_obs_.
fo | double: observing frequency (or wavelength) in "unit" |
unit | string: unit in which fo is expressed, convertible to Herz or meters or energy. |
void Gyoto::Screen::getFourVel | ( | double | dest[4] | ) | const |
Get copy of Screen::fourvel_.
[out] | fourvel | preallocated 4-element array |
void Gyoto::Screen::getObserverPos | ( | double | dest[4] | ) | const |
4-Position of the observer relative to the metric
A Screen is positioned relative to the observer with four elements: Screen::distance, Screen::inclination, Screen::paln and Screen::argument.
This function returns the position of the observer relative to the metric system in Screen::gg_, using these parameters. The output parameter is coord.
[out] | coord | position of the observer. Must be preallocated. |
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virtual |
Get list of properties.
This method is declared automatically by the GYOTO_OBJECT macro and defined automatically by the GYOTO_PROPERTY_END macro.
Reimplemented from Gyoto::Object.
Get 8-coordinate of Photon hitting screen pixel.
Similar to Screen::getObserverPos() but will return in addition the 4-velocity of a photon corresponding to the sky direction given by x and y.
[in] | i,j | pixel coordinates |
[out] | dest | position-velocity of the Photon. Preallocated. |
void Gyoto::Screen::getRayCoord | ( | double | x, |
double | y, | ||
double | dest[8] | ||
) | const |
Get 8-coordinate of Photon hitting screen from a given direction.
Similar to Screen::getObserverPos() but will return in addition the 4-velocity of a photon corresponding to the sky direction given by x and y.
[in] | x | RA (d_alpha*cos(delta)) offset in radians; |
[in] | y | Dec offset (d_delta) in radians; |
[out] | dest | position-velocity of the observer Photon. Preallocated. |
void Gyoto::Screen::getRayTriad | ( | double | coord[8], |
double | Ephi[4], | ||
double | Etheta[4] | ||
) | const |
Get polarization triad.
Computes the polarization triad (Ephi,Etheta,k) from the tangent to photon geodesic k.
[in] | coord | Photon coordinate + tangent vector (double[8]) |
[out] | Ephi | first polarisation direction. Preallocated. Default: NULL. |
[out] | Etheta | second polarisation direction. Preallocated. Default: NULL. |
void Gyoto::Screen::getScreen1 | ( | double | dest[4] | ) | const |
Get copy of Screen::screen1_.
[out] | dest | preallocated 4-element array |
void Gyoto::Screen::getScreen2 | ( | double | dest[4] | ) | const |
Get copy of Screen::screen2_.
[out] | dest | preallocated 4-element array |
void Gyoto::Screen::getScreen3 | ( | double | dest[4] | ) | const |
Get copy of Screen::screen3_.
[out] | dest | preallocated 4-element array |
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inherited |
Print (to stdout) some help on this class.
Describe all properties that this instance supports.
double Gyoto::Screen::inclination | ( | ) | const |
Get inclination relative to line-of-sight.
Inclination of z-axis relative to line-of-sight, or inclination of equatorial plane relative to plane of the sky, in radians.
double Gyoto::Screen::inclination | ( | const std::string & | ) | const |
Get inclination relative to line-of-sight.
Inclination of z-axis relative to line-of-sight, or inclination of equatorial plane relative to plane of the sky, in specified unit.
void Gyoto::Screen::inclination | ( | double | ) |
Set inclination relative to line-of-sight.
Inclination of z-axis relative to line-of-sight, or inclination of equatorial plane relative to plane of the sky, in radians
void Gyoto::Screen::inclination | ( | double | , |
const std::string & | unit | ||
) |
Set inclination relative to line-of-sight.
Inclination of z-axis relative to line-of-sight, or inclination of equatorial plane relative to plane of the sky, in specified unit.
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virtualinherited |
Whether this class is thread-safe.
Return True if this object is thread-safe, i.e. if an instance and its clone can be used in parallel threads (in the context of Scenery::raytrace()). Known objects which are not thread-safe include Lorene metrics and everything from the Python plug-in.
The default implementation considers that the class itself is thread safe and recurses into the declared properties to check whether they are safe too. Classes that abide to the Object/Property paradigm and are themselves thread-safe have nothing special to do.
Objects that clone children in their copy constructor that are not declared as properties must take these children into account.
Classes that are never thread-safe must declare it. It acn be easily done using GYOTO_OBJECT_THREAD_SAFETY in the class declaration and GYOTO_PROPERTY_THREAD_UNSAFE in the class definition.
void Gyoto::Screen::mask | ( | double const *const | mm, |
size_t | resolution = 0 |
||
) |
Set mask_ from array.
mm will be copied. mm must be a square resolution x resolution array. If mm==NULL, just deallocate mask_.
Whether this pixel should be ray-traced.
If mask_ is not set, always true. Else, true for non-zero cells in mask_.
std::ostream & Gyoto::Screen::print | ( | std::ostream & | ) | const |
Display.
Debug helper
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inherited |
void Gyoto::Screen::setObserverPos | ( | const double | pos[4] | ) |
Alternative way to set projection.
Beware : paln can not be set this way, setting later other parameters change the observer's coordinates. For observationnal ray-tracing purposes, prefer setProjection().
[in] | pos | position of observer in Screen's coordinate system. Content is copied. |
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virtualinherited |
Set parameter by Property (and name)
This function is used when parsing an XML description, if Property (p) of this name is found (i.e. either p.name or p.name_false is equal to name). Implementation should fall-back on calling the direct's parent implementation:
p | Property that matches name (p.name == name or p.name_false == name) |
name | XML name of the parameter (XML entity) |
content | string representation of the value |
unit | string representation of the unit |
Reimplemented in Gyoto::Astrobj::PolishDoughnut.
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virtualinherited |
Set parameter by name.
This function is used when parsing an XML description, if no Property of this name is found. Overriding implementation should fall-back on calling the direct's parent implementation:
name | XML name of the parameter (XML entity). This may have a path component, e.g. "Astrobj::Radius", in which case a property named "Astrobj" will be sought in the current object, and setParameter will be called recusrively on this Astrobj with Radius as name. |
content | string representation of the value |
unit | string representation of the unit |
Reimplemented in Gyoto::Astrobj::EquatorialHotSpot, Gyoto::Metric::KerrKS, Gyoto::Astrobj::Star, and Gyoto::Metric::RotStar3_1.
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virtualinherited |
Main loop for parsing Properties from XML description.
This function queries the FactoryMessenger for elements to parse, and tries to matche each element to a Property to set it accordingly. Any class that tries to be buildable from XML must supply a subcontractor (for base classes such as Metric, Astrobj, Spectrum and Spectrometer, it is done as a template that must be specialized for each class). This subcontractor typically looks somewhat like this:
Although this is discouraged, it is possible to override the following functions to customize how XML entities are parsed: - setParameters() if low-level access to the FactoryMessenger is required; - setParameter(std::string name, std::string content, std::string unit) to interpret an entity that does not match a Property (e.g. alternative name); - setParameter(Gyoto::Property const &p, std::string const &name, std::string const &content, std::string const &unit) to change how a Property is interpreted.
Reimplemented in Gyoto::Astrobj::Generic, Gyoto::Astrobj::Complex, Gyoto::Spectrometer::Complex, Gyoto::Astrobj::EquatorialHotSpot, Gyoto::Photon, Gyoto::Astrobj::Star, Gyoto::Spectrometer::Uniform, and Gyoto::Astrobj::OscilTorus.
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private |
Euler angles.
The angles are position angle of the line of nodes (North of East), inclination (0 = face-on), argument of X axis. We use the z-x-z convention. See http://en.wikipedia.org/wiki/Euler_angles
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private |
Frequency at which the observer observes.
For the quantity Intensity
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protectedinherited |
The "kind" that is output in the XML entity.
E.g. for an Astrobj, fillElement() will ensure
is written.
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private |
Last read or written FITS file.
Used when saving to XML: if the mask was saved or loaded from FITS file, output this file name in the XML.
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privateinherited |
A mutex.
When compiled with libpthread
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protectedinherited |
The plug-ins that needs to be loaded to access this instance's class.
E.g. for an Astrobj, fillElement() will ensure
is written.