Isis 3 Programmer Reference
Isis::EmbreeShapeModel Class Reference

General purpose Embree ray tracing model. More...

#include <EmbreeShapeModel.h>

Inheritance diagram for Isis::EmbreeShapeModel:
Inheritance graph
Collaboration diagram for Isis::EmbreeShapeModel:
Collaboration graph

Public Member Functions

 EmbreeShapeModel ()
 Default constructor sets type to a TIN. More...
 
 EmbreeShapeModel (Target *target, Pvl &pvl, EmbreeTargetManager *targetManager)
 Constructor provided for instantiation from an ISIS cube. More...
 
 EmbreeShapeModel (Target *target, const QString &shapefile, EmbreeTargetManager *targetManager)
 Constructor provided for instantiation from a file. More...
 
virtual ~EmbreeShapeModel ()
 Destructor that notifies the target shape manager that the target shape is no longer in use. More...
 
virtual bool intersectSurface (std::vector< double > observerPos, std::vector< double > lookDirection)
 This method computes an intercept point given an observer location and look direction using the Embree model. More...
 
virtual bool intersectSurface (const Latitude &lat, const Longitude &lon, const std::vector< double > &observerPos, const bool &backCheck=true)
 Compute intersection of surface vector direction from observer with occulusion. More...
 
virtual bool intersectSurface (const SurfacePoint &surfpt, const std::vector< double > &observerPos, const bool &backCheck=true)
 Compute intersection of surface point from observer with occulusion. More...
 
virtual void clearSurfacePoint ()
 Flag that the ShapeModel does not have a surface point or normal. More...
 
virtual bool isDEM () const
 Indicates that this shape model is not from a DEM. More...
 
double getTolerance () const
 Get the tolerance used when checking if the stored surface point is visible. More...
 
void setTolerance (const double &tolerance)
 Set the tolerance used when checking if the stored surface point is visible. More...
 
virtual void calculateDefaultNormal ()
 Return the surface normal of the ellipsoid as the default. More...
 
virtual void calculateLocalNormal (QVector< double * > cornerNeighborPoints)
 Compute the normal for a local region of surface points. More...
 
virtual void calculateSurfaceNormal ()
 Return the surface normal of the ellipsoid. More...
 
QVector< double > ellipsoidNormal ()
 Compute the true surface normal vector of an ellipsoid. More...
 
virtual double incidenceAngle (const std::vector< double > &uB)
 Computes and returns incidence angle, in degrees, given the illuminator position. More...
 
virtual Distance localRadius (const Latitude &lat, const Longitude &lon)
 Determine radius at a given lat/lon grid point. More...
 
virtual bool isVisibleFrom (const std::vector< double > observerPos, const std::vector< double > lookDirection)
 Check if the current internalized surface point is visible from an observer position and look direction. More...
 
void Initialize ()
 Initializes the ShapeModel private variables. More...
 
SurfacePointsurfaceIntersection () const
 Returns the surface intersection for this ShapeModel. More...
 
bool hasIntersection ()
 Returns intersection status. More...
 
bool hasNormal () const
 Returns surface point normal status. More...
 
virtual double emissionAngle (const std::vector< double > &sB)
 Computes and returns emission angle, in degrees, given the observer position. More...
 
virtual double phaseAngle (const std::vector< double > &sB, const std::vector< double > &uB)
 Computes and returns phase angle, in degrees, given the positions of the observer and illuminator. More...
 
QString name () const
 Gets the shape name. More...
 
void setHasIntersection (bool b)
 Sets the flag to indicate whether this ShapeModel has an intersection. More...
 
virtual void setSurfacePoint (const SurfacePoint &surfacePoint)
 Set surface intersection point. More...
 
std::vector< double > normal ()
 Returns the local surface normal at the current intersection point. More...
 

Protected Member Functions

void setNormal (const std::vector< double >)
 Sets the normal for the currect intersection point. More...
 
void setNormal (const double a, const double b, const double c)
 Sets the normal for the currect intersection point. More...
 
void setName (QString name)
 Sets the shape name. More...
 
void calculateEllipsoidalSurfaceNormal ()
 Calculates the ellipsoidal surface normal. More...
 
bool hasEllipsoidIntersection ()
 Returns the status of the ellipsoid model intersection. More...
 
bool intersectEllipsoid (const std::vector< double > observerPosRelativeToTarget, const std::vector< double > &observerLookVectorToTarget)
 Finds the intersection point on the ellipsoid model using the given position of the observer (spacecraft) and direction vector from the observer to the target (body). More...
 
bool hasValidTarget () const
 Returns the status of the target. More...
 
std::vector< DistancetargetRadii () const
 Returns the radii of the body in km. More...
 
void setHasNormal (bool status)
 Sets the flag to indicate whether this ShapeModel has a surface normal. More...
 
double resolution ()
 Convenience method to get pixel resolution (m/pix) at current intersection point. More...
 

Private Member Functions

void updateIntersection (const RayHitInformation hitInfo)
 Update the ShapeModel given an intersection and normal. More...
 
RTCMultiHitRay latlonToRay (const Latitude &lat, const Longitude &lon) const
 Given a latitude and longitude, create a ray that goes from the origin of the target through that latitude and longitude. More...
 
RTCMultiHitRay pointToRay (const SurfacePoint &point) const
 Given a surface point, create a ray that goes from the origin of the target to the surface point. More...
 
QVector< RayHitInformationsortHits (RTCMultiHitRay &ray, LinearAlgebra::Vector &observer)
 Sort all intersections by a ray based on distance to a point. More...
 

Private Attributes

EmbreeTargetShapem_targetShape
 
EmbreeTargetManagerm_targetManager
 !< The target body and Embree objects for intersection. More...
 
double m_tolerance
 !< This manages EmbreeTargetShapes to allow for sharing of them between EmbreeShapeModels and deletes them when no longer needed. More...
 
QString m_shapeFile
 !< Tolerance for checking visibility. More...
 
bool m_hasEllipsoidIntersection
 Indicates the ellipsoid was successfully intersected. More...
 
bool m_hasIntersection
 indicates good intersection exists More...
 
bool m_hasNormal
 indicates normal has been computed More...
 
std::vector< double > m_normal
 Local normal of current intersection point. More...
 
QString * m_name
 
SurfacePointm_surfacePoint
 < Name of the shape More...
 
Targetm_target
 

Detailed Description

General purpose Embree ray tracing model.

Author
2017-04-22 Jesse Mapel and Jeannie Backer
History:
2017-04-22 Jesse Mapel and Jeannie Backer - Original Version
History:
2018-05-01 Christopher Combs - Removed emissionAngle function to fix issues with using ellipsoids to find normals. Fixes #5387.

Definition at line 37 of file EmbreeShapeModel.h.

Constructor & Destructor Documentation

◆ EmbreeShapeModel() [1/3]

Isis::EmbreeShapeModel::EmbreeShapeModel ( )

Default constructor sets type to a TIN.

Definition at line 32 of file EmbreeShapeModel.cpp.

References Isis::ShapeModel::setName().

◆ EmbreeShapeModel() [2/3]

Isis::EmbreeShapeModel::EmbreeShapeModel ( Target target,
Pvl pvl,
EmbreeTargetManager targetManager 
)

Constructor provided for instantiation from an ISIS cube.

This constructor is typically used for and ISIS cube that has been initialized by spiceinit. The target shape file will be read from the Pvl label.

Parameters
targetTarget object describing the observed body
pvlISIS Cube label. The target shape file will be extracted from the Kernels group
targetManagerThe target shape manager that will manage the target shape

Definition at line 61 of file EmbreeShapeModel.cpp.

References Isis::EmbreeTargetManager::create(), Isis::PvlObject::findGroup(), Isis::PvlContainer::hasKeyword(), m_shapeFile, m_targetManager, Isis::ShapeModel::setName(), Isis::PvlObject::Traverse, and Isis::IException::User.

◆ EmbreeShapeModel() [3/3]

Isis::EmbreeShapeModel::EmbreeShapeModel ( Target target,
const QString &  shapefile,
EmbreeTargetManager targetManager 
)

Constructor provided for instantiation from a file.

Parameters
targetTarget object describing the observed body
shapefileThe targe shape file to use
targetManagerThe target shape manager that will manage the target shape

Definition at line 108 of file EmbreeShapeModel.cpp.

References Isis::EmbreeTargetManager::create(), m_shapeFile, m_targetManager, Isis::ShapeModel::setName(), and Isis::IException::User.

◆ ~EmbreeShapeModel()

Isis::EmbreeShapeModel::~EmbreeShapeModel ( )
virtual

Destructor that notifies the target shape manager that the target shape is no longer in use.

See also
EmbreeTargetManager::free

Definition at line 145 of file EmbreeShapeModel.cpp.

References Isis::EmbreeTargetManager::free(), m_shapeFile, and m_targetManager.

Member Function Documentation

◆ calculateDefaultNormal()

void Isis::EmbreeShapeModel::calculateDefaultNormal ( )
virtual

Return the surface normal of the ellipsoid as the default.

Implements Isis::ShapeModel.

Definition at line 514 of file EmbreeShapeModel.cpp.

References calculateSurfaceNormal().

Referenced by incidenceAngle().

◆ calculateEllipsoidalSurfaceNormal()

void Isis::ShapeModel::calculateEllipsoidalSurfaceNormal ( )
protectedinherited

Calculates the ellipsoidal surface normal.

Definition at line 140 of file ShapeModel.cpp.

◆ calculateLocalNormal()

void Isis::EmbreeShapeModel::calculateLocalNormal ( QVector< double * >  neighborPoints)
virtual

Compute the normal for a local region of surface points.

This method will calculate the surface normal of an assumed very local region of points. This method is provided to fullfil the specs of the ShapeModel class but this approach is not the most efficent means to accomplish this for a pre-exising intercept point. See setLocalNormalFromIntercept() for this.

The ShapeModel class makes the assumption that the four pixel corners of the center intercept point forms a plane from which a surface normal can be computed. For the Naif DSK plate model, we have already identified the plate (see m_intercept) from the DSK plate model (m_model) of the intercept point that provides it directly. That is what setLocalNormalFromIntercept() provides.

So, this implementation will compute the centroid of the neighboring points and make a determination if it intercepts the current intercept plate as defined by m_intercept - if it is valid. If it does not exist or does not intercept the plate, a new intercept point is computed and returned here.

Author
2017-03-27 Kris Becker
Parameters
neighborPointsInput body-fixed points to compute normal for

Implements Isis::ShapeModel.

Definition at line 500 of file EmbreeShapeModel.cpp.

References Isis::ShapeModel::hasIntersection(), and Isis::IException::Programmer.

◆ calculateSurfaceNormal()

void Isis::EmbreeShapeModel::calculateSurfaceNormal ( )
virtual

Return the surface normal of the ellipsoid.

Implements Isis::ShapeModel.

Definition at line 523 of file EmbreeShapeModel.cpp.

References ellipsoidNormal(), and Isis::ShapeModel::setNormal().

Referenced by calculateDefaultNormal().

◆ clearSurfacePoint()

void Isis::EmbreeShapeModel::clearSurfacePoint ( )
virtual

Flag that the ShapeModel does not have a surface point or normal.

Note
This does not actually delete the surface point or normal stored by the parent ShapeModel class, it just sets the flags to false.

Reimplemented from Isis::ShapeModel.

Definition at line 384 of file EmbreeShapeModel.cpp.

References Isis::ShapeModel::clearSurfacePoint(), and Isis::ShapeModel::setHasNormal().

Referenced by intersectSurface().

◆ ellipsoidNormal()

QVector< double > Isis::EmbreeShapeModel::ellipsoidNormal ( )

Compute the true surface normal vector of an ellipsoid.

This routine is used instead of the one provided by the ShapeModel implementation. This is primarly because ShapeModel::calculateEllipsoidalSurfaceNormal() it is only suitable for a spheroid. This implementation is intended for irregular bodies so we expect triaxial ellipsoids.

Author
2017-03-27 Kris Becker
Returns
QVector<double> Normal vector at the intercept point relative to the ellipsoid (not the plate model)

Definition at line 544 of file EmbreeShapeModel.cpp.

References Isis::NaifStatus::CheckErrors(), Isis::ShapeModel::hasIntersection(), Isis::ShapeModel::hasValidTarget(), Isis::IException::Programmer, Isis::ShapeModel::surfaceIntersection(), Isis::ShapeModel::targetRadii(), and Isis::SurfacePoint::ToNaifArray().

Referenced by calculateSurfaceNormal().

◆ emissionAngle()

double Isis::ShapeModel::emissionAngle ( const std::vector< double > &  observerBodyFixedPosition)
virtualinherited

Computes and returns emission angle, in degrees, given the observer position.

Emission Angle: The angle between the surface normal vector at the intersection point and the vector from the intersection point to the observer (usually the spacecraft). The emission angle varies from 0 degrees when the observer is viewing the sub-spacecraft point (nadir viewing) to 90 degrees when the intercept is tangent to the surface of the target body. Thus, higher values of emission angle indicate more oblique viewing of the target.

Parameters
observerBodyFixedPositionThree dimensional position of the observer, in the coordinate system of the target body.
Returns
The emission angle, in decimal degrees.

Reimplemented in Isis::PlaneShape.

Definition at line 185 of file ShapeModel.cpp.

References Isis::RAD2DEG.

Referenced by Isis::CSMCamera::EmissionAngle(), and Isis::Sensor::EmissionAngle().

◆ getTolerance()

double Isis::EmbreeShapeModel::getTolerance ( ) const

Get the tolerance used when checking if the stored surface point is visible.

Returns
double The tolerance in kilometers
See also
isVisibleFrom

Definition at line 732 of file EmbreeShapeModel.cpp.

References m_tolerance.

Referenced by isVisibleFrom().

◆ hasEllipsoidIntersection()

bool Isis::ShapeModel::hasEllipsoidIntersection ( )
protectedinherited

Returns the status of the ellipsoid model intersection.

Returns
bool Indicates whether this shape model has a valid ellipsoid intersection.

Definition at line 213 of file ShapeModel.cpp.

◆ hasIntersection()

◆ hasNormal()

bool Isis::ShapeModel::hasNormal ( ) const
inherited

Returns surface point normal status.

Returns
Indicates whether this ShapeModel has a surface normal.

Definition at line 378 of file ShapeModel.cpp.

Referenced by Isis::Camera::GetLocalNormal(), and incidenceAngle().

◆ hasValidTarget()

bool Isis::ShapeModel::hasValidTarget ( ) const
protectedinherited

Returns the status of the target.

If it is NULL, this method returns false.

Returns
Indicates whether the target is valid.

Definition at line 449 of file ShapeModel.cpp.

Referenced by Isis::BulletShapeModel::ellipsoidNormal(), ellipsoidNormal(), and Isis::NaifDskShape::ellipsoidNormal().

◆ incidenceAngle()

double Isis::EmbreeShapeModel::incidenceAngle ( const std::vector< double > &  illuminatorBodyFixedPosition)
virtual

Computes and returns incidence angle, in degrees, given the illuminator position.

The surface normal vector is calculated using an ellipsoid, not the local normal of the actual target shape.

Incidence Angle: The angle between the surface normal vector at the intersection point and the vector from the intersection point to the illuminator (usually the sun).

Note: this method does not use the surface model.

Parameters
illuminatorBodyFixedPositionThree dimensional position for the illuminator, in the body-fixed coordinate system.
Returns
double Incidence angle, in degrees.

Reimplemented from Isis::ShapeModel.

Definition at line 595 of file EmbreeShapeModel.cpp.

References calculateDefaultNormal(), Isis::ShapeModel::hasNormal(), Isis::ShapeModel::incidenceAngle(), Isis::ShapeModel::normal(), and Isis::ShapeModel::setNormal().

◆ Initialize()

void Isis::ShapeModel::Initialize ( )
inherited

Initializes the ShapeModel private variables.

Definition at line 65 of file ShapeModel.cpp.

◆ intersectEllipsoid()

bool Isis::ShapeModel::intersectEllipsoid ( const std::vector< double >  observerBodyFixedPosition,
const std::vector< double > &  observerLookVectorToTarget 
)
protectedinherited

Finds the intersection point on the ellipsoid model using the given position of the observer (spacecraft) and direction vector from the observer to the target (body).

Parameters
observerBodyFixedPositionThree dimensional position of the observer, in the coordinate system of the target body.
observerLookVectorToTargetThree dimensional direction vector from the observer to the target.
Returns
bool Indicates whether this shape model found a valid ellipsoid intersection.

Definition at line 267 of file ShapeModel.cpp.

Referenced by Isis::DemShape::intersectSurface(), and Isis::EllipsoidShape::intersectSurface().

◆ intersectSurface() [1/3]

bool Isis::EmbreeShapeModel::intersectSurface ( const Latitude lat,
const Longitude lon,
const std::vector< double > &  observerPos,
const bool &  backCheck = true 
)
virtual

Compute intersection of surface vector direction from observer with occulusion.

This method computes a surface intersection point at a given latitude and longitude. All surface points at that latitude and longitude are collected and then the intersect that is non-occluded and closest to the observer is saved. The unit surface normal is also saved.

If occlusion is not checked, then the closest intersection to the observer is saved along with the unit surface normal.

Parameters
latThe latitude of the surface intersection
lonThe longitude of the surface intersection
observerPosThe position of the observer for occlusion checks
backCheckIf occlusion should be checked
Returns
bool If an intersection was found

Reimplemented from Isis::ShapeModel.

Definition at line 206 of file EmbreeShapeModel.cpp.

References clearSurfacePoint(), Isis::ShapeModel::hasIntersection(), Isis::RTCOcclusionRay::ignorePrimID, Isis::EmbreeTargetShape::intersectRay(), Isis::EmbreeTargetShape::isOccluded(), Isis::RTCMultiHitRay::lastHit, latlonToRay(), Isis::LinearAlgebra::magnitude(), Isis::LinearAlgebra::normalize(), sortHits(), updateIntersection(), and Isis::LinearAlgebra::vector().

◆ intersectSurface() [2/3]

bool Isis::EmbreeShapeModel::intersectSurface ( const SurfacePoint surfpt,
const std::vector< double > &  observerPos,
const bool &  backCheck = true 
)
virtual

Compute intersection of surface point from observer with occulusion.

Compute the intersection point closest to a surface point. If occlusion is checked, then the intersection that is both closest to the surface point and non-occluded is saved. If occlusion is not checked, then the intersection closest to the surface point is saved.

The unit surface normal is also saved when an intersection is saved.

Parameters
surfptSurface intercept point
observerPosObserver to check occlusion
backCheckIf occlusion should be checked
Returns
bool If an intersection was found

Reimplemented from Isis::ShapeModel.

Definition at line 284 of file EmbreeShapeModel.cpp.

References clearSurfacePoint(), Isis::ShapeModel::hasIntersection(), Isis::RTCOcclusionRay::ignorePrimID, Isis::EmbreeTargetShape::intersectRay(), Isis::EmbreeTargetShape::isOccluded(), Isis::RTCMultiHitRay::lastHit, Isis::LinearAlgebra::magnitude(), Isis::LinearAlgebra::normalize(), pointToRay(), sortHits(), Isis::SurfacePoint::ToNaifArray(), updateIntersection(), and Isis::LinearAlgebra::vector().

◆ intersectSurface() [3/3]

bool Isis::EmbreeShapeModel::intersectSurface ( std::vector< double >  observerPos,
std::vector< double >  lookDirection 
)
virtual

This method computes an intercept point given an observer location and look direction using the Embree model.

This also saves the surface normal.

Parameters
observerPosPosition of observer in body-fixed kilometers
lookDirectionUnit look direction from the observer
Returns
bool If an intercept was found

Implements Isis::ShapeModel.

Definition at line 161 of file EmbreeShapeModel.cpp.

References clearSurfacePoint(), Isis::EmbreeTargetShape::getHitInformation(), Isis::ShapeModel::hasIntersection(), Isis::EmbreeTargetShape::intersectRay(), Isis::RTCMultiHitRay::lastHit, Isis::ShapeModel::setHasIntersection(), and updateIntersection().

◆ isDEM()

bool Isis::EmbreeShapeModel::isDEM ( ) const
virtual

Indicates that this shape model is not from a DEM.

Since this method returns false for this class, the Camera class will not calculate the local normal using neighbor points.

Returns
bool Indicates that this is not a DEM shape model.

Implements Isis::ShapeModel.

Definition at line 433 of file EmbreeShapeModel.cpp.

◆ isVisibleFrom()

bool Isis::EmbreeShapeModel::isVisibleFrom ( const std::vector< double >  observerPos,
const std::vector< double >  lookDirection 
)
virtual

Check if the current internalized surface point is visible from an observer position and look direction.

A new intersection is calculated using the observer and look direction. If, the distance between the surface point and new intersection is less than the tolerance, then the surface point is considered to be visible.

Parameters
observerPosThe position of the observer
lookDirectionThe look direction of the observer

Reimplemented from Isis::ShapeModel.

Definition at line 448 of file EmbreeShapeModel.cpp.

References Isis::EmbreeTargetShape::getHitInformation(), getTolerance(), Isis::RayHitInformation::intersection, Isis::EmbreeTargetShape::intersectRay(), Isis::RTCMultiHitRay::lastHit, Isis::LinearAlgebra::magnitude(), Isis::ShapeModel::surfaceIntersection(), Isis::SurfacePoint::ToNaifArray(), and Isis::LinearAlgebra::vector().

◆ latlonToRay()

RTCMultiHitRay Isis::EmbreeShapeModel::latlonToRay ( const Latitude lat,
const Longitude lon 
) const
private

Given a latitude and longitude, create a ray that goes from the origin of the target through that latitude and longitude.

The ray length is set to the maximum distance in the scene to ensure that it intersects all points at that latitude and longitude.

Parameters
latThe latitude for the ray to pass through
lonThe longitude for the ray to pass through
Returns
RTCMultiHitRay A ray from the origin of the target through the given latitude and longitude.

Definition at line 632 of file EmbreeShapeModel.cpp.

References Isis::EmbreeTargetShape::maximumSceneDistance(), and Isis::Angle::radians().

Referenced by intersectSurface(), and localRadius().

◆ localRadius()

Distance Isis::EmbreeShapeModel::localRadius ( const Latitude lat,
const Longitude lon 
)
virtual

Determine radius at a given lat/lon grid point.

@NOTE this call does not update the internal state of the intercept point. Use intersectSurface(lat, lon) for that.

Parameters
latLatitude coordinate of grid point
lonLongitude coordinate of grid point
Returns
Distance Radius value of the intercept grid point

Implements Isis::ShapeModel.

Definition at line 402 of file EmbreeShapeModel.cpp.

References Isis::EmbreeTargetShape::getHitInformation(), Isis::RayHitInformation::intersection, Isis::EmbreeTargetShape::intersectRay(), Isis::Distance::Kilometers, Isis::RTCMultiHitRay::lastHit, latlonToRay(), and Isis::LinearAlgebra::magnitude().

◆ name()

◆ normal()

std::vector< double > Isis::ShapeModel::normal ( )
inherited

Returns the local surface normal at the current intersection point.

Note: This method will throw an error if the normal doesn't exist. Use the hasNormal() method to verify before calling this method.

See also
hasNormal()
Returns
A surface normal vector, if it exists.

Definition at line 401 of file ShapeModel.cpp.

Referenced by Isis::DemShape::calculateDefaultNormal(), Isis::DemShape::calculateLocalNormal(), Isis::EllipsoidShape::calculateLocalNormal(), Isis::Camera::GetLocalNormal(), incidenceAngle(), Isis::BulletShapeModel::setLocalNormalFromIntercept(), and Isis::BulletShapeModel::updateShapeModel().

◆ phaseAngle()

double Isis::ShapeModel::phaseAngle ( const std::vector< double > &  observerBodyFixedPosition,
const std::vector< double > &  illuminatorBodyFixedPosition 
)
virtualinherited

Computes and returns phase angle, in degrees, given the positions of the observer and illuminator.

Phase Angle: The angle between the vector from the intersection point to the observer (usually the spacecraft) and the vector from the intersection point to the illuminator (usually the sun).

Parameters
observerBodyFixedPositionThree dimensional position of the observer, in the coordinate system of the target body.
illuminatorBodyFixedPositionThree dimensional position for the illuminator, in the body-fixed coordinate system.
Returns
double Phase angle, in degrees.

Definition at line 324 of file ShapeModel.cpp.

References Isis::RAD2DEG.

Referenced by Isis::CSMCamera::PhaseAngle(), and Isis::Sensor::PhaseAngle().

◆ pointToRay()

RTCMultiHitRay Isis::EmbreeShapeModel::pointToRay ( const SurfacePoint surfpt) const
private

Given a surface point, create a ray that goes from the origin of the target to the surface point.

Parameters
surfptThe surface point for the ray to pass through
Returns
RTCMultiHitRay A ray from the origin of the target to the given surface point.

Definition at line 662 of file EmbreeShapeModel.cpp.

References Isis::SurfacePoint::GetLocalRadius(), Isis::Distance::kilometers(), Isis::RTCMultiHitRay::lastHit, Isis::LinearAlgebra::normalize(), Isis::SurfacePoint::ToNaifArray(), and Isis::LinearAlgebra::vector().

Referenced by intersectSurface().

◆ resolution()

double Isis::ShapeModel::resolution ( )
protectedinherited

Convenience method to get pixel resolution (m/pix) at current intersection point.

Returns
@double The pixel resolution at the surface intersection.

Definition at line 592 of file ShapeModel.cpp.

Referenced by Isis::DemShape::intersectSurface().

◆ setHasIntersection()

void Isis::ShapeModel::setHasIntersection ( bool  b)
inherited

◆ setHasNormal()

void Isis::ShapeModel::setHasNormal ( bool  status)
protectedinherited

Sets the flag to indicate whether this ShapeModel has a surface normal.

Parameters
bIndicates whether there is a normal.

Definition at line 581 of file ShapeModel.cpp.

Referenced by Isis::DemShape::calculateDefaultNormal(), Isis::DemShape::calculateLocalNormal(), Isis::EllipsoidShape::calculateLocalNormal(), clearSurfacePoint(), and Isis::BulletShapeModel::updateShapeModel().

◆ setName()

void Isis::ShapeModel::setName ( QString  name)
protectedinherited

◆ setNormal() [1/2]

void Isis::ShapeModel::setNormal ( const double  a,
const double  b,
const double  c 
)
protectedinherited

Sets the normal for the currect intersection point.

Note: This method will throw an error if this ShapeModel doesn't have and intersection. Use the hasIntersection() method to verify before calling this method.

See also
hasIntersection()
Parameters
aFirst coordinate value for the three dimensional surface normal.
bSecond coordinate value for the three dimensional surface normal.
cThird coordinate value for the three dimensional surface normal.

Definition at line 512 of file ShapeModel.cpp.

◆ setNormal() [2/2]

void Isis::ShapeModel::setNormal ( const std::vector< double >  normal)
protectedinherited

◆ setSurfacePoint()

void Isis::ShapeModel::setSurfacePoint ( const SurfacePoint surfacePoint)
virtualinherited

Set surface intersection point.

Parameters
surfacePointPosition coordinate for the surface point.

Reimplemented in Isis::BulletShapeModel.

Definition at line 565 of file ShapeModel.cpp.

Referenced by Isis::NaifDskShape::intersectSurface(), Isis::RadarGroundMap::SetGround(), updateIntersection(), and Isis::BulletShapeModel::updateShapeModel().

◆ setTolerance()

void Isis::EmbreeShapeModel::setTolerance ( const double &  tolerance)

Set the tolerance used when checking if the stored surface point is visible.

Parameters
toleranceThe new tolerance in kilometers
See also
isVisibleFrom

Definition at line 745 of file EmbreeShapeModel.cpp.

References m_tolerance.

Referenced by Isis::ShapeModelFactory::create().

◆ sortHits()

QVector< RayHitInformation > Isis::EmbreeShapeModel::sortHits ( RTCMultiHitRay ray,
LinearAlgebra::Vector observer 
)
private

Sort all intersections by a ray based on distance to a point.

All intersections are first stored in RayHitInformation objects and then sorted.

Parameters
rayThe ray to sort intersections for. The ray must already be intersected with the target shape by EmbreeTargetShape::intersectRay.
observerThe point to sort the intersections based on.
Returns
QVector<RayHitInformation> Vector containing the sorted intersections. The first intersection is the one closest to the given point.

Definition at line 708 of file EmbreeShapeModel.cpp.

References Isis::EmbreeTargetShape::getHitInformation(), Isis::RayHitInformation::intersection, Isis::RTCMultiHitRay::lastHit, and Isis::LinearAlgebra::magnitude().

Referenced by intersectSurface().

◆ surfaceIntersection()

◆ targetRadii()

std::vector< Distance > Isis::ShapeModel::targetRadii ( ) const
protectedinherited

Returns the radii of the body in km.

The radii are obtained from the target. Note: This method will throw an error if the ShapeModel does not have a valid target. Use the hasValidTarget() method to verify before calling this method.

See also
hasValidTarget()
Returns
Three dimensional vector containing the ellipsoid radii values.

Definition at line 465 of file ShapeModel.cpp.

Referenced by Isis::DemShape::calculateDefaultNormal(), Isis::EllipsoidShape::calculateLocalNormal(), Isis::BulletShapeModel::ellipsoidNormal(), ellipsoidNormal(), Isis::NaifDskShape::ellipsoidNormal(), Isis::EquatorialCylindricalShape::intersectSurface(), and Isis::EllipsoidShape::localRadius().

◆ updateIntersection()

void Isis::EmbreeShapeModel::updateIntersection ( const RayHitInformation  hitInfo)
private

Update the ShapeModel given an intersection and normal.

Parameters
hitinfoThe intersection and normal to internalize

Definition at line 358 of file EmbreeShapeModel.cpp.

References Isis::SurfacePoint::FromNaifArray(), Isis::RayHitInformation::intersection, Isis::ShapeModel::setHasIntersection(), Isis::ShapeModel::setNormal(), Isis::ShapeModel::setSurfacePoint(), and Isis::RayHitInformation::surfaceNormal.

Referenced by intersectSurface().

Member Data Documentation

◆ m_hasEllipsoidIntersection

bool Isis::ShapeModel::m_hasEllipsoidIntersection
privateinherited

Indicates the ellipsoid was successfully intersected.

Definition at line 171 of file ShapeModel.h.

◆ m_hasIntersection

bool Isis::ShapeModel::m_hasIntersection
privateinherited

indicates good intersection exists

Definition at line 172 of file ShapeModel.h.

◆ m_hasNormal

bool Isis::ShapeModel::m_hasNormal
privateinherited

indicates normal has been computed

Definition at line 173 of file ShapeModel.h.

◆ m_normal

std::vector<double> Isis::ShapeModel::m_normal
privateinherited

Local normal of current intersection point.

Definition at line 174 of file ShapeModel.h.

◆ m_shapeFile

QString Isis::EmbreeShapeModel::m_shapeFile
private

!< Tolerance for checking visibility.

Definition at line 100 of file EmbreeShapeModel.h.

Referenced by EmbreeShapeModel(), and ~EmbreeShapeModel().

◆ m_surfacePoint

SurfacePoint* Isis::ShapeModel::m_surfacePoint
privateinherited

< Name of the shape

Current intersection point

Definition at line 176 of file ShapeModel.h.

◆ m_targetManager

EmbreeTargetManager* Isis::EmbreeShapeModel::m_targetManager
private

!< The target body and Embree objects for intersection.

This is owned and managed by the target manager and will be deleted by that.

Definition at line 95 of file EmbreeShapeModel.h.

Referenced by EmbreeShapeModel(), and ~EmbreeShapeModel().

◆ m_tolerance

double Isis::EmbreeShapeModel::m_tolerance
private

!< This manages EmbreeTargetShapes to allow for sharing of them between EmbreeShapeModels and deletes them when no longer needed.

Definition at line 99 of file EmbreeShapeModel.h.

Referenced by getTolerance(), and setTolerance().


The documentation for this class was generated from the following files: