Refine last step of integration in a Photon. More...
#include <GyotoPhoton.h>
Public Types | |
| 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 | |
| Refined (Photon *parent, size_t i, int dir, double step_max) | |
| Constructor. | |
| virtual void | transmit (size_t i, double t) |
| Update transmission both in *this and in *parent_. | |
| virtual void | transfer (double *Inu, double *Qnu, double *Unu, double *Vnu, double const *aInu, double const *aQnu, double const *aUnu, double const *aVnu, double const *rQnu, double const *rUnu, double const *rVnu) |
| Perform one step of radiative transfer. | |
| virtual Property const * | getProperties () const |
| Get list of properties. More... | |
| virtual std::string | className () const |
| "Photon" | |
| virtual std::string | className_l () const |
| "photon" | |
| Photon * | clone () const |
| Cloner. | |
| virtual double | getMass () const |
| Return 0. | |
| void | astrobj (SmartPointer< Astrobj::Generic >) |
| Set Photon::object_. | |
| SmartPointer< Astrobj::Generic > | astrobj () const |
| Get Photon::object_. | |
| void | metric (SmartPointer< Metric::Generic >) |
| void | metric (SmartPointer< Metric::Generic >) |
| Set metric Smartpointer. | |
| SmartPointer< Metric::Generic > | metric () const |
| Get metric. | |
| SmartPointer< Metric::Generic > | metric () const |
| Get metric. | |
| void | spectrometer (SmartPointer< Spectrometer::Generic > spr) |
| Set Photon::spectro_. | |
| SmartPointer< Spectrometer::Generic > | spectrometer () const |
| Get Photon::spectro_. | |
| void | freqObs (double) |
| Set Photon::freq_obs__. | |
| double | freqObs () const |
| Get Photon::freq_obs__. | |
| void | nb_cross_eqplane (int) |
| Set Photon::nb_cross_eqplane_. | |
| int | nb_cross_eqplane () const |
| Get Photon::nb_cross_eqplane_. | |
| void | setInitialCondition (SmartPointer< Metric::Generic > gg, SmartPointer< Astrobj::Generic > obj, const double coord[8]) |
| Set or re-set the initial condition prior to integration. More... | |
| void | setInitialCondition (SmartPointer< Metric::Generic > gg, SmartPointer< Astrobj::Generic > obj, const double coord[8], const double Ephi[4], const double Etheta[4]) |
| Set or re-set the initial condition prior to integration. More... | |
| void | setInitialCondition (SmartPointer< Metric::Generic > gg, SmartPointer< Astrobj::Generic > obj, SmartPointer< Screen > screen, double d_alpha, double d_delta) |
| Set or re-set the initial condition prior to integration. More... | |
| void | setInitialCondition (SmartPointer< Metric::Generic > gg, const double coord[8], const int dir, double const Ephi[4], double const Etheta[4]) |
| Set or re-set the initial condition prior to integration. More... | |
| void | setInitialCondition (SmartPointer< Metric::Generic > gg, const double coord[8], const int dir) |
| Set or re-set the initial condition prior to integration. More... | |
| void | setInitialCondition (SmartPointer< Metric::Generic > gg, const double coord[8], const int dir, double const Ephi[4], double const Etheta[4]) |
| Set or re-set the initial condition prior to integration. More... | |
| void | setInitialCondition (SmartPointer< Metric::Generic > gg, const double coord[8], const int dir) |
| Set or re-set the initial condition prior to integration. More... | |
| int | hit (Astrobj::Properties *data=NULL) |
| Integrate the geodesic. More... | |
| double | findMin (Functor::Double_constDoubleArray *object, double t1, double t2, double &tmin, double threshold=DBL_MIN) |
| Find minimum of photon–object distance. More... | |
| void | findValue (Functor::Double_constDoubleArray *object, double value, double tinside, double &toutside) |
| Find date for which the photon is at a given distance from the object. More... | |
| virtual void | setParameters (FactoryMessenger *fmp) |
| Main loop for parsing Properties from XML description. More... | |
| void | resetTransmission () |
| Set transmission to 1 for each channel as well as scalar transmission. | |
| double | getTransmission (size_t i) const |
| Get transmission. More... | |
| double const * | getTransmission () const |
| Get Photon::transmission_. More... | |
| double | getTransmissionMax () const |
| Get maximum transmission;. More... | |
| size_t | getImin () const |
| Get imin_. | |
| size_t | getImax () const |
| Get imax_. | |
| size_t | getI0 () const |
| Get i0_. | |
| void | initCoord (std::vector< double > const &) |
| std::vector< double > | initCoord () const |
| virtual void | setInitCoord (const double coord[8], int dir, double const Ephi[4], double const Etheta[4]) |
| Set Initial coordinate. More... | |
| virtual void | setInitCoord (const double coord[8], int dir=0) |
| Set Initial coordinate. More... | |
| virtual void | setInitCoord (double const pos[4], double const vel[3], int dir=0) |
| Set initial coordinate. More... | |
| virtual void | setPosition (double const pos[4]) |
| Set initial 4-position. | |
| virtual void | setVelocity (double const vel[3]) |
| Set initial 3-velocity. | |
| void | reset () |
| Forget integration, keeping initial contition. | |
| void | reInit () |
| Reset and recompute particle properties. | |
| void | integrator (std::string const &type) |
| Set the integrator. More... | |
| std::string | integrator () const |
| Describe the integrator used by state_. | |
| void | integ31 (bool integ) |
| Set the integrator kind to 3+1 or 4D. More... | |
| bool | integ31 () const |
| Get the kind of geodesic equation integrated by state_. | |
| double | deltaMin () const |
| Get delta_min_. | |
| void | deltaMin (double h1) |
| Set delta_min_. | |
| double | deltaMax () const |
| Get delta_max_. | |
| virtual double | deltaMax (double const pos[8], double delta_max_external) const |
| void | deltaMax (double h1) |
| void | absTol (double) |
| Set abstol_. | |
| double | absTol () const |
| Get abstol_. | |
| void | relTol (double) |
| Set reltol_. | |
| double | relTol () const |
| Get reltol_. | |
| void | maxCrossEqplane (double) |
| Set #maxCrosEqplane_. | |
| double | maxCrossEqplane () const |
| Get maxCrossEqplane_. | |
| double | deltaMaxOverR () const |
| Get delta_max_over_r_. | |
| void | deltaMaxOverR (double t) |
| Set delta_max_over_r_. | |
| void | delta (const double delta) |
| Expand memory slots for polarization vectors. More... | |
| void | delta (double, const std::string &unit) |
| Set delta_ in specified units. | |
| double | delta () const |
| Get delta_. | |
| double | delta (const std::string &unit) const |
| Get delta_ in specified units. | |
| double | tMin () const |
| Get tmin_. | |
| double | tMin (const std::string &unit) const |
| Get tmin_ in specified unit. | |
| void | tMin (double tlim) |
| Set tmin_. | |
| void | tMin (double, const std::string &unit) |
| Set tmin_ in specified unit. | |
| void | adaptive (bool mode) |
| Set adaptive_. | |
| bool | adaptive () const |
| Get adaptive_. | |
| void | secondary (bool sec) |
| Set secondary_. | |
| bool | secondary () const |
| Get secondary_. | |
| void | parallelTransport (bool pt) |
| Set parallel_transport_. | |
| bool | parallelTransport () const |
| Get parallel_transport_. | |
| void | maxiter (size_t miter) |
| Set maxiter_. | |
| size_t | maxiter () const |
| Get maxiter_. | |
| double const * | getCst () const |
| Returns the worldline's cst of motion (if any) More... | |
| void | setCst (double const *cst, size_t const ncsts) |
| Set Metric-specific constants of motion. More... | |
| void | constantsOfMotion (std::vector< double > const cstv) |
| Set Metric-specific constants of motion. More... | |
| std::vector< double > | constantsOfMotion () const |
| Return a copy of the Metric-specific constants of motion. More... | |
| void | getInitialCoord (std::vector< double > &dest) const |
| Get initial coordinates + base vectors. More... | |
| void | getCoord (size_t index, Gyoto::state_t &dest) const |
| Get coordinates+base vectors corresponding to index. More... | |
| void | getCoord (size_t index, Gyoto::state_t &dest) |
| Get coordinates+base vectors corresponding to index. More... | |
| void | getCoord (double date, Gyoto::state_t &dest, bool proper=false) |
| Get coordinates+base vectors corresponding to date dest[0]. More... | |
| void | getCoord (double const *const dates, size_t const n_dates, double *const x1dest, double *const x2dest, double *const x3dest, double *const x0dot=NULL, double *const x1dot=NULL, double *const x2dot=NULL, double *const x3dot=NULL, double *ep0=NULL, double *ep1=NULL, double *ep2=NULL, double *ep3=NULL, double *et0=NULL, double *et1=NULL, double *et2=NULL, double *et3=NULL, double *otime=NULL, bool proper=false) |
| Get 8-coordinates for specific dates. More... | |
| void | getCoord (double *x0, double *x1, double *x2, double *x3) const |
| Get all computed positions. More... | |
| void | getCartesianPos (size_t index, double dest[4]) const |
| Get Cartesian expression of 4-position at index. | |
| virtual void | xStore (size_t ind, state_t const &coord, double tau) |
| Store coord at index ind. | |
| virtual void | xStore (size_t ind, state_t const &coord)=delete |
| Obsolete, update your code. | |
| virtual void | xStore (size_t ind, double const coord[8])=delete |
| Obsolete, update your code. | |
| virtual void | xFill (double tlim, bool proper=false) |
| Fill x0, x1... by integrating the Worldline from previously set inittial condition to time tlim. | |
| size_t | get_nelements () const |
| Get number of computed dates. | |
| void | get_t (double *dest) const |
| Get computed dates. | |
| void | get_tau (double *dest) const |
| Get computed proper times or values of the affine parameter. | |
| void | getCartesian (double const *const dates, size_t const n_dates, double *const x, double *const y, double *const z, double *const xprime=NULL, double *const yprime=NULL, double *const zprime=NULL) |
| Get the 6 Cartesian coordinates for specific dates. More... | |
| void | get_xyz (double *x, double *y, double *z) const |
| Get 3-position in cartesian coordinates for computed dates. | |
| void | checkPhiTheta (double coord[8]) const |
| Bring θ in [0,Π] and φ in [0,2Π]. More... | |
| void | getSkyPos (SmartPointer< Screen > screen, double *dalpha, double *ddellta, double *dD) const |
| Get computed positions in sky coordinates. | |
| void | get_dot (double *x0dot, double *x1dot, double *x2dot, double *x3dot) const |
| Get computed 4-velocities. | |
| void | get_prime (double *x1prime, double *x2prime, double *x3prime) const |
| Get computed 3-velocities. | |
| void | save_txyz (char *fichierxyz) const |
| Save in a file. | |
| void | save_txyz (char *const filename, double const t1, double const mass_sun, double const distance_kpc, std::string const unit, SmartPointer< Screen > sc=NULL) |
| Save, converted. | |
| 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 | fillProperty (Gyoto::FactoryMessenger *fmp, Property const &p) const |
| Output a single Property to XML. More... | |
| virtual void | fillElement (Gyoto::FactoryMessenger *fmp) const |
| Fill the XML element for this Object. 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< Photon > | Subcontractor (Gyoto::FactoryMessenger *) |
Public Attributes | |
| GYOTO_OBJECT_THREAD_SAFETY | |
| GYOTO_WORLDLINE | |
| int | stopcond |
| Whether and why integration is finished. | |
Static Public Attributes | |
| static GYOTO_OBJECT Property const | properties [] |
Protected Member Functions | |
| virtual void | xAllocate () |
| Allocate x0, x1 etc. with default size. More... | |
| virtual void | xAllocate (size_t size) |
| Allocate x0, x1 etc. with a specified size. More... | |
| virtual size_t | xExpand (int dir) |
| Expand x0, x1 etc... to hold more elements. More... | |
| virtual void | xExpand (double *&x, int dir) |
| Expand one array to hold more elements. More... | |
| virtual void | eAllocate () |
| Allocate ep0_ ... et3_. More... | |
| virtual void | eDeallocate () |
| Deallocate ep0_ ... et3_. More... | |
| virtual void | eExpand (int dir) |
| virtual void | tell (Gyoto::Hook::Teller *) |
| This is how a Teller tells. More... | |
Protected Attributes | |
| Photon * | parent_ |
| Parent Photon. | |
| SmartPointer< Gyoto::Astrobj::Generic > | object_ |
| The astronomical target. More... | |
| double | freq_obs_ |
| Photon's frequency in observer's frame. More... | |
| double | transmission_freqobs_ |
| Integrated optical transmission. More... | |
| SmartPointer< Spectrometer::Generic > | spectro_ |
| Observer's spectrometer. More... | |
| double * | transmission_ |
| Integrated optical transmissions. More... | |
| int | nb_cross_eqplane_ |
| Nb of crossings of equatorial plane z=0, theta=pi/2. | |
| SmartPointer< Gyoto::Metric::Generic > | metric_ |
| The Gyoto::Metric in this part of the universe. | |
| double * | tau_ |
| proper time or affine parameter | |
| double * | x0_ |
| t or T | |
| double * | x1_ |
| r or x | |
| double * | x2_ |
| θ or y | |
| double * | x3_ |
| φ or z | |
| double * | x0dot_ |
| tdot or Tdot | |
| double * | x1dot_ |
| rdot or xdot | |
| double * | x2dot_ |
| θdot or ydot | |
| double * | x3dot_ |
| φdot or zdot | |
| double * | ep0_ |
| double * | ep1_ |
| Coordinate of first base vector to parallel transport. | |
| double * | ep2_ |
| Coordinate of first base vector to parallel transport. | |
| double * | ep3_ |
| Coordinate of first base vector to parallel transport. | |
| double * | et0_ |
| Coordinate of first base vector to parallel transport. | |
| double * | et1_ |
| Coordinate of Second base vector to parallel transport. | |
| double * | et2_ |
| Coordinate of Second base vector to parallel transport. | |
| double * | et3_ |
| Coordinate of Second base vector to parallel transport. | |
| size_t | x_size_ |
| Coordinate of Second base vector to parallel transport. More... | |
| size_t | imin_ |
| Minimum index for which x0_, x1_... have been computed. | |
| size_t | i0_ |
| Index of initial condition in array. | |
| size_t | imax_ |
| Maximum index for which x0_, x1_... have been computed. | |
| bool | adaptive_ |
| Whether integration should use adaptive delta. | |
| bool | secondary_ |
| Experimental: choose 0 to compute only primary image. More... | |
| bool | parallel_transport_ |
| Whether to parallel transport a local triad. More... | |
| double | delta_ |
| Initial integrating step. More... | |
| double | tmin_ |
| Time limit for the integration (geometrical units) More... | |
| double * | cst_ |
| Worldline's csts of motion (if any) | |
| size_t | cst_n_ |
| Number of constants of motion. | |
| int | wait_pos_ |
| Hack in setParameters() | |
| double * | init_vel_ |
| Hack in setParameters() | |
| size_t | maxiter_ |
| Maximum number of iterations when integrating. | |
| double | delta_min_ |
| Minimum integration step for the adaptive integrator. More... | |
| double | delta_max_ |
| Maximum integration step for the adaptive integrator. More... | |
| double | delta_max_over_r_ |
| Numerical tuning parameter. More... | |
| double | abstol_ |
| Absolute tolerance of the integrator. More... | |
| double | reltol_ |
| Absolute tolerance of the integrator. More... | |
| double | maxCrossEqplane_ |
| Maximum number of crossings of equatorial plane. More... | |
| SmartPointer< Worldline::IntegState::Generic > | state_ |
| An object to hold the integration state. | |
| 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... | |
Detailed Description
Refine last step of integration in a Photon.
The integration step of a Photon's geodesic is adaptive. This is computationally efficient, but sometimes it is necessary to get the position of a Photon with a finer step. Gyoto::ComplexAstrobj::Impact() is a typical use case.
A Refined photon is linked to its parent. In particular, care is taken so that the parent's to update the parent's transmissions whenever the Refined transmissions are touched.
Don't use this class blindly: what's guaranteed to work is what is used in Gyoto::ComplexAstrobj::Impact().
XML description corresponding to this class is <Photon/>. It supports all the parameters supported by the Gyoto::Worldline class plus an optional <Astrobj/> section to attach a instance of a Gyoto::Astrobj::Generic sub-class.
Member Typedef Documentation
◆ Subcontractor_t
|
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().
Member Function Documentation
◆ checkPhiTheta()
|
inherited |
Bring θ in [0,Π] and φ in [0,2Π].
checkPhiTheta() Modifies coord if the corrdinates are spherical-like so that coord[2]=theta is in [0,pi] and coord[3]=phi is in [0,2pi]. Important to use in all astrobj in spherical coordinates to prevent "z-axis problems".
◆ constantsOfMotion() [1/2]
|
inherited |
Set Metric-specific constants of motion.
The will (re)allocate Worldline::cst_, copy cst into it, and set Worldline::cst_n_.
This is the same as getCst using a vector instead of a C-style array.
◆ constantsOfMotion() [2/2]
|
inherited |
Return a copy of the Metric-specific constants of motion.
This funtion return a copy of the constants of motion. getCst() can be used to retrieve a pointer to the actual array used internally which is slightly more efficient for read-only access.
◆ delta()
|
inherited |
◆ deltaMax() [1/2]
|
virtualinherited |
Get delta max at a given position
- Parameters
-
[in] pos 4-position [in] delta_max_external external constraint on delta_max
- Returns
- the smallest value between delta_max_, delta_max_external, and R*delta_max_over_r_ where R is pos[1] in spherical coordinates and max(x1, x2, x3) in Cartesian coordinates.
◆ deltaMax() [2/2]
|
inherited |
Set delta_max_
◆ describeProperty()
|
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.
◆ eAllocate()
|
protectedvirtualinherited |
Allocate ep0_ ... et3_.
Allocate memory for polarization vectors
◆ eDeallocate()
|
protectedvirtualinherited |
Deallocate ep0_ ... et3_.
Deallocate memory for polarization vectors
◆ eExpand()
|
protectedvirtualinherited |
Call xExpand(double * &x, int dir) on #ep0_, ep1_ etc.
◆ fillElement()
|
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::Scenery, Gyoto::Spectrometer::Complex, Gyoto::Astrobj::Complex, and Gyoto::Metric::Complex.
◆ fillProperty()
|
virtualinherited |
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 in Gyoto::Screen, Gyoto::Scenery, Gyoto::Astrobj::Star, Gyoto::Spectrometer::Uniform, Gyoto::Astrobj::PolishDoughnut, Gyoto::Astrobj::Disk3D, Gyoto::Astrobj::PatternDisk, Gyoto::Astrobj::DirectionalDisk, Gyoto::Astrobj::DynamicalDisk, Gyoto::Astrobj::EquatorialHotSpot, Gyoto::Astrobj::XillverReflection, Gyoto::Metric::Shift, and Gyoto::Astrobj::NeutronStarModelAtmosphere.
◆ findMin()
|
inherited |
Find minimum of photon–object distance.
Return the minimum of (*object)(this->getCoord()) between t1 and t2. The date of this minimum is returned in tmin.
- Parameters
-
[in] object the distance to minimize is given by object->operator()(). This method is in particular implemented by the subclasses of Astrobj::Standard. [in] t1 date [in] t2 date [out] tmin on output, date correspondig to the minimum [in] threshold stop searching for a minimum if a value < threshold is found (very often, we just want to find a date below the threshold, not the accurate minimum).
◆ findValue()
|
inherited |
Find date for which the photon is at a given distance from the object.
- Parameters
-
[in] object Object, must implement operator() (e.g. Astrobj::Standard, ThinDisk::Standard) [in] value The value to find [in] tinside A date for which object->Astrobj::operator()(Photon::getCoord()) is < value [in,out] toutside On input: a date for which object->Astrobj::operator()(Photon::getCoord()) is > value. on output, (*object)(getCoord(toutside)) is < value, very close to value. toutside is closer to tinside on output than on input.
◆ getCartesian()
|
inherited |
Get the 6 Cartesian coordinates for specific dates.
The 6 coordinates (x, y, z, dx/dt, dy/dt, dz/dt) will be computed using the integrator and interpolated if necessary, so they will be as accurate as possible. Transforming to Cartesian coordinates is not necessarily meaningful.
- Parameters
-
[in] dates List of dates for which the coordinates are to be computed; [in] n_dates Number of dates to compute ; [out] x,y,z,xprime,yprime,zprime Arrays in which to store the result. These pointer may be set to NULL to retrieve only part of the information. Else, they must be pre-allocated.
◆ getCoord() [1/5]
|
inherited |
Get coordinates+base vectors corresponding to index.
Depending on the value of parallel_transport_, get position (xi_), velocity (xidot_) and possibly other triad vectors (epi_ and eti_). coord is resized to the right number of elements.
◆ getCoord() [2/5]
|
inherited |
Get coordinates+base vectors corresponding to index.
We need this non-const implementation to allow the const, size_t and the non-const, double implementations to coexist.
◆ getCoord() [3/5]
|
inherited |
Get coordinates+base vectors corresponding to date dest[0].
Depending on the value of parallel_transport_, get position (xi_), velocity (xidot_) and possibly other triad vectors (epi_ and eti_). coord is resized to the right number of elements.
◆ getCoord() [4/5]
|
inherited |
Get 8-coordinates for specific dates.
The coordinates will be computed using the integrator, so they will be as accurate as possible. Some heuristics are used to speed up the process and it is presumably faster to call this routine with a sorted list of dates. The line will be integrated further as required. An error will be thrown if it is not possible to reach a certain date.
- Parameters
-
[in] dates the list of dates for which the coordinates are to be computed in proper time or affine parameter if #proper is true or in coordinate time if #proper is false (default); [in] n_dates the number of dates to compute ; [out] x1dest,x2dest,x3dest,x0dot,x1dot,x2dot,x3dot arrays in which to store the result. These pointer may be set to NULL to retrieve only part of the information. They must be pre-allocated. [out] ephi0,ephi1,ephi2,ephi3,etheta0,etheta1,etheta2,etheta3 arrays in which to store the ephi and etheta (parallel transport case). These pointer may be set to NULL to retrieve only part of the information. They must be pre-allocated. [out] otime array in which to store the other time: coordinate time if #proper, else proper time or affine parameter. [in] proper bool: whether #dates is proper time (or affine parameter) or coordinate time.
◆ getCoord() [5/5]
|
inherited |
Get all computed positions.
Get all the pre-computed 8 coordinates (e.g. thanks to a prior call to xFill()) of this worldline.
◆ getCst()
|
inherited |
Returns the worldline's cst of motion (if any)
Return pointer to array holding the previously set Metric-specific constants of motion.
This function returns a pointer to the actual storage location and should be handled with care. std::vector<double> Worldline:constantsOfMotion() const provides a convenient way to retrieve a copy of the content.
◆ getInitialCoord()
|
inherited |
Get initial coordinates + base vectors.
Depending on the size of dest and on the value of parallel_transport_, get position (xi_), velocity (xidot_) and possibly other triad vectors (epi_ and eti_).
◆ getProperties()
|
virtualinherited |
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.
◆ getTransmission() [1/2]
|
inherited |
Get transmission.
Get either Photon::transmission_freqobs_ (with i=-1) or Photon::transmission_[i].
- Parameters
-
i channel number of the requested frequency, -1 for Photon::freq_obs_.
◆ getTransmission() [2/2]
|
inherited |
getTansmission()[i] == getTransmission(size_t i)
◆ getTransmissionMax()
|
inherited |
Get maximum transmission;.
Get current maximum of all the transmissions, Photon::transmission_freqobs_ or one elements of the Photon::transmission_ array.
◆ help()
|
inherited |
Print (to stdout) some help on this class.
Describe all properties that this instance supports.
◆ hit()
|
inherited |
Integrate the geodesic.
- Parameters
-
[in,out] data Optional Astrobj::Properties to fill with observational quantities.
- Returns
- 1 if object was hit, else 0.
◆ integ31()
|
inherited |
Set the integrator kind to 3+1 or 4D.
Initialize state_ to use the required geodesic equation.
◆ integrator()
|
inherited |
Set the integrator.
Initialize state_ to use the required integrator.
- Parameters
-
[in] type Either "Legacy" or (if GYOTO_HAVE_BOOST_INTEGRATORS) one of "runge_kutta_cash_karp54", "runge_kutta_fehlberg78", "runge_kutta_dopri5", "runge_kutta_cash_karp54_classic"
◆ isThreadSafe()
|
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.
◆ property()
|
inherited |
◆ setCst()
|
inherited |
Set Metric-specific constants of motion.
The will (re)allocate Worldline::cst_, copy cst into it, and set Worldline::cst_n_.
This is the same as void Worldline:constantsOfMotion(std::vector<double> const cstv) using a C-style array instead of a vector.
◆ setInitCoord() [1/3]
|
virtualinherited |
Set Initial coordinate.
Set imin_=imax_=i0_, and x_[i0_]=coord[].
If dir==1, i0_ is set to 0. If dir==-1, i0_ is set to x_size_-1.
If dir==0 and the Worldine has never been computed (i0_==0, imin_==1 and imax_==0), then dir defaults to 1 for a massive particle and -1 for a massless particle.
If dir==0 and the Worldine has already been computed, i0_ is not changed.
- Parameters
-
coord new initial coordinates dir direction of integration. 1 for forward integration, -1 for backards integration, 0 for unknown or both Ephi initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false. Etheta initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false.
◆ setInitCoord() [2/3]
|
virtualinherited |
Set Initial coordinate.
Set imin_=imax_=i0_, and x_[i0_]=coord[].
If dir==1, i0_ is set to 0. If dir==-1, i0_ is set to x_size_-1.
If dir==0 and the Worldine has never been computed (i0_==0, imin_==1 and imax_==0), then dir defaults to 1 for a massive particle and -1 for a massless particle.
If dir==0 and the Worldine has already been computed, i0_ is not changed.
- Parameters
-
coord new initial coordinates dir direction of integration. 1 for forward integration, -1 for backards integration, 0 for unknown or both
Reimplemented in Gyoto::Astrobj::StarTrace.
◆ setInitCoord() [3/3]
|
virtualinherited |
Set initial coordinate.
- Parameters
-
pos initial 4-position vel initial 3-velocity dir direction of integration
◆ setInitialCondition() [1/7]
|
inherited |
Set or re-set the initial condition prior to integration.
- Parameters
-
gg Gyoto::SmartPointer to the Gyoto::Metric in this universe; coord 8 element array containing the initial condition, i.e. the 4-position and the 4-velocity of the Photon at the receiving end; dir direction: 1 for future, -1 for past. Ephi initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false. Etheta initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false.
◆ setInitialCondition() [2/7]
|
inherited |
Set or re-set the initial condition prior to integration.
- Parameters
-
gg Gyoto::SmartPointer to the Gyoto::Metric in this universe; coord 8 element array containing the initial condition, i.e. the 4-position and the 4-velocity of the Photon at the receiving end; dir direction: 1 for future, -1 for past.
◆ setInitialCondition() [3/7]
|
inherited |
Set or re-set the initial condition prior to integration.
Set initial condition for this Photon. Several versions of this function, with and without base vectors to parallel-transport, are provided. If polarization is to be treated, use the version with the base vectors.
- Parameters
-
gg Gyoto::SmartPointer to the Gyoto::Metric in this universe; obj Gyoto::SmartPointer to the target Gyoto::Astrobj; coord 8-element array containing the initial condition, i.e. the 4-position and the 4-velocity of the Photon at the receiving end;
◆ setInitialCondition() [4/7]
|
inherited |
Set or re-set the initial condition prior to integration.
Set initial condition for this Photon. Several versions of this function, with and without base vectors to parallel-transport, are provided. If polarization is to be treated, use the version with the base vectors. Initialize those vectors to the two base vectors for the Stokes parameters in the observer screen.
- Parameters
-
gg Gyoto::SmartPointer to the Gyoto::Metric in this universe; obj Gyoto::SmartPointer to the target Gyoto::Astrobj; coord 8-element array containing the initial condition, i.e. the 4-position and the 4-velocity of the Photon at the receiving end; Ephi initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false. Etheta initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false.
◆ setInitialCondition() [5/7]
|
inherited |
Set or re-set the initial condition prior to integration.
Set initial condition for this Photon. This version of this function automatically takes care of initializing the base vectors for polarization when needed.
- Parameters
-
gg Gyoto::SmartPointer to the Gyoto::Metric in this universe; obj Gyoto::SmartPointer to the target Gyoto::Astrobj; screen Observer's screen; d_alpha Direction of arrival (RA offset) in radians; d_delta Direction of arrival (Dec offset) in radians.
◆ setInitialCondition() [6/7]
|
inherited |
Set or re-set the initial condition prior to integration.
- Parameters
-
gg Gyoto::SmartPointer to the Gyoto::Metric in this universe; coord 8 element array containing the initial condition, i.e. the 4-position and the 4-velocity of the Photon at the receiving end; dir direction: 1 for future, -1 for past. Ephi initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false. Etheta initial value of base vector to parallel-transport. Ignored if parallel_transport_ is false.
◆ setInitialCondition() [7/7]
|
inherited |
Set or re-set the initial condition prior to integration.
- Parameters
-
gg Gyoto::SmartPointer to the Gyoto::Metric in this universe; coord 8 element array containing the initial condition, i.e. the 4-position and the 4-velocity of the Photon at the receiving end; dir direction: 1 for future, -1 for past.
◆ setParameter() [1/2]
|
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:
- Parameters
-
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
- Returns
- 0 if this parameter is known, 1 if it is not.
Reimplemented in Gyoto::Astrobj::Star, Gyoto::Metric::RotStar3_1, Gyoto::Metric::KerrKS, and Gyoto::Astrobj::EquatorialHotSpot.
◆ setParameter() [2/2]
|
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:
- Parameters
-
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.
◆ setParameters()
|
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 from Gyoto::Object.
◆ tell()
|
protectedvirtualinherited |
This is how a Teller tells.
A teller will basically call listener->tell(this).
- Parameters
-
msg Teller* the Teller who is telling... Useful if the Listener listens to several Tellers.
Reimplemented from Gyoto::Hook::Listener.
◆ xAllocate() [1/2]
|
protectedvirtualinherited |
Allocate x0, x1 etc. with default size.
The default size is GYOTO_DEFAULT_X_SIZE
◆ xAllocate() [2/2]
|
protectedvirtualinherited |
Allocate x0, x1 etc. with a specified size.
- Parameters
-
size : number of cells in each array x0, x1 etc.
Reimplemented in Gyoto::Astrobj::StarTrace.
◆ xExpand() [1/2]
|
protectedvirtualinherited |
Expand x0, x1 etc... to hold more elements.
Double the size of arrays x0, x1 etc. and copy old version of the array in the first half if dir =1 and in the second half if dir =-1.
- Parameters
-
dir : 1 to expand after last element, -1 to expand before first element
- Returns
- ind : if dir=1, new index of old last element, if dir=-1, new index of old first element
Reimplemented in Gyoto::Astrobj::StarTrace.
◆ xExpand() [2/2]
|
protectedvirtualinherited |
Expand one array to hold more elements.
If you need to expand more arrays than x0_ ... x3_ and the dots, call this on your array before calling xExpand(int dir).
- Parameters
-
[in,out] x array to expand [in] dir
Member Data Documentation
◆ abstol_
|
protectedinherited |
Absolute tolerance of the integrator.
Used by the adaptive integrators implemented in IntegState::Boost. Refer to the boost::numeric::odeint documentation for more details.
◆ delta_
|
protectedinherited |
Initial integrating step.
Default: GYOTO_DEFAULT_DELTA
◆ delta_max_
|
protectedinherited |
Maximum integration step for the adaptive integrator.
The default (GYOTO_DEFAULT_DELTA_MAX) is usually fine.
For IntegState::Legacy, set it in the Metric instead!
◆ delta_max_over_r_
|
protectedinherited |
Numerical tuning parameter.
For IntegState::Legacy, set it in the Metric instead!
Ensure that delta (the numerical integration step) is never larger than a fraction of the distance between the current location and the center of the coordinate system.
The default (GYOTO_DEFAULT_DELTA_MAX_OVER_R) is usually fine.
◆ delta_min_
|
protectedinherited |
Minimum integration step for the adaptive integrator.
The default (GYOTO_DEFAULT_DELTA_MIN) is usually fine.
For IntegState::Legacy, set it in the Metric instead!
◆ freq_obs_
|
protectedinherited |
Photon's frequency in observer's frame.
In Hz, for quantity Emission
◆ kind_
|
protectedinherited |
The "kind" that is output in the XML entity.
E.g. for an Astrobj, fillElement() will ensure
is written.
◆ maxCrossEqplane_
|
protectedinherited |
Maximum number of crossings of equatorial plane.
Used to determine how much higher-order image features should be kept.
◆ object_
|
protectedinherited |
The astronomical target.
The (only) possible origin for this Photon.
◆ parallel_transport_
|
protectedinherited |
Whether to parallel transport a local triad.
Typically used to trace the base in which the Stokes parameters are expressed in the context of polarization.
◆ plugins_
|
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.
◆ reltol_
|
protectedinherited |
Absolute tolerance of the integrator.
Used by the adaptive integrators implemented in IntegState::Boost. Refer to the boost::numeric::odeint documentation for more details.
◆ secondary_
|
protectedinherited |
Experimental: choose 0 to compute only primary image.
This feature is in development.
◆ spectro_
|
protectedinherited |
Observer's spectrometer.
Conveying observation frequencies for quantities Spectrum and BinSpectrum.
◆ tmin_
|
protectedinherited |
Time limit for the integration (geometrical units)
Computation does not go back before tmin_. Default is -DBL_MAX. tmin_ is always expressed in geometrical units, it is essentially a tuning parameter for the ray-tracing process. tmin_ should be chosen to always be longer than the distance between the screen and the object.
◆ transmission_
|
protectedinherited |
Integrated optical transmissions.
For each frequency in Photon::spectro_->getMidpoints(), between current position and observer.
◆ transmission_freqobs_
|
protectedinherited |
Integrated optical transmission.
At Photon::freq_obs_, between current position and observer.
◆ x_size_
|
protectedinherited |
The documentation for this class was generated from the following file:
