Acts::ConeLayer Class Reference

#include <acts/blob/sPHENIX/Core/include/Acts/Geometry/ConeLayer.hpp>

Inheritance diagram for Acts::ConeLayer:

Collaboration diagram for Acts::ConeLayer:

Public Member Functions
	ConeLayer ()=delete
	ConeLayer (const ConeLayer &cla)=delete
	~ConeLayer () override=default
ConeLayer &	operator= (const ConeLayer &)=delete
const ConeSurface &	surfaceRepresentation () const override
	Transforms the layer into a Surface representation for extrapolation.
ConeSurface &	surfaceRepresentation () override
Public Member Functions inherited from Acts::ConeSurface
	~ConeSurface () override=default
	ConeSurface ()=delete
ConeSurface &	operator= (const ConeSurface &other)
Vector3D	binningPosition (const GeometryContext &gctx, BinningValue bValue) const final
SurfaceType	type () const override
	Return the surface type.
RotationMatrix3D	referenceFrame (const GeometryContext &gctx, const Vector3D &position, const Vector3D &momentum) const final
Vector3D	normal (const GeometryContext &gctx, const Vector2D &lposition) const final
Vector3D	normal (const GeometryContext &gctx, const Vector3D &position) const final
virtual Vector3D	rotSymmetryAxis (const GeometryContext &gctx) const
const ConeBounds &	bounds () const final
	This method returns the ConeBounds by reference.
Vector3D	localToGlobal (const GeometryContext &gctx, const Vector2D &lposition, const Vector3D &momentum) const final
Result< Vector2D >	globalToLocal (const GeometryContext &gctx, const Vector3D &position, const Vector3D &momentum) const final
SurfaceIntersection	intersect (const GeometryContext &gctx, const Vector3D &position, const Vector3D &direction, const BoundaryCheck &bcheck) const final
double	pathCorrection (const GeometryContext &gctx, const Vector3D &position, const Vector3D &direction) const final
Polyhedron	polyhedronRepresentation (const GeometryContext &gctx, size_t lseg) const override
std::string	name () const override
	Return properly formatted class name for screen output.
LocalCartesianToBoundLocalMatrix	localCartesianToBoundLocalDerivative (const GeometryContext &gctx, const Vector3D &position) const final
Public Member Functions inherited from Acts::Surface
virtual	~Surface ()
std::shared_ptr< Surface >	getSharedPtr ()
std::shared_ptr< const Surface >	getSharedPtr () const
Surface &	operator= (const Surface &other)
virtual bool	operator== (const Surface &other) const
virtual bool	operator!= (const Surface &sf) const
virtual const Transform3D &	transform (const GeometryContext &gctx) const
virtual Vector3D	center (const GeometryContext &gctx) const
virtual Vector3D	normal (const GeometryContext &gctx) const
const DetectorElementBase *	associatedDetectorElement () const
const Layer *	associatedLayer () const
void	associateLayer (const Layer &lay)
const ISurfaceMaterial *	surfaceMaterial () const
const std::shared_ptr< const ISurfaceMaterial > &	surfaceMaterialSharedPtr () const
void	assignSurfaceMaterial (std::shared_ptr< const ISurfaceMaterial > material)
bool	isOnSurface (const GeometryContext &gctx, const Vector3D &position, const Vector3D &momentum, const BoundaryCheck &bcheck=true) const
virtual bool	insideBounds (const Vector2D &lposition, const BoundaryCheck &bcheck=true) const
virtual void	initJacobianToGlobal (const GeometryContext &gctx, BoundToFreeMatrix &jacobian, const Vector3D &position, const Vector3D &direction, const BoundVector &pars) const
virtual RotationMatrix3D	initJacobianToLocal (const GeometryContext &gctx, FreeToBoundMatrix &jacobian, const Vector3D &position, const Vector3D &direction) const
virtual BoundRowVector	derivativeFactors (const GeometryContext &gctx, const Vector3D &position, const Vector3D &direction, const RotationMatrix3D &rft, const BoundToFreeMatrix &jacobian) const
virtual std::ostream &	toStream (const GeometryContext &gctx, std::ostream &sl) const
AlignmentToBoundMatrix	alignmentToBoundDerivative (const GeometryContext &gctx, const FreeVector &derivatives, const Vector3D &position, const Vector3D &direction) const
virtual AlignmentRowVector	alignmentToPathDerivative (const GeometryContext &gctx, const RotationMatrix3D &rotToLocalZAxis, const Vector3D &position, const Vector3D &direction) const
Public Member Functions inherited from Acts::GeometryObject
	GeometryObject ()=default
	Defaulted construrctor.
	GeometryObject (const GeometryObject &)=default
	Defaulted copy constructor.
	GeometryObject (const GeometryIdentifier &geometryId)
GeometryObject &	operator= (const GeometryObject &geometryId)
const GeometryIdentifier &	geometryId () const
virtual double	binningPositionValue (const GeometryContext &gctx, BinningValue bValue) const
void	assignGeometryId (const GeometryIdentifier &geometryId)
Public Member Functions inherited from Acts::Layer
	Layer ()=delete
	Default Constructor - deleted.
	Layer (const Layer &)=delete
	Copy Constructor - deleted.
virtual	~Layer ()=default
	Destructor.
Layer &	operator= (const Layer &)=delete
const SurfaceArray *	surfaceArray () const
	Return the entire SurfaceArray, returns a nullptr if no SurfaceArray.
SurfaceArray *	surfaceArray ()
	Non-const version.
double	thickness () const
virtual bool	isOnLayer (const GeometryContext &gctx, const Vector3D &position, const BoundaryCheck &bcheck=true) const
const ApproachDescriptor *	approachDescriptor () const
	Return method for the approach descriptor, can be nullptr.
ApproachDescriptor *	approachDescriptor ()
	Non-const version of the approach descriptor.
template<typename options_t >
bool	resolve (const options_t &options) const
virtual bool	resolve (bool resolveSensitive, bool resolveMaterial, bool resolvePassive) const
template<typename options_t >
std::vector< SurfaceIntersection >	compatibleSurfaces (const GeometryContext &gctx, const Vector3D &position, const Vector3D &direction, const options_t &options) const
	Decompose Layer into (compatible) surfaces.
template<typename options_t >
const SurfaceIntersection	surfaceOnApproach (const GeometryContext &gctx, const Vector3D &position, const Vector3D &direction, const options_t &options) const
const Layer *	nextLayer (const GeometryContext &gctx, const Vector3D &position, const Vector3D &direction) const
const TrackingVolume *	trackingVolume () const
const AbstractVolume *	representingVolume () const
LayerType	layerType () const
	return the LayerType

Static Public Member Functions
static MutableLayerPtr	create (const Transform3D &transform, std::shared_ptr< const ConeBounds > cbounds, std::unique_ptr< SurfaceArray > surfaceArray, double thickness=0., std::unique_ptr< ApproachDescriptor > ad=nullptr, LayerType laytyp=Acts::active)

Protected Member Functions
	ConeLayer (const Transform3D &transform, std::shared_ptr< const ConeBounds > cbounds, std::unique_ptr< SurfaceArray > surfaceArray, double thickness=0., std::unique_ptr< ApproachDescriptor > ade=nullptr, LayerType laytyp=Acts::active)
	ConeLayer (const ConeLayer &cla, const Transform3D &shift)
Protected Member Functions inherited from Acts::ConeSurface
	ConeSurface (const Transform3D &transform, double alpha, bool symmetric=false)
	ConeSurface (const Transform3D &transform, double alpha, double zmin, double zmax, double halfPhi=M_PI)
	ConeSurface (const Transform3D &transform, const std::shared_ptr< const ConeBounds > &cbounds)
	ConeSurface (const ConeSurface &other)
	ConeSurface (const GeometryContext &gctx, const ConeSurface &other, const Transform3D &shift)
Protected Member Functions inherited from Acts::Surface
	Surface (const Transform3D &transform=Transform3D::Identity())
	Surface (const Surface &other)
	Surface (const DetectorElementBase &detelement)
	Surface (const GeometryContext &gctx, const Surface &other, const Transform3D &shift)
Protected Member Functions inherited from Acts::Layer
	Layer (std::unique_ptr< SurfaceArray > surfaceArray, double thickness=0., std::unique_ptr< ApproachDescriptor > ades=nullptr, LayerType laytyp=passive)
void	encloseTrackingVolume (const TrackingVolume &tvol)

Additional Inherited Members
Public Types inherited from Acts::Surface
enum	SurfaceType {   Cone = 0, Cylinder = 1, Disc = 2, Perigee = 3,   Plane = 4, Straw = 5, Curvilinear = 6, Other = 7 }
Protected Attributes inherited from Acts::ConeSurface
std::shared_ptr< const ConeBounds >	m_bounds
	bounds (shared)
Protected Attributes inherited from Acts::Layer
NextLayers	m_nextLayers
	the previous Layer according to BinGenUtils
const BinUtility *	m_nextLayerUtility = nullptr
std::unique_ptr< const SurfaceArray >	m_surfaceArray = nullptr
double	m_layerThickness = 0.
	Thickness of the Layer.
std::unique_ptr< const ApproachDescriptor >	m_approachDescriptor = nullptr
const TrackingVolume *	m_trackingVolume = nullptr
	the enclosing TrackingVolume
std::unique_ptr< AbstractVolume >	m_representingVolume = nullptr
LayerType	m_layerType
	make a passive/active either way
int	m_ssRepresentingSurface = 0
	sub structure indication
int	m_ssSensitiveSurfaces = 0
int	m_ssApproachSurfaces = 0

Detailed Description

Class to describe a conical detector layer for tracking, it inhertis from both, Layer base class and ConeSurface class

Definition at line 25 of file ConeLayer.hpp.

View newest version in sPHENIX GitHub at line 25 of file ConeLayer.hpp

Constructor & Destructor Documentation

Acts::ConeLayer::ConeLayer ( )

delete

Referenced by create().

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Acts::ConeLayer::ConeLayer ( const ConeLayer &  cla )

delete

Acts::ConeLayer::~ConeLayer ( )

overridedefault

Acts::ConeLayer::ConeLayer ( const Transform3D &  transform, std::shared_ptr< const ConeBounds >  cbounds, std::unique_ptr< SurfaceArray >  surfaceArray, double  thickness = 0., std::unique_ptr< ApproachDescriptor >  ade = nullptr, LayerType  laytyp = Acts::active  )

protected

Private constructor with arguments

Parameters

transform	is the 3D transform that poisitions the layer in 3D frame
cbounds	is the conical bound description
surfaceArray	is the array of sensitive surfaces
thickness	is the layer thickness along the normal axis
ade	is the approach descriptor for navigation towards the layer
laytyp	is the layer type

Definition at line 16 of file ConeLayer.cpp.

View newest version in sPHENIX GitHub at line 16 of file ConeLayer.cpp

Acts::ConeLayer::ConeLayer ( const ConeLayer &  cla, const Transform3D &  shift  )

protected

Private copy constructor with shift, called by create(args*)

Parameters

cla	is the source clone layer
shift	is the additional shift applied after copying

Member Function Documentation

static MutableLayerPtr Acts::ConeLayer::create ( const Transform3D &  transform, std::shared_ptr< const ConeBounds >  cbounds, std::unique_ptr< SurfaceArray >  surfaceArray, double  thickness = 0., std::unique_ptr< ApproachDescriptor >  ad = nullptr, LayerType  laytyp = Acts::active  )

inlinestatic

Factory for shared layer

Parameters

transform	is the 3D transform that poisitions the layer in 3D frame
cbounds	is the conical bound description
surfaceArray	is the array of sensitive surfaces
thickness	is the layer thickness along the normal axis
ad	is the approach descriptor for navigation towards the layer
laytyp	is the layer type

Returns

is a shared pointer to a layer

Definition at line 39 of file ConeLayer.hpp.

View newest version in sPHENIX GitHub at line 39 of file ConeLayer.hpp

References ConeLayer(), and Acts::Layer::thickness().

Referenced by Acts::Test::Layers::BOOST_AUTO_TEST_CASE().

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ConeLayer& Acts::ConeLayer::operator= ( const ConeLayer &  )

delete

const Acts::ConeSurface & Acts::ConeLayer::surfaceRepresentation ( ) const

overridevirtual

Transforms the layer into a Surface representation for extrapolation.

Implements Acts::Layer.

Definition at line 25 of file ConeLayer.cpp.

View newest version in sPHENIX GitHub at line 25 of file ConeLayer.cpp

Acts::ConeSurface & Acts::ConeLayer::surfaceRepresentation ( )

overridevirtual

Implements Acts::Layer.

Definition at line 29 of file ConeLayer.cpp.

View newest version in sPHENIX GitHub at line 29 of file ConeLayer.cpp

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

• acts/blob/sPHENIX/Core/include/Acts/Geometry/ConeLayer.hpp
• acts/blob/sPHENIX/Core/src/Geometry/ConeLayer.cpp