MuonGMR4::TgcReadoutElement Class Reference

#include <TgcReadoutElement.h>

Inheritance diagram for MuonGMR4::TgcReadoutElement:

Collaboration diagram for MuonGMR4::TgcReadoutElement:

Classes
struct	defineArgs
struct	parameterBook
	Set of parameters to describe a Tgc chamber. More...

Public Member Functions
	TgcReadoutElement (defineArgs &&args)
virtual	~TgcReadoutElement ()
const parameterBook &	getParameters () const
ActsTrk::DetectorType	detectorType () const override final
	Overload from the ActsTrk::IDetectorElement.
double	thickness () const override final
	Returns the thickness in normal direction of the strip readout planes.
StatusCode	initElement () override final
	Initialization of the readout elements.
IdentifierHash	measurementHash (const Identifier &measId) const override final
	Constructs the identifier hash from the full measurement Identifier.
IdentifierHash	layerHash (const Identifier &measId) const override final
	The layer hash removes the bits from the IdentifierHash corresponding to the measurement's channel number and sets them to zero.
IdentifierHash	layerHash (const IdentifierHash &measHash) const
Identifier	measurementId (const IdentifierHash &measHash) const override final
	Back conversion of the measurement hash to a full Athena Identifier The behaviour is undefined if a layer hash is parsed.
unsigned	nGasGaps () const
	Returns the number of gasgaps described by this ReadOutElement (usally 2 or 3)
double	moduleWidthS () const
	Returns the length of the bottom edge of the chamber (short width)
double	moduleWidthL () const
	Returns the length of the top edge of the chamber (top width)
double	moduleHeight () const
	Returns the height of the chamber (Distance bottom - topWidth)
double	moduleThickness () const
	Returns the thickness of the chamber.
unsigned	numChannels (const IdentifierHash &measHash) const
	Returns the number of readout channels.
unsigned	numStrips (const IdentifierHash &layHash) const
	Returns the number of strips for a given gasGap [1-3].
unsigned	numWireGangs (const IdentifierHash &layHash) const
	Returns the number of wire gangs for a given gasGap [1-3].
double	gasGapPitch () const
	Returns the thickness of the gasGap.
Amg::Vector3D	channelPosition (const ActsTrk::GeometryContext &ctx, const Identifier &measId) const
	Returns the center of the measurement channel eta measurement: wire gang center phi measurement: strip center.
Amg::Vector3D	channelPosition (const ActsTrk::GeometryContext &ctx, const IdentifierHash &measHash) const
const StripLayerPtr &	sensorLayout (const IdentifierHash &hash) const
	Returns the pointer to the strip layer associated with the gas gap.
const WireGroupDesign &	wireGangLayout (const IdentifierHash &layHash) const
	Returns access to the wire group design of the given gasGap [1-3] If the gap does not have a wires an exception is thrown.
const RadialStripDesign &	stripLayout (const IdentifierHash &layHash) const
	Returns access to the strip design of the given gasGap [1-3] If the gap does not have strips an exception is thrown.
const GeoAlignableTransform *	alignableTransform () const
	Return the alignable transform node of the readout element.
Identifier	identify () const override final
	Return the ATLAS identifier.
IdentifierHash	identHash () const
	Returns the hash of the readout element which is identical to the detector element hash provided by the associated idHelper.
int	stationName () const
	Returns the stationName (BIS, BOS, etc) encoded into the integer.
int	stationEta () const
	Returns the stationEta (positive A site, negative C site)
int	stationPhi () const
	Returns the stationPhi (1-8) -> sector (2*phi - (isSmall))
Muon::MuonStationIndex::ChIndex	chamberIndex () const
	Returns the chamber index of the Identifier (MMS & STS) have the same chamber Index (EIS)
const std::string &	chamberDesign () const
	The chamber design refers to the construction parameters of a readout element.
const Muon::IMuonIdHelperSvc *	idHelperSvc () const
	Returns the pointer to the muonIdHelperSvc.
Amg::Vector3D	center (const ActsTrk::GeometryContext &ctx) const
	Returns the geometrical center point of the readout element.
Amg::Vector3D	center (const ActsTrk::GeometryContext &ctx, const Identifier &id) const
	Returns the origin of the readout element's transform.
Amg::Vector3D	center (const ActsTrk::GeometryContext &ctx, const IdentifierHash &hash) const
	Returns the origin of the readout element's transform.
Amg::Transform3D	globalToLocalTransform (const ActsTrk::GeometryContext &ctx) const
	Returns the transformation from the global ATLAS coordinate system into the local coordinate system of the readout element.
Amg::Transform3D	globalToLocalTransform (const ActsTrk::GeometryContext &ctx, const Identifier &id) const
	Returns the transformations from the ATLAS coordinate system into the local coordinate system of the readout sensor.
Amg::Transform3D	globalToLocalTransform (const ActsTrk::GeometryContext &ctx, const IdentifierHash &hash) const
	Returns the transformations from the ATLAS coordinate system into the local coordinate system using the measurement / layer hash mechanism.
const Amg::Transform3D &	localToGlobalTransform (const ActsTrk::GeometryContext &ctx) const
	Returns the transformation from the local coordinate system of the readout element into the global ATLAS coordinate system (inverse of globalToLocal).
const Amg::Transform3D &	localToGlobalTransform (const ActsTrk::GeometryContext &ctx, const Identifier &id) const
	Returns the transformation from the local coordinate system of the readout element into the global ATLAS coordinate system (inverse of globalToLocal).
const Amg::Transform3D &	localToGlobalTransform (const ActsTrk::GeometryContext &ctx, const IdentifierHash &id) const
	Returns the transformation from the local coordinate system of the readout element into the global ATLAS coordinate system (inverse of globalToLocal).
const Amg::Transform3D &	localToGlobalTransform (const Acts::GeometryContext &gctx) const override final
	Wrapper function of the localToGlobalTransform method to satisfy the Acts::IDetectorElementBase interface.
const Acts::Surface &	surface () const override final
	Returns the surface associated with the readout element.
Acts::Surface &	surface () override final
	Returns the mutable surface associated with the readout element.
const Acts::Surface &	surface (const IdentifierHash &hash) const
	Returns the surface associated with the transform of a given readout layer.
Acts::Surface &	surface (const IdentifierHash &hash)
	Returns the mutable surface associated with the transform of a given readout layer.
std::shared_ptr< Acts::Surface >	surfacePtr (const IdentifierHash &hash) const
	Returns the mutable surface pointer associated with the transform of a given readout layer.
std::vector< std::shared_ptr< Acts::Surface > >	getSurfaces () const
	Returns all surfaces that are associated with the active readout planes.
void	setChamberLink (const Chamber *chamber)
	Sets the link to the enclosing chamber.
void	setSectorLink (const SpectrometerSector *envelope)
	Set the link to the enclosing sector envelope.
const SpectrometerSector *	msSector () const
	Returns the pointer to the envelope volume enclosing all chambers in the sector.
const Chamber *	chamber () const
	Returns the pointer to the chamber enclosing this readout element.
virtual bool	isSensitive () const final override
	Returns whether the detector element is sensitive.
void	releaseUnAlignedTrfs () const
	Release all transforms from the memory that are not connected with a geometry context but cached by the readout element itself.
unsigned int	storeAlignedTransforms (const ActsTrk::DetectorAlignStore &store) const override final
	Construct the final aligned transformations and store them in the alignment store.
bool	msgLvl (const MSG::Level lvl) const
	Test the output level.
MsgStream &	msg () const
	The standard message stream.
MsgStream &	msg (const MSG::Level lvl) const
	The standard message stream.
void	setLevel (MSG::Level lvl)
	Change the current logging level.

Static Public Member Functions
static IdentifierHash	constructHash (unsigned measCh, unsigned gasGap, const bool isStrip)
	Constructs the Hash out of the Identifier fields (channel, gasGap, isStrip)
static IdentifierHash	flipIsStrip (const IdentifierHash &meashHash, const bool isStrip)
	Flips the isStrip bit from a parsed measurment hash.
static unsigned	channelNumber (const IdentifierHash &measHash)
	Unpacks the channel number from the measurement hash.
static unsigned	gasGapNumber (const IdentifierHash &measHash)
	Unpacks the gas gap number from the measurement hash.
static bool	isStrip (const IdentifierHash &measHash)
	Unpacks whether the measurement hash is a strip.

Protected Member Functions
const Amg::Transform3D &	toStation (const ActsTrk::DetectorAlignStore *alignStore) const
	Returns the transformation from the GeoModel tree and applies the A-lines if a valid alignment store pointer is provided.
template<class MuonDetImpl>
StatusCode	insertTransform (const IdentifierHash &hash)
	Constructs the TransformDetEleCache associated with the hash of the given Mdt tube or strip layer.
StatusCode	createGeoTransform ()
	Creates the TransformCacheDetEle corresponding the generic local -> global transformation of the readout element.
StatusCode	strawSurfaceFactory (const IdentifierHash &hash, std::shared_ptr< const Acts::LineBounds > lBounds)
	Invokes the factory to create straw surfaces && to associate them with the particular transform cache.
StatusCode	planeSurfaceFactory (const IdentifierHash &hash, std::shared_ptr< const Acts::PlanarBounds > pBounds)
	Invokes the factory to create plane surfaces && to associate them with the particular transform cache.

Static Protected Member Functions
static IdentifierHash	geoTransformHash ()
	Returns the hash that is associated with the surface cache holding the transformation that is placing the ReadoutElement inside the ATLAS coordinate system.

Private Types
using	TransformCacheMap = std::vector<std::unique_ptr<ActsTrk::TransformCache>>
	The transform caches corresponding to the surfaces of the tubes and gas gap planes.

Private Member Functions
Amg::Transform3D	fromGapToChamOrigin (const IdentifierHash &layerHash) const
Amg::Vector3D	chamberStripPos (const IdentifierHash &measHash) const
	Returns the local strip position w.r.t. to the chamber origin.
const ActsTrk::TransformCache *	transformCache (const IdentifierHash &measHash) const
	Returns the pointer to the TransformCache associated with this measurement hash.
void	initMessaging () const
	Initialize our message level and MessageSvc.

Private Attributes
parameterBook	m_pars {}
const TgcIdHelper &	m_idHelper {idHelperSvc()->tgcIdHelper()}
double	m_gasThickness {0.}
	Distance between 2 gas gaps (Z - direction)
ServiceHandle< Muon::IMuonIdHelperSvc >	m_idHelperSvc {"Muon::MuonIdHelperSvc/MuonIdHelperSvc", "MuonReadoutElement"}
	IdHelperSvc for Identifier manipulation.
const defineArgs	m_args {}
IdentifierHash	m_detElHash {}
	Cache of the detector element hash.
int	m_stName {-1}
	Cache the station name of the identifier.
int	m_stEta {-1}
	Cache the station eta of the identifier.
int	m_stPhi {-1}
	Cache the station phi of the identifier.
TransformCacheMap	m_localToGlobalCaches {}
std::unique_ptr< ActsTrk::TransformCache >	m_centralTrfCache {}
	Cache of the transform of the readout element itself.
Muon::MuonStationIndex::ChIndex	m_chIdx {Muon::MuonStationIndex::ChIndex::ChUnknown}
	Cache the chamber index of the Identifier.
ActsTrk::SurfaceCacheSet	m_surfaces
	Cache of all associated surfaces.
const SpectrometerSector *	m_msSectorLink {}
	Pointer to the associated MS-sector & MuonChamber.
const Chamber *	m_chambLink {nullptr}
std::string	m_nm
	Message source name.
boost::thread_specific_ptr< MsgStream >	m_msg_tls
	MsgStream instance (a std::cout like with print-out levels)
std::atomic< IMessageSvc * >	m_imsg { nullptr }
	MessageSvc pointer.
std::atomic< MSG::Level >	m_lvl { MSG::NIL }
	Current logging level.
std::atomic_flag m_initialized	ATLAS_THREAD_SAFE = ATOMIC_FLAG_INIT
	Messaging initialized (initMessaging)

Friends
class	ActsTrk::TransformCacheDetEle< TgcReadoutElement >

Detailed Description

Definition at line 19 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/TgcReadoutElement.h.

Member Typedef Documentation

TransformCacheMap

using MuonGMR4::MuonReadoutElement::TransformCacheMap = std::vector<std::unique_ptr<ActsTrk::TransformCache>>

privateinherited

The transform caches corresponding to the surfaces of the tubes and gas gap planes.

Definition at line 271 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

Constructor & Destructor Documentation

TgcReadoutElement()

MuonGMR4::TgcReadoutElement::TgcReadoutElement

(

defineArgs &&

args

)

Definition at line 31 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/TgcReadoutElement.cxx.

    : MuonReadoutElement(args),
      m_pars{std::move(args)} {
}

~TgcReadoutElement()

MuonGMR4::TgcReadoutElement::~TgcReadoutElement ( )

virtualdefault

Member Function Documentation

alignableTransform()

const GeoAlignableTransform * MuonGMR4::MuonReadoutElement::alignableTransform ( ) const

inherited

Return the alignable transform node of the readout element.

center() [1/3]

Amg::Vector3D MuonGMR4::MuonReadoutElement::center ( const ActsTrk::GeometryContext & ctx ) const

inherited

Returns the geometrical center point of the readout element.

Parameters

ctx	Geometry context to take the alignment corrections into account

center() [2/3]

Amg::Vector3D MuonGMR4::MuonReadoutElement::center ( const ActsTrk::GeometryContext & ctx, const Identifier & id ) const

inherited

Returns the origin of the readout element's transform.

Parameters

ctx	Geometry context to take the alignment corrections into account
id	Identifier of the measurement channel to be retrieved

center() [3/3]

Amg::Vector3D MuonGMR4::MuonReadoutElement::center ( const ActsTrk::GeometryContext & ctx, const IdentifierHash & hash ) const

inherited

Returns the origin of the readout element's transform.

Parameters

ctx	Geometry context to take the alignment corrections into account
hash	Measurement hash of the transform to be retrieved

chamber()

const Chamber * MuonGMR4::MuonReadoutElement::chamber ( ) const

inherited

Returns the pointer to the chamber enclosing this readout element.

chamberDesign()

const std::string & MuonGMR4::MuonReadoutElement::chamberDesign ( ) const

inherited

The chamber design refers to the construction parameters of a readout element.

It's used for the retrieval of the chamber meta data containing the information about the number of sensors, their sepration etc.

chamberIndex()

Muon::MuonStationIndex::ChIndex MuonGMR4::MuonReadoutElement::chamberIndex ( ) const

inherited

Returns the chamber index of the Identifier (MMS & STS) have the same chamber Index (EIS)

chamberStripPos()

Amg::Vector3D MuonGMR4::TgcReadoutElement::chamberStripPos ( const IdentifierHash & measHash ) const

private

Returns the local strip position w.r.t. to the chamber origin.

channelNumber()

unsigned MuonGMR4::TgcReadoutElement::channelNumber ( const IdentifierHash & measHash )

static

Unpacks the channel number from the measurement hash.

channelPosition() [1/2]

Amg::Vector3D MuonGMR4::TgcReadoutElement::channelPosition	(	const ActsTrk::GeometryContext &	ctx,
		const Identifier &	measId ) const

Returns the center of the measurement channel eta measurement: wire gang center phi measurement: strip center.

channelPosition() [2/2]

Amg::Vector3D MuonGMR4::TgcReadoutElement::channelPosition	(	const ActsTrk::GeometryContext &	ctx,
		const IdentifierHash &	measHash ) const

Definition at line 91 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/TgcReadoutElement.cxx.

                                                                                                                      { 
   const StripLayerPtr& layDesign{sensorLayout(measHash)};
   if (!layDesign) {
       ATH_MSG_WARNING("The gasGap "<<gasGapNumber(measHash)<<" & strip:"<<isStrip(measHash)<<" is unknown");
       return Amg::Vector3D::Zero();
   }
   return localToGlobalTransform(ctx, layerHash(measHash)) * layDesign->localStripPosition(channelNumber(measHash),
                                                                                       isStrip(measHash));
}

constructHash()

IdentifierHash MuonGMR4::TgcReadoutElement::constructHash ( unsigned measCh, unsigned gasGap, const bool isStrip )

static

Constructs the Hash out of the Identifier fields (channel, gasGap, isStrip)

createGeoTransform()

StatusCode MuonGMR4::MuonReadoutElement::createGeoTransform ( )

protectedinherited

Creates the TransformCacheDetEle corresponding the generic local -> global transformation of the readout element.

Needs to be called by each technology during initialization

Check that the alignable node has been assigned

Definition at line 32 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                  {
    if(!alignableTransform()) {
       ATH_MSG_FATAL("The readout element "<<idHelperSvc()->toStringDetEl(identify())<<" has no assigned alignable node");
       return StatusCode::FAILURE;
    }
    m_centralTrfCache = std::make_unique<TransformCacheDetEle<MuonReadoutElement>>(geoTransformHash(), this);
    return StatusCode::SUCCESS;
}

detectorType()

ActsTrk::DetectorType MuonGMR4::TgcReadoutElement::detectorType ( ) const

inlinefinaloverridevirtual

Overload from the ActsTrk::IDetectorElement.

Implements ActsTrk::IDetectorElementBase.

Definition at line 52 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/TgcReadoutElement.h.

                                                            {
        return ActsTrk::DetectorType::Tgc;
    }  

flipIsStrip()

IdentifierHash MuonGMR4::TgcReadoutElement::flipIsStrip ( const IdentifierHash & meashHash, const bool isStrip )

static

Flips the isStrip bit from a parsed measurment hash.

Parameters

meashHash	Measurement hash encoding channel, gasGap, isStrip
isStrip	Flag what's the new isStrip from the measruement hash

fromGapToChamOrigin()

Amg::Transform3D MuonGMR4::TgcReadoutElement::fromGapToChamOrigin ( const IdentifierHash & layerHash ) const

private

Definition at line 88 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/TgcReadoutElement.cxx.

                                                                                         {
    return sensorLayout(layHash)->toOrigin();
}

gasGapNumber()

unsigned MuonGMR4::TgcReadoutElement::gasGapNumber ( const IdentifierHash & measHash )

static

Unpacks the gas gap number from the measurement hash.

gasGapPitch()

double MuonGMR4::TgcReadoutElement::gasGapPitch

(

)

const

Returns the thickness of the gasGap.

geoTransformHash()

IdentifierHash MuonGMR4::MuonReadoutElement::geoTransformHash ( )

staticprotectedinherited

Returns the hash that is associated with the surface cache holding the transformation that is placing the ReadoutElement inside the ATLAS coordinate system.

Definition at line 41 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                    {     
    static const IdentifierHash hash{static_cast<unsigned>(~0)-1};
    return hash;
}

getParameters()

const parameterBook & MuonGMR4::TgcReadoutElement::getParameters

(

)

const

Definition at line 36 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/TgcReadoutElement.cxx.

{ return m_pars; }

getSurfaces()

std::vector< std::shared_ptr< Acts::Surface > > MuonGMR4::MuonReadoutElement::getSurfaces ( ) const

inherited

Returns all surfaces that are associated with the active readout planes.

Definition at line 146 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                            {
    std::vector<std::shared_ptr<Acts::Surface>> surfaces{};
    surfaces.reserve(m_surfaces.size());
    for (const std::unique_ptr<SurfaceCache>& cache : m_surfaces) {
        if (cache->hash() != geoTransformHash()) {
            surfaces.push_back(cache->getSurface());
            ATH_MSG_VERBOSE("Add surface "<<idHelperSvc()->toString(cache->identify())
                           <<std::endl<<(surfaces.back()->bounds()));
        }
    }
    return surfaces;
}

globalToLocalTransform() [1/3]

Amg::Transform3D MuonGMR4::MuonReadoutElement::globalToLocalTransform ( const ActsTrk::GeometryContext & ctx ) const

inherited

Returns the transformation from the global ATLAS coordinate system into the local coordinate system of the readout element.

The local axes are oriented such that x-axis: Is parallel to the sensors measuring the eta coordinate (e.g. parallel to the Mdt tube wire) y-axis: Is parallel to the sensors measuring the phi coordinate (e.g. to the next tube wire) z-axis: Points vertically outwards the chamber (e.g. radially outwards for barrel or to the endcap cavern wall)

Parameters

ctx	Geometry context to take the alignment corrections into account

Definition at line 71 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                          {
    return globalToLocalTransform(ctx, geoTransformHash());
}

globalToLocalTransform() [2/3]

Amg::Transform3D MuonGMR4::MuonReadoutElement::globalToLocalTransform ( const ActsTrk::GeometryContext & ctx, const Identifier & id ) const

inherited

Returns the transformations from the ATLAS coordinate system into the local coordinate system of the readout sensor.

The orientiation of the axes depends on whether the sensor is described by a plane or by a tube wire. In the former case, the axes are oriented such that x-axis: Points to the next eta sensor such that local-x always constrains the precision coordinate y-axis: Points to the next phi sensor such that local y always constains the coordinate along the precision sensor z-axis: Is the cross-product of the other two For Mdt tubes the axis orientiation is such that x-axis: Points to the next tube in the same tube-layer y-axis: Points to the next tube-layer plane z-axis: Points along the tube wire

Parameters

ctx	Geometry context to take the alignment corrections into account
id	Identifier of the measurement for which the transform shall be retrieved

globalToLocalTransform() [3/3]

Amg::Transform3D MuonGMR4::MuonReadoutElement::globalToLocalTransform ( const ActsTrk::GeometryContext & ctx, const IdentifierHash & hash ) const

inherited

Returns the transformations from the ATLAS coordinate system into the local coordinate system using the measurement / layer hash mechanism.

For strip-like detectors a layer hash must always be parsed. For the Mdts a measurement or layer hash can be parsed depending on whether the plane transform or the particular tube transform shall be retrieved.

Parameters

ctx	Geometry context to take the alignment corrections into account.
hash	Hash of the transform to fetch (Measurement or layer hash).

identHash()

IdentifierHash MuonGMR4::MuonReadoutElement::identHash ( ) const

inherited

Returns the hash of the readout element which is identical to the detector element hash provided by the associated idHelper.

identify()

Identifier MuonGMR4::MuonReadoutElement::identify ( ) const

finaloverridevirtualinherited

Return the ATLAS identifier.

Implements ActsTrk::IDetectorElementBase.

idHelperSvc()

const Muon::IMuonIdHelperSvc * MuonGMR4::MuonReadoutElement::idHelperSvc ( ) const

inherited

Returns the pointer to the muonIdHelperSvc.

initElement()

StatusCode MuonGMR4::TgcReadoutElement::initElement ( )

finaloverridevirtual

Initialization of the readout elements.

Transforms & surfaces for each readout layer are created

Check that the readoutelement has sensor layouts

If the stripLayer measures phi, it means that there's no wire readout layer which has always the same hash than the layer hash of the readout element. Fill in the strip layer into the place of the wire readout to ensure a consistent layerHash schema

Implements MuonGMR4::MuonReadoutElement.

Definition at line 37 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/TgcReadoutElement.cxx.

                                          {
    
    ATH_CHECK(createGeoTransform());
    bool hasSensor{false};
    for (std::size_t s = 0; s < m_pars.sensorLayouts.size(); ++s) {
        const StripLayerPtr& layPtr{m_pars.sensorLayouts[s]};
        if (!layPtr) continue;
        if (layPtr->hash() != s) {
           ATH_MSG_FATAL("Layer "<<(*layPtr)<<" has an unexpected hash "<<s);
           return StatusCode::FAILURE;
        }
        const IdentifierHash layHash = layerHash(layPtr->hash());
        if (isStrip(layPtr->hash())) {
            m_pars.sensorLayouts[static_cast<unsigned>(layHash)] = layPtr;
            continue;
        }
        ATH_CHECK(insertTransform<TgcReadoutElement>(layHash));
#ifndef SIMULATIONBASE
        const StripDesign& design{layPtr->design()};
        const double rotAngle = isStrip(layPtr->hash()) ? 0. : 90.*Gaudi::Units::deg;
        ATH_CHECK(planeSurfaceFactory(layHash, m_pars.layerBounds->makeBounds<Acts::TrapezoidBounds>(design.shortHalfHeight(),
                                                                                                     design.longHalfHeight(),
                                                                                                     design.halfWidth(), rotAngle)));
#endif
       ATH_MSG_VERBOSE(idHelperSvc()->toStringDetEl(identify())<<" gasGap: "<<gasGapNumber(layPtr->hash())
                      <<" isStrip: "<<isStrip(layPtr->hash())<<" hash: "<<s);
       hasSensor = true;
    }
    if (!hasSensor) {
         ATH_MSG_FATAL("No active layer is defined for "<<idHelperSvc()->toStringDetEl(identify()));
         return StatusCode::FAILURE;
    }
#ifndef SIMULATIONBASE
    ATH_CHECK(planeSurfaceFactory(geoTransformHash(),
                                  m_pars.layerBounds->makeBounds<Acts::TrapezoidBounds>(m_pars.halfWidthShort,
                                                                                       m_pars.halfWidthLong,
                                                                                       m_pars.halfHeight)));
    m_pars.layerBounds.reset();
#endif
    const IdentifierHash firstLay  = constructHash(0, 1, false);
    const IdentifierHash secondLay = constructHash(0, 2, false);
    ActsTrk::GeometryContext gctx{};
    m_gasThickness = (center(gctx, firstLay) - center(gctx, secondLay)).mag(); 
    return StatusCode::SUCCESS;
}

initMessaging()

void AthMessaging::initMessaging ( ) const

privateinherited

Initialize our message level and MessageSvc.

This method should only be called once.

Definition at line 39 of file AthMessaging.cxx.

{
  m_imsg = Athena::getMessageSvc();
  // If user did not set an explicit level, set a default
  if (m_lvl == MSG::NIL) {
    m_lvl = m_imsg ?
      static_cast<MSG::Level>( m_imsg.load()->outputLevel(m_nm) ) :
      MSG::INFO;
  }
}

insertTransform()

template<class MuonDetImpl>

StatusCode MuonGMR4::MuonReadoutElement::insertTransform ( const IdentifierHash & hash )

protectedinherited

Constructs the TransformDetEleCache associated with the hash of the given Mdt tube or strip layer.

The method is templated over the specific implementation of the readout element as the TransformCacheDetEle implements the assembly of the final transforms. The method returns a failure of an instance for the same hash has already been invoked earlier

Parameters

hash	Measurement / layer hash to identifier the transform of the readout layer

isSensitive()

virtual bool MuonGMR4::MuonReadoutElement::isSensitive ( ) const

inlinefinaloverridevirtualinherited

Returns whether the detector element is sensitive.

Definition at line 206 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{ return true; }

isStrip()

bool MuonGMR4::TgcReadoutElement::isStrip ( const IdentifierHash & measHash )

static

Unpacks whether the measurement hash is a strip.

layerHash() [1/2]

IdentifierHash MuonGMR4::TgcReadoutElement::layerHash ( const Identifier & measId ) const

finaloverridevirtual

The layer hash removes the bits from the IdentifierHash corresponding to the measurement's channel number and sets them to zero.

It's used to access the transform associated to the measurement's strip plane or to the tube layer

Implements MuonGMR4::MuonReadoutElement.

layerHash() [2/2]

IdentifierHash MuonGMR4::TgcReadoutElement::layerHash

(

const IdentifierHash &

measHash

)

const

localToGlobalTransform() [1/4]

const Acts::Transform3 & MuonGMR4::MuonReadoutElement::localToGlobalTransform ( const Acts::GeometryContext & gctx ) const

finaloverrideinherited

Wrapper function of the localToGlobalTransform method to satisfy the Acts::IDetectorElementBase interface.

Parameters

gctx	Acts representation of the GeometryContext

Definition at line 78 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                                         {
    const GeometryContext *gctx = anygctx.get<const GeometryContext *>();
    return localToGlobalTransform(*gctx, geoTransformHash());
}

localToGlobalTransform() [2/4]

const Amg::Transform3D & MuonGMR4::MuonReadoutElement::localToGlobalTransform ( const ActsTrk::GeometryContext & ctx ) const

inherited

Returns the transformation from the local coordinate system of the readout element into the global ATLAS coordinate system (inverse of globalToLocal).

Parameters

ctx	Geometry context to take the alignment corrections into account.

Definition at line 74 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                                 {
    return localToGlobalTransform(ctx, geoTransformHash());
}

localToGlobalTransform() [3/4]

const Amg::Transform3D & MuonGMR4::MuonReadoutElement::localToGlobalTransform ( const ActsTrk::GeometryContext & ctx, const Identifier & id ) const

inherited

Returns the transformation from the local coordinate system of the readout element into the global ATLAS coordinate system (inverse of globalToLocal).

Parameters

ctx	Geometry context to take the alignment corrections into account
id	Identifier of the measurement for which the transform shall be retrieved

localToGlobalTransform() [4/4]

const Amg::Transform3D & MuonGMR4::MuonReadoutElement::localToGlobalTransform ( const ActsTrk::GeometryContext & ctx, const IdentifierHash & id ) const

inherited

Returns the transformation from the local coordinate system of the readout element into the global ATLAS coordinate system (inverse of globalToLocal).

Parameters

ctx	Geometry context to take the alignment corrections into account
hash	Hash of the transform to fetch (Measurement or layer hash).

measurementHash()

IdentifierHash MuonGMR4::TgcReadoutElement::measurementHash ( const Identifier & measId ) const

finaloverridevirtual

Constructs the identifier hash from the full measurement Identifier.

The hash is always defined w.r.t the specific detector element and used to access the information in memory quickly

Implements MuonGMR4::MuonReadoutElement.

measurementId()

Identifier MuonGMR4::TgcReadoutElement::measurementId ( const IdentifierHash & measHash ) const

finaloverridevirtual

Back conversion of the measurement hash to a full Athena Identifier The behaviour is undefined if a layer hash is parsed.

Parameters

measHash

Measurement hash to convert

Implements MuonGMR4::MuonReadoutElement.

moduleHeight()

double MuonGMR4::TgcReadoutElement::moduleHeight

(

)

const

Returns the height of the chamber (Distance bottom - topWidth)

moduleThickness()

double MuonGMR4::TgcReadoutElement::moduleThickness

(

)

const

Returns the thickness of the chamber.

moduleWidthL()

double MuonGMR4::TgcReadoutElement::moduleWidthL

(

)

const

Returns the length of the top edge of the chamber (top width)

moduleWidthS()

double MuonGMR4::TgcReadoutElement::moduleWidthS

(

)

const

Returns the length of the bottom edge of the chamber (short width)

msg() [1/2]

MsgStream & AthMessaging::msg ( ) const

inlineinherited

The standard message stream.

Returns a reference to the default message stream May not be invoked before sysInitialize() has been invoked.

Definition at line 167 of file AthMessaging.h.

{
  MsgStream* ms = m_msg_tls.get();
  if (!ms) {
    if (!m_initialized.test_and_set()) initMessaging();
    ms = new MsgStream(m_imsg,m_nm);
    m_msg_tls.reset( ms );
  }
 
  ms->setLevel (m_lvl);
  return *ms;
}

msg() [2/2]

MsgStream & AthMessaging::msg ( const MSG::Level lvl ) const

inlineinherited

The standard message stream.

Returns a reference to the default message stream May not be invoked before sysInitialize() has been invoked.

Definition at line 182 of file AthMessaging.h.

{ return msg() << lvl; }

msgLvl()

bool AthMessaging::msgLvl ( const MSG::Level lvl ) const

inlineinherited

Test the output level.

Parameters

lvl	The message level to test against

Returns

boolean Indicating if messages at given level will be printed

Return values

true	Messages at level "lvl" will be printed

Definition at line 151 of file AthMessaging.h.

{
  // If user did not set explicit message level we have to initialize
  // the messaging and retrieve the default via the MessageSvc.
  if (m_lvl==MSG::NIL && !m_initialized.test_and_set()) initMessaging();
 
  if (m_lvl <= lvl) {
    msg() << lvl;
    return true;
  } else {
    return false;
  }
}

msSector()

const SpectrometerSector * MuonGMR4::MuonReadoutElement::msSector ( ) const

inherited

Returns the pointer to the envelope volume enclosing all chambers in the sector.

nGasGaps()

unsigned MuonGMR4::TgcReadoutElement::nGasGaps

(

)

const

Returns the number of gasgaps described by this ReadOutElement (usally 2 or 3)

numChannels()

unsigned MuonGMR4::TgcReadoutElement::numChannels

(

const IdentifierHash &

measHash

)

const

Returns the number of readout channels.

numStrips()

unsigned MuonGMR4::TgcReadoutElement::numStrips

(

const IdentifierHash &

layHash

)

const

Returns the number of strips for a given gasGap [1-3].

numWireGangs()

unsigned MuonGMR4::TgcReadoutElement::numWireGangs

(

const IdentifierHash &

layHash

)

const

Returns the number of wire gangs for a given gasGap [1-3].

planeSurfaceFactory()

StatusCode MuonGMR4::MuonReadoutElement::planeSurfaceFactory ( const IdentifierHash & hash, std::shared_ptr< const Acts::PlanarBounds > pBounds )

protectedinherited

Invokes the factory to create plane surfaces && to associate them with the particular transform cache.

Parameters

hash	Layer hash of the readout plane of interest
lBounds	Bounds describing the rectangle or trapezoidal surface's dimensions

Definition at line 118 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                                 {
 
    //get the local to global transform cache
    const TransformCache* cache = transformCache(hash);
    if (!cache) {
        ATH_MSG_FATAL(__FILE__<<":"<<__LINE__<<" - "<<idHelperSvc()->toString(identify())
                   <<" no transform cache available for hash "<<hash);
        return StatusCode::FAILURE;
    }
    auto insert_itr = m_surfaces.insert(std::make_unique<SurfaceCache>(cache));
    if(!insert_itr.second){
        ATH_MSG_FATAL(__FILE__<<":"<<__LINE__<<" - "<<idHelperSvc()->toString(identify())
                   <<" Insertion to muon surface cache failed for hash "<<hash);
        return StatusCode::FAILURE;
    }
    //Create a plane surface for the surface cache
    (*insert_itr.first)->setSurface(Acts::Surface::makeShared<Acts::PlaneSurface>(pBounds, **insert_itr.first));
    return StatusCode::SUCCESS;
}

releaseUnAlignedTrfs()

void MuonGMR4::MuonReadoutElement::releaseUnAlignedTrfs ( ) const

inherited

Release all transforms from the memory that are not connected with a geometry context but cached by the readout element itself.

Definition at line 49 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                    {
    for (const auto& cache : m_localToGlobalCaches) {
        if (cache){
            cache->releaseNominalCache();
        }
    }
    m_centralTrfCache->releaseNominalCache();
}

sensorLayout()

const StripLayerPtr & MuonGMR4::TgcReadoutElement::sensorLayout

(

const IdentifierHash &

hash

)

const

Returns the pointer to the strip layer associated with the gas gap.

setChamberLink()

void MuonGMR4::MuonReadoutElement::setChamberLink ( const Chamber * chamber )

inherited

Sets the link to the enclosing chamber.

Definition at line 139 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                              {
    m_chambLink = chamber;
}

setLevel()

void AthMessaging::setLevel ( MSG::Level lvl )

inherited

Change the current logging level.

Use this rather than msg().setLevel() for proper operation with MT.

Definition at line 28 of file AthMessaging.cxx.

{
  m_lvl = lvl;
}

setSectorLink()

void MuonGMR4::MuonReadoutElement::setSectorLink ( const SpectrometerSector * envelope )

inherited

Set the link to the enclosing sector envelope.

Definition at line 142 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                         {
    m_msSectorLink = envelope;
}

stationEta()

int MuonGMR4::MuonReadoutElement::stationEta ( ) const

inherited

Returns the stationEta (positive A site, negative C site)

stationName()

int MuonGMR4::MuonReadoutElement::stationName ( ) const

inherited

Returns the stationName (BIS, BOS, etc) encoded into the integer.

stationPhi()

int MuonGMR4::MuonReadoutElement::stationPhi ( ) const

inherited

Returns the stationPhi (1-8) -> sector (2*phi - (isSmall))

storeAlignedTransforms()

unsigned MuonGMR4::MuonReadoutElement::storeAlignedTransforms ( const ActsTrk::DetectorAlignStore & store ) const

finaloverridevirtualinherited

Construct the final aligned transformations and store them in the alignment store.

Returns the number of how many transformations have been stored

Implements ActsTrk::IDetectorElement.

Definition at line 58 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                         {
    if (store.detType != detectorType()) return 0;
    unsigned int aligned{1};
    m_centralTrfCache->getTransform(&store);
    for (const auto& cache : m_localToGlobalCaches) {
        if (cache) {
            cache->getTransform(&store);
        }
        ++aligned;
    }
    return aligned;
}

strawSurfaceFactory()

StatusCode MuonGMR4::MuonReadoutElement::strawSurfaceFactory ( const IdentifierHash & hash, std::shared_ptr< const Acts::LineBounds > lBounds )

protectedinherited

Invokes the factory to create straw surfaces && to associate them with the particular transform cache.

Parameters

hash	Measurement hash of the tube of interest
lBounds	Surface bound object describing the straw radius and the active tube length

Definition at line 95 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                                {
 
    //get the local to global transform cache
    const TransformCache* cache = transformCache(hash);
    if (!cache) {
        ATH_MSG_FATAL(__FILE__<<":"<<__LINE__<<" - "<<idHelperSvc()->toString(identify())
                   <<" no transform cache available for hash "<<hash);
        return StatusCode::FAILURE;
    }
 
    auto insert_itr = m_surfaces.insert(std::make_unique<SurfaceCache>(cache));
    if(!insert_itr.second){
        ATH_MSG_FATAL(__FILE__<<":"<<__LINE__<<" - "<<idHelperSvc()->toString(identify())
                   <<" Insertion to muon surface cache failed for hash "<<hash);
        return StatusCode::FAILURE;
    }
    //Create straw surface for the surface cache
    (*insert_itr.first)->setSurface(Acts::Surface::makeShared<Acts::StrawSurface>(lBounds, **insert_itr.first));
    return StatusCode::SUCCESS;
 
}

stripLayout()

const RadialStripDesign & MuonGMR4::TgcReadoutElement::stripLayout

(

const IdentifierHash &

layHash

)

const

Returns access to the strip design of the given gasGap [1-3] If the gap does not have strips an exception is thrown.

surface() [1/4]

const Acts::Surface & MuonGMR4::MuonReadoutElement::surface ( ) const

finaloverrideinherited

Returns the surface associated with the readout element.

It is placed in the center of the readout element's volume and has the volumes surface bounds

Definition at line 90 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

{ return surface(geoTransformHash()); }

surface() [2/4]

Acts::Surface & MuonGMR4::MuonReadoutElement::surface ( )

finaloverrideinherited

Returns the mutable surface associated with the readout element.

Definition at line 91 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

{ return surface(geoTransformHash()); }

surface() [3/4]

Acts::Surface & MuonGMR4::MuonReadoutElement::surface ( const IdentifierHash & hash )

inherited

Returns the mutable surface associated with the transform of a given readout layer.

(E.g. tube or the strip plane)

Parameters

hash	Hash of the surface to fetch (Measurement or layer hash).

Definition at line 93 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

{ return *surfacePtr(hash); }

surface() [4/4]

const Acts::Surface & MuonGMR4::MuonReadoutElement::surface ( const IdentifierHash & hash ) const

inherited

Returns the surface associated with the transform of a given readout layer.

(E.g. tube or the strip plane)

Parameters

hash	Hash of the surface to fetch (Measurement or layer hash).

Definition at line 92 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

{ return *surfacePtr(hash); }

surfacePtr()

std::shared_ptr< Acts::Surface > MuonGMR4::MuonReadoutElement::surfacePtr ( const IdentifierHash & hash ) const

inherited

Returns the mutable surface pointer associated with the transform of a given readout layer.

(E.g. tube or the strip plane)

Parameters

hash	Hash of the surface to fetch (Measurement or layer hash).

Definition at line 82 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                          {
    SurfaceCacheSet::const_iterator cache = m_surfaces.find(hash);
    if(cache != m_surfaces.end()) return (*cache)->getSurface();
    ATH_MSG_FATAL(__FILE__<<":"<<__LINE__<<" "<<__func__<<"() -- Hash "<<hash
               <<" is unknown to "<<idHelperSvc()->toStringDetEl(identify()));
    return nullptr;
}

thickness()

double MuonGMR4::TgcReadoutElement::thickness ( ) const

finaloverridevirtual

Returns the thickness in normal direction of the strip readout planes.

Implements MuonGMR4::MuonReadoutElement.

toStation()

const Amg::Transform3D & MuonGMR4::MuonReadoutElement::toStation ( const ActsTrk::DetectorAlignStore * alignStore ) const

protectedinherited

Returns the transformation from the GeoModel tree and applies the A-lines if a valid alignment store pointer is provided.

The local coordinate system in GeoModel differs from the system used by the localToGlobaTransformations. It is referred to the AMDB coordinate system used to describe the MS in Run 1-3 x-axis: Points along the thickness of the readout element (e.g. radially outwards for barrel chambers or along global Z for detector mounted in the endcaps) y-axis: Points along the edge which is parallel to the eta sensors z-axis: Points along towards the next eta sensor

Definition at line 46 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/MuonReadoutElement.cxx.

                                                                                              {
   return getMaterialGeom()->getAbsoluteTransform(alignStore ? alignStore->geoModelAlignment.get() : nullptr);
}

transformCache()

const ActsTrk::TransformCache * MuonGMR4::MuonReadoutElement::transformCache ( const IdentifierHash & measHash ) const

privateinherited

Returns the pointer to the TransformCache associated with this measurement hash.

Parameters

measHash

Measurement hash for which the cache shall be returned

wireGangLayout()

const WireGroupDesign & MuonGMR4::TgcReadoutElement::wireGangLayout

(

const IdentifierHash &

layHash

)

const

Returns access to the wire group design of the given gasGap [1-3] If the gap does not have a wires an exception is thrown.

Friends And Related Symbol Documentation

ActsTrk::TransformCacheDetEle< TgcReadoutElement >

friend class ActsTrk::TransformCacheDetEle< TgcReadoutElement >

friend

Definition at line 102 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/TgcReadoutElement.h.

Member Data Documentation

ATLAS_THREAD_SAFE

std::atomic_flag m_initialized AthMessaging::ATLAS_THREAD_SAFE = ATOMIC_FLAG_INIT

mutableprivateinherited

Messaging initialized (initMessaging)

Definition at line 141 of file AthMessaging.h.

m_args

const defineArgs MuonGMR4::MuonReadoutElement::m_args {}

privateinherited

Definition at line 261 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{};

m_centralTrfCache

std::unique_ptr<ActsTrk::TransformCache> MuonGMR4::MuonReadoutElement::m_centralTrfCache {}

privateinherited

Cache of the transform of the readout element itself.

Definition at line 274 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{};

m_chambLink

const Chamber* MuonGMR4::MuonReadoutElement::m_chambLink {nullptr}

privateinherited

Definition at line 284 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{nullptr};

m_chIdx

Muon::MuonStationIndex::ChIndex MuonGMR4::MuonReadoutElement::m_chIdx {Muon::MuonStationIndex::ChIndex::ChUnknown}

privateinherited

Cache the chamber index of the Identifier.

Definition at line 277 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{Muon::MuonStationIndex::ChIndex::ChUnknown};   

m_detElHash

IdentifierHash MuonGMR4::MuonReadoutElement::m_detElHash {}

privateinherited

Cache of the detector element hash.

Definition at line 263 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{};

m_gasThickness

double MuonGMR4::TgcReadoutElement::m_gasThickness {0.}

private

Distance between 2 gas gaps (Z - direction)

Definition at line 108 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/TgcReadoutElement.h.

{0.};

m_idHelper

const TgcIdHelper& MuonGMR4::TgcReadoutElement::m_idHelper {idHelperSvc()->tgcIdHelper()}

private

Definition at line 106 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/TgcReadoutElement.h.

{idHelperSvc()->tgcIdHelper()};

m_idHelperSvc

ServiceHandle<Muon::IMuonIdHelperSvc> MuonGMR4::MuonReadoutElement::m_idHelperSvc {"Muon::MuonIdHelperSvc/MuonIdHelperSvc", "MuonReadoutElement"}

privateinherited

IdHelperSvc for Identifier manipulation.

Definition at line 259 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{"Muon::MuonIdHelperSvc/MuonIdHelperSvc", "MuonReadoutElement"};

m_imsg

std::atomic<IMessageSvc*> AthMessaging::m_imsg { nullptr }

mutableprivateinherited

MessageSvc pointer.

Definition at line 135 of file AthMessaging.h.

{ nullptr };

m_localToGlobalCaches

TransformCacheMap MuonGMR4::MuonReadoutElement::m_localToGlobalCaches {}

privateinherited

Definition at line 272 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{};

m_lvl

std::atomic<MSG::Level> AthMessaging::m_lvl { MSG::NIL }

mutableprivateinherited

Current logging level.

Definition at line 138 of file AthMessaging.h.

{ MSG::NIL };

m_msg_tls

boost::thread_specific_ptr<MsgStream> AthMessaging::m_msg_tls

mutableprivateinherited

MsgStream instance (a std::cout like with print-out levels)

Definition at line 132 of file AthMessaging.h.

m_msSectorLink

const SpectrometerSector* MuonGMR4::MuonReadoutElement::m_msSectorLink {}

privateinherited

Pointer to the associated MS-sector & MuonChamber.

Definition at line 283 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{};

m_nm

std::string AthMessaging::m_nm

privateinherited

Message source name.

Definition at line 129 of file AthMessaging.h.

m_pars

parameterBook MuonGMR4::TgcReadoutElement::m_pars {}

private

Definition at line 105 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/TgcReadoutElement.h.

{};

m_stEta

int MuonGMR4::MuonReadoutElement::m_stEta {-1}

privateinherited

Cache the station eta of the identifier.

Definition at line 267 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{-1};

m_stName

int MuonGMR4::MuonReadoutElement::m_stName {-1}

privateinherited

Cache the station name of the identifier.

Definition at line 265 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{-1};

m_stPhi

int MuonGMR4::MuonReadoutElement::m_stPhi {-1}

privateinherited

Cache the station phi of the identifier.

Definition at line 269 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

{-1};

m_surfaces

ActsTrk::SurfaceCacheSet MuonGMR4::MuonReadoutElement::m_surfaces

privateinherited

Cache of all associated surfaces.

Definition at line 281 of file MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/MuonReadoutElement.h.

---

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

• MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/MuonReadoutGeometryR4/TgcReadoutElement.h
• MuonPhaseII/MuonDetDescr/MuonReadoutGeometryR4/src/TgcReadoutElement.cxx