QwGeant4
QweakSimUserCerenkov_RadiatorEvent Class Reference

ROOT Subtree structure for Cerenkov radiator event. More...

#include <QweakSimUserCerenkov_RadiatorEvent.hh>

Inherits TObject.

Public Member Functions

 QweakSimUserCerenkov_RadiatorEvent ()
 
virtual ~QweakSimUserCerenkov_RadiatorEvent ()
 
void Initialize ()
 
void StoreDetectorID (Int_t did)
 
std::vector< Int_t > GetDetectorID () const
 
void StoreTrackID (Int_t tid)
 
Int_t GetTrackID () const
 
void StoreParticleName (TString pn)
 
std::vector< TString > GetParticleName () const
 
void StoreParticleType (Int_t pt)
 
std::vector< Int_t > GetParticleType () const
 
void StoreParentID (Int_t Pid)
 
std::vector< Int_t > GetParentID () const
 
void StoreCreatorProcessName (TString name)
 
std::vector< TString > GetCreatorProcessName () const
 
void StoreParticleID (Int_t pid)
 
std::vector< Int_t > GetParticleID () const
 
void StoreGlobalTimeOfHit (Float_t gtime)
 
std::vector< Float_t > GetGloablTimeOfHit () const
 
void StoreTotalEnergy (Float_t te)
 
std::vector< Float_t > GetTotalEnergy () const
 
void StoreKineticEnergy (Float_t ke)
 
std::vector< Float_t > GetKineticEnergy () const
 
void StorePolarizationX (Float_t px)
 
std::vector< Float_t > GetPolarizationX () const
 
void StorePolarizationY (Float_t py)
 
std::vector< Float_t > GetPolarizationY () const
 
void StorePolarizationZ (Float_t pz)
 
std::vector< Float_t > GetPolarizationZ () const
 
void StoreLongitudinalPolarization (Float_t pl)
 
std::vector< Float_t > GetLongitudinalPolarization () const
 
void StoreTransversePolarization (Float_t pt)
 
std::vector< Float_t > GetTransversePolarization () const
 
void StoreTransversePolarizationX (Float_t pt)
 
std::vector< Float_t > GetTransversePolarizationX () const
 
void StoreTransversePolarizationY (Float_t pt)
 
std::vector< Float_t > GetTransversePolarizationY () const
 
void StoreTransversePolarizationZ (Float_t pt)
 
std::vector< Float_t > GetTransversePolarizationZ () const
 
void StoreTransversePolarizationPhiAngle (Float_t phi)
 
std::vector< Float_t > GetTransversePolarizationPhiAngle () const
 
void StoreDetectorHasBeenHit (Int_t n)
 
Int_t GetDetectorHasBeenHit () const
 
void StoreDetectorNbOfHits (Int_t nd)
 
Int_t GetDetectorNbOfHits () const
 
void StoreDetectorLocalPositionX (Float_t lx)
 
std::vector< Float_t > GetDetectorLocalPositionX () const
 
void StoreDetectorLocalPositionY (Float_t ly)
 
std::vector< Float_t > GetDetectorLocalPositionY () const
 
void StoreDetectorLocalPositionZ (Float_t lz)
 
std::vector< Float_t > GetDetectorLocalPositionZ () const
 
void StoreDetectorLocalExitPositionX (Float_t lx)
 
std::vector< Float_t > GetDetectorLocalExitPositionX () const
 
void StoreDetectorLocalExitPositionY (Float_t ly)
 
std::vector< Float_t > GetDetectorLocalExitPositionY () const
 
void StoreDetectorLocalExitPositionZ (Float_t lz)
 
std::vector< Float_t > GetDetectorLocalExitPositionZ () const
 
void StoreDetectorGlobalPositionX (Float_t lx)
 
std::vector< Float_t > GetDetectorGlobalPositionX () const
 
void StoreDetectorGlobalPositionY (Float_t ly)
 
std::vector< Float_t > GetDetectorGlobalPositionY () const
 
void StoreDetectorGlobalPositionZ (Float_t lz)
 
std::vector< Float_t > GetDetectorGlobalPositionZ () const
 
void StoreOriginVertexPositionX (Float_t vx)
 
std::vector< Float_t > GetOriginVertexPositionX () const
 
void StoreOriginVertexPositionY (Float_t vy)
 
std::vector< Float_t > GetOriginVertexPositionY () const
 
void StoreOriginVertexPositionZ (Float_t vz)
 
std::vector< Float_t > GetOriginVertexPositionZ () const
 
void StoreOriginVertexMomentumDirectionX (Float_t vx)
 
std::vector< Float_t > GetOriginVertexMomentumDirectionX () const
 
void StoreOriginVertexMomentumDirectionY (Float_t vy)
 
std::vector< Float_t > GetOriginVertexMomentumDirectionY () const
 
void StoreOriginVertexMomentumDirectionZ (Float_t vz)
 
std::vector< Float_t > GetOriginVertexMomentumDirectionZ () const
 
void StoreOriginVertexThetaAngle (Float_t theta)
 
std::vector< Float_t > GetOriginVertexThetaAngle () const
 
void StoreOriginVertexPhiAngle (Float_t phi)
 
std::vector< Float_t > GetOriginVertexPhiAngle () const
 
void StoreOriginVertexKineticEnergy (Float_t ekin)
 
std::vector< Float_t > GetOriginVertexKineticEnergy () const
 
void StoreOriginVertexTotalEnergy (Float_t etot)
 
std::vector< Float_t > GetOriginVertexTotalEnergy () const
 
void StoreLocalMomentumX (Float_t px)
 
std::vector< Float_t > GetLocalMomentumX () const
 
void StoreLocalMomentumY (Float_t py)
 
std::vector< Float_t > GetLocalMomentumY () const
 
void StoreLocalMomentumZ (Float_t pz)
 
std::vector< Float_t > GetLocalMomentumZ () const
 
void StoreLocalThetaAngle (Float_t theta)
 
std::vector< Float_t > GetLocalThetaAngle () const
 
void StoreLocalPhiAngle (Float_t phi)
 
std::vector< Float_t > GetLocalPhiAngle () const
 
void StoreGlobalMomentumX (Float_t px)
 
std::vector< Float_t > GetGlobalMomentumX () const
 
void StoreGlobalMomentumY (Float_t py)
 
std::vector< Float_t > GetGlobalMomentumY () const
 
void StoreGlobalMomentumZ (Float_t pz)
 
std::vector< Float_t > GetGlobalMomentumZ () const
 
void StoreGlobalThetaAngle (Float_t theta)
 
std::vector< Float_t > GetGlobalThetaAngle () const
 
void StoreGlobalPhiAngle (Float_t phi)
 
std::vector< Float_t > GetGlobalPhiAngle () const
 

Private Attributes

std::vector< Int_t > DetectorID
 ID of the detector in which this hit was registered. More...
 
Int_t TrackID
 ID of the track from which this hit was generated. More...
 
std::vector< Float_t > GlobalTimeOfHit
 Global time when this hit was generated (ns) More...
 
Int_t HasBeenHit
 Has this detector been hit? 0 = no, 5 = yes. More...
 
std::vector< Int_t > EdgeEventFlag
 Was the distance between hit and exit position below 1.5 cm? 0 = no, 1 = yes. More...
 
Int_t NbOfHits
 Number of hits in this detector. More...
 
std::vector< Float_t > OriginVertexKineticEnergy
 
std::vector< Float_t > OriginVertexTotalEnergy
 
Position of the hit in local coordinates (cm)

The local coordinates are defined in the local coordinate system.

std::vector< Float_t > HitLocalPositionX
 (cm) More...
 
std::vector< Float_t > HitLocalPositionY
 (cm) More...
 
std::vector< Float_t > HitLocalPositionZ
 (cm) More...
 
Position where the track exits the volume in local coordinates (cm)

The local coordinates are defined in the local coordinate system.

std::vector< Float_t > HitLocalExitPositionX
 (cm) More...
 
std::vector< Float_t > HitLocalExitPositionY
 (cm) More...
 
std::vector< Float_t > HitLocalExitPositionZ
 (cm) More...
 
Position of the hit in global coordinates

The global coordinates are defined in the global coordinate system.

std::vector< Float_t > HitGlobalPositionX
 (cm) More...
 
std::vector< Float_t > HitGlobalPositionY
 (cm) More...
 
std::vector< Float_t > HitGlobalPositionZ
 (cm) More...
 
Position in global coordinates of original vertex of the track from which this hit was generated

The global coordinates are defined in the global coordinate system.

std::vector< Float_t > OriginVertexPositionX
 (cm) More...
 
std::vector< Float_t > OriginVertexPositionY
 (cm) More...
 
std::vector< Float_t > OriginVertexPositionZ
 (cm) More...
 
Direction in global coordinates of original vertex of the track from which this hit was generated

The global coordinates are defined in the global coordinate system.

std::vector< Float_t > OriginVertexMomentumDirectionX
 
std::vector< Float_t > OriginVertexMomentumDirectionY
 
std::vector< Float_t > OriginVertexMomentumDirectionZ
 
std::vector< Float_t > OriginVertexThetaAngle
 (degrees) More...
 
std::vector< Float_t > OriginVertexPhiAngle
 (degrees) More...
 
Direction of the hit in local coordinates

The local coordinates are defined in the local coordinate system.

std::vector< Float_t > LocalMomentumX
 (GeV/c) More...
 
std::vector< Float_t > LocalMomentumY
 (GeV/c) More...
 
std::vector< Float_t > LocalMomentumZ
 (GeV/c) More...
 
std::vector< Float_t > LocalThetaAngle
 (degrees) More...
 
std::vector< Float_t > LocalPhiAngle
 (degrees, but 90 degrees rotated to keep things interesting) More...
 
Direction of the hit in global coordinates

The global coordinates are defined in the global coordinate system.

std::vector< Float_t > GlobalMomentumX
 (GeV/c) More...
 
std::vector< Float_t > GlobalMomentumY
 (GeV/c) More...
 
std::vector< Float_t > GlobalMomentumZ
 (GeV/c) More...
 
std::vector< Float_t > GlobalThetaAngle
 (degrees) More...
 
std::vector< Float_t > GlobalPhiAngle
 (degrees, but 90 degrees rotated to keep things interesting) More...
 
Particle name and type at the hit
std::vector< TString > ParticleName
 Name of the particle type of this hit. More...
 
std::vector< Int_t > ParticleType
 Lund type of the particle type of this hit More...
 
std::vector< Int_t > ParticleID
 Id of this hit. More...
 
std::vector< Int_t > ParentID
 Id of the parent of this hit. More...
 
std::vector< TString > CreatorProcessName
 Process name that created this hit. More...
 
Polarization of the hit in local coordinates

The local coordinates are defined in the local coordinate system.

std::vector< Float_t > PolarizationX
 (dimensionless, normalized) More...
 
std::vector< Float_t > PolarizationY
 (dimensionless, normalized) More...
 
std::vector< Float_t > PolarizationZ
 (dimensionless, normalized) More...
 
std::vector< Float_t > LongitudinalPolarization
 (dimensionless, normalized) More...
 
std::vector< Float_t > TransversePolarization
 (dimensionless, normalized) More...
 
std::vector< Float_t > TransversePolarizationX
 (dimensionless, normalized) More...
 
std::vector< Float_t > TransversePolarizationY
 (dimensionless, normalized) More...
 
std::vector< Float_t > TransversePolarizationZ
 (dimensionless, normalized) More...
 
std::vector< Float_t > TransversePolarizationPhiAngle
 (degrees) More...
 
Total and kinetic energy of the track at the hit
std::vector< Float_t > TotalEnergy
 (MeV) More...
 
std::vector< Float_t > KineticEnergy
 (MeV) More...
 

Detailed Description

ROOT Subtree structure for Cerenkov radiator event.

Definition at line 20 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Constructor & Destructor Documentation

QweakSimUserCerenkov_RadiatorEvent::QweakSimUserCerenkov_RadiatorEvent ( )
QweakSimUserCerenkov_RadiatorEvent::~QweakSimUserCerenkov_RadiatorEvent ( )
virtual

Definition at line 12 of file QweakSimUserCerenkov_RadiatorEvent.cc.

12 { }

Member Function Documentation

std::vector<TString> QweakSimUserCerenkov_RadiatorEvent::GetCreatorProcessName ( ) const
inline

Definition at line 155 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References CreatorProcessName.

155 {return CreatorProcessName;}
std::vector< TString > CreatorProcessName
Process name that created this hit.
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorGlobalPositionX ( ) const
inline

Definition at line 225 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitGlobalPositionX.

225 {return HitGlobalPositionX;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorGlobalPositionY ( ) const
inline

Definition at line 228 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitGlobalPositionY.

228 {return HitGlobalPositionY;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorGlobalPositionZ ( ) const
inline

Definition at line 231 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitGlobalPositionZ.

231 {return HitGlobalPositionZ;}
Int_t QweakSimUserCerenkov_RadiatorEvent::GetDetectorHasBeenHit ( ) const
inline

Definition at line 201 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HasBeenHit.

201 {return HasBeenHit;}
Int_t HasBeenHit
Has this detector been hit? 0 = no, 5 = yes.
std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorID ( ) const
inline

Definition at line 139 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References DetectorID.

139 {return DetectorID;}
std::vector< Int_t > DetectorID
ID of the detector in which this hit was registered.
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorLocalExitPositionX ( ) const
inline

Definition at line 216 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalExitPositionX.

216 {return HitLocalExitPositionX;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorLocalExitPositionY ( ) const
inline

Definition at line 219 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalExitPositionY.

219 {return HitLocalExitPositionY;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorLocalExitPositionZ ( ) const
inline

Definition at line 222 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalExitPositionZ.

222 {return HitLocalExitPositionZ;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorLocalPositionX ( ) const
inline

Definition at line 207 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalPositionX.

207 {return HitLocalPositionX;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorLocalPositionY ( ) const
inline

Definition at line 210 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalPositionY.

210 {return HitLocalPositionY;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetDetectorLocalPositionZ ( ) const
inline

Definition at line 213 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalPositionZ.

213 {return HitLocalPositionZ;}
Int_t QweakSimUserCerenkov_RadiatorEvent::GetDetectorNbOfHits ( ) const
inline

Definition at line 204 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References NbOfHits.

204 {return NbOfHits;}
Int_t NbOfHits
Number of hits in this detector.
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetGloablTimeOfHit ( ) const
inline

Definition at line 161 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalTimeOfHit.

161 {return GlobalTimeOfHit;}
std::vector< Float_t > GlobalTimeOfHit
Global time when this hit was generated (ns)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetGlobalMomentumX ( ) const
inline

Definition at line 283 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalMomentumX.

283 {return GlobalMomentumX;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetGlobalMomentumY ( ) const
inline

Definition at line 286 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalMomentumY.

286 {return GlobalMomentumY;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetGlobalMomentumZ ( ) const
inline

Definition at line 289 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalMomentumZ.

289 {return GlobalMomentumZ;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetGlobalPhiAngle ( ) const
inline

Definition at line 295 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalPhiAngle.

295 {return GlobalPhiAngle;}
std::vector< Float_t > GlobalPhiAngle
(degrees, but 90 degrees rotated to keep things interesting)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetGlobalThetaAngle ( ) const
inline

Definition at line 292 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalThetaAngle.

292 {return GlobalThetaAngle;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetKineticEnergy ( ) const
inline

Definition at line 167 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References KineticEnergy.

167 {return KineticEnergy;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetLocalMomentumX ( ) const
inline

Definition at line 266 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalMomentumX.

266 {return LocalMomentumX;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetLocalMomentumY ( ) const
inline

Definition at line 269 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalMomentumY.

269 {return LocalMomentumY;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetLocalMomentumZ ( ) const
inline

Definition at line 272 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalMomentumZ.

272 {return LocalMomentumZ;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetLocalPhiAngle ( ) const
inline

Definition at line 278 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalPhiAngle.

278 {return LocalPhiAngle;}
std::vector< Float_t > LocalPhiAngle
(degrees, but 90 degrees rotated to keep things interesting)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetLocalThetaAngle ( ) const
inline

Definition at line 275 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalThetaAngle.

275 {return LocalThetaAngle;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetLongitudinalPolarization ( ) const
inline

Definition at line 181 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LongitudinalPolarization.

181 {return LongitudinalPolarization;}
std::vector< Float_t > LongitudinalPolarization
(dimensionless, normalized)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexKineticEnergy ( ) const
inline
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexMomentumDirectionX ( ) const
inline
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexMomentumDirectionY ( ) const
inline
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexMomentumDirectionZ ( ) const
inline
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexPhiAngle ( ) const
inline

Definition at line 255 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPhiAngle.

255 {return OriginVertexPhiAngle;}
std::vector< Float_t > OriginVertexPhiAngle
(degrees)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexPositionX ( ) const
inline

Definition at line 234 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPositionX.

234 {return OriginVertexPositionX;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexPositionY ( ) const
inline

Definition at line 237 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPositionY.

237 {return OriginVertexPositionY;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexPositionZ ( ) const
inline

Definition at line 240 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPositionZ.

240 {return OriginVertexPositionZ;}
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexThetaAngle ( ) const
inline

Definition at line 252 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexThetaAngle.

252 {return OriginVertexThetaAngle;}
std::vector< Float_t > OriginVertexThetaAngle
(degrees)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetOriginVertexTotalEnergy ( ) const
inline
std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::GetParentID ( ) const
inline

Definition at line 152 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParentID.

152 {return ParentID;}
std::vector< Int_t > ParentID
Id of the parent of this hit.
std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::GetParticleID ( ) const
inline

Definition at line 158 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParticleID.

158 {return ParticleID;}
std::vector< Int_t > ParticleID
Id of this hit.
std::vector<TString> QweakSimUserCerenkov_RadiatorEvent::GetParticleName ( ) const
inline

Definition at line 146 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParticleName.

146 {return ParticleName;}
std::vector< TString > ParticleName
Name of the particle type of this hit.
std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::GetParticleType ( ) const
inline

Definition at line 149 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParticleType.

149 {return ParticleType;}
std::vector< Int_t > ParticleType
Lund type of the particle type of this hit
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetPolarizationX ( ) const
inline

Definition at line 172 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References PolarizationX.

172 {return PolarizationX;}
std::vector< Float_t > PolarizationX
(dimensionless, normalized)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetPolarizationY ( ) const
inline

Definition at line 175 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References PolarizationY.

175 {return PolarizationY;}
std::vector< Float_t > PolarizationY
(dimensionless, normalized)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetPolarizationZ ( ) const
inline

Definition at line 178 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References PolarizationZ.

178 {return PolarizationZ;}
std::vector< Float_t > PolarizationZ
(dimensionless, normalized)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetTotalEnergy ( ) const
inline

Definition at line 164 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TotalEnergy.

164 {return TotalEnergy;}
Int_t QweakSimUserCerenkov_RadiatorEvent::GetTrackID ( ) const
inline

Definition at line 143 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TrackID.

143 {return TrackID;}
Int_t TrackID
ID of the track from which this hit was generated.
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetTransversePolarization ( ) const
inline

Definition at line 184 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarization.

184 {return TransversePolarization;}
std::vector< Float_t > TransversePolarization
(dimensionless, normalized)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetTransversePolarizationPhiAngle ( ) const
inline
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetTransversePolarizationX ( ) const
inline

Definition at line 187 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarizationX.

187 {return TransversePolarizationX;}
std::vector< Float_t > TransversePolarizationX
(dimensionless, normalized)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetTransversePolarizationY ( ) const
inline

Definition at line 190 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarizationY.

190 {return TransversePolarizationY;}
std::vector< Float_t > TransversePolarizationY
(dimensionless, normalized)
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GetTransversePolarizationZ ( ) const
inline

Definition at line 193 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarizationZ.

193 {return TransversePolarizationZ;}
std::vector< Float_t > TransversePolarizationZ
(dimensionless, normalized)
void QweakSimUserCerenkov_RadiatorEvent::Initialize ( )

Definition at line 15 of file QweakSimUserCerenkov_RadiatorEvent.cc.

References CreatorProcessName, DetectorID, EdgeEventFlag, GlobalMomentumX, GlobalMomentumY, GlobalMomentumZ, GlobalPhiAngle, GlobalThetaAngle, GlobalTimeOfHit, HasBeenHit, HitGlobalPositionX, HitGlobalPositionY, HitGlobalPositionZ, HitLocalExitPositionX, HitLocalExitPositionY, HitLocalExitPositionZ, HitLocalPositionX, HitLocalPositionY, HitLocalPositionZ, KineticEnergy, LocalMomentumX, LocalMomentumY, LocalMomentumZ, LocalPhiAngle, LocalThetaAngle, LongitudinalPolarization, NbOfHits, OriginVertexKineticEnergy, OriginVertexMomentumDirectionX, OriginVertexMomentumDirectionY, OriginVertexMomentumDirectionZ, OriginVertexPhiAngle, OriginVertexPositionX, OriginVertexPositionY, OriginVertexPositionZ, OriginVertexThetaAngle, OriginVertexTotalEnergy, ParentID, ParticleID, ParticleName, ParticleType, PolarizationX, PolarizationY, PolarizationZ, TotalEnergy, TrackID, TransversePolarization, TransversePolarizationPhiAngle, TransversePolarizationX, TransversePolarizationY, and TransversePolarizationZ.

Referenced by QweakSimEventAction::EndOfEventAction().

16 {
17  DetectorID.clear();
18  TrackID = 0;
19  HasBeenHit = 0;
20  NbOfHits = 0;
21  GlobalTimeOfHit.clear();
22  EdgeEventFlag.clear();
23 
24  HitLocalPositionX.clear();
25  HitLocalPositionY.clear();
26  HitLocalPositionZ.clear();
27 
28  PolarizationX.clear();
29  PolarizationY.clear();
30  PolarizationZ.clear();
32  TransversePolarization.clear();
37 
38  HitLocalExitPositionX.clear();
39  HitLocalExitPositionY.clear();
40  HitLocalExitPositionZ.clear();
41 
42  HitGlobalPositionX.clear();
43  HitGlobalPositionY.clear();
44  HitGlobalPositionZ.clear();
45 
46  OriginVertexPositionX.clear();
47  OriginVertexPositionY.clear();
48  OriginVertexPositionZ.clear();
49 
53 
54  OriginVertexThetaAngle.clear();
55  OriginVertexPhiAngle.clear();
57  OriginVertexTotalEnergy.clear();
58 
59  LocalMomentumX.clear();
60  LocalMomentumY.clear();
61  LocalMomentumZ.clear();
62  LocalThetaAngle.clear();
63  LocalPhiAngle.clear();
64 
65  GlobalMomentumX.clear();
66  GlobalMomentumY.clear();
67  GlobalMomentumZ.clear();
68  GlobalThetaAngle.clear();
69  GlobalPhiAngle.clear();
70 
71  EdgeEventFlag.clear();
72 
73  ParticleName.clear();
74  CreatorProcessName.clear();
75  ParticleID.clear();
76  ParentID.clear();
77  ParticleType.clear();
78 
79  TotalEnergy.clear();
80  KineticEnergy.clear();
81 
82 }
std::vector< Float_t > GlobalTimeOfHit
Global time when this hit was generated (ns)
std::vector< Int_t > DetectorID
ID of the detector in which this hit was registered.
std::vector< Float_t > LongitudinalPolarization
(dimensionless, normalized)
std::vector< Int_t > ParentID
Id of the parent of this hit.
Int_t NbOfHits
Number of hits in this detector.
std::vector< TString > ParticleName
Name of the particle type of this hit.
std::vector< Float_t > LocalPhiAngle
(degrees, but 90 degrees rotated to keep things interesting)
std::vector< Float_t > TransversePolarizationX
(dimensionless, normalized)
std::vector< Float_t > TransversePolarizationY
(dimensionless, normalized)
std::vector< Int_t > EdgeEventFlag
Was the distance between hit and exit position below 1.5 cm? 0 = no, 1 = yes.
std::vector< Float_t > PolarizationZ
(dimensionless, normalized)
std::vector< Float_t > PolarizationY
(dimensionless, normalized)
std::vector< Float_t > OriginVertexThetaAngle
(degrees)
std::vector< Float_t > GlobalPhiAngle
(degrees, but 90 degrees rotated to keep things interesting)
Int_t TrackID
ID of the track from which this hit was generated.
std::vector< Float_t > TransversePolarizationPhiAngle
(degrees)
Int_t HasBeenHit
Has this detector been hit? 0 = no, 5 = yes.
std::vector< Float_t > PolarizationX
(dimensionless, normalized)
std::vector< Int_t > ParticleID
Id of this hit.
std::vector< Float_t > TransversePolarization
(dimensionless, normalized)
std::vector< Float_t > TransversePolarizationZ
(dimensionless, normalized)
std::vector< Float_t > OriginVertexPhiAngle
(degrees)
std::vector< TString > CreatorProcessName
Process name that created this hit.
std::vector< Int_t > ParticleType
Lund type of the particle type of this hit

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void QweakSimUserCerenkov_RadiatorEvent::StoreCreatorProcessName ( TString  name)
inline

Definition at line 154 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References CreatorProcessName.

Referenced by QweakSimEventAction::EndOfEventAction().

154 { CreatorProcessName.push_back(name); }
std::vector< TString > CreatorProcessName
Process name that created this hit.

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorGlobalPositionX ( Float_t  lx)
inline

Definition at line 224 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitGlobalPositionX.

Referenced by QweakSimEventAction::EndOfEventAction().

224 { HitGlobalPositionX.push_back(lx); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorGlobalPositionY ( Float_t  ly)
inline

Definition at line 227 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitGlobalPositionY.

Referenced by QweakSimEventAction::EndOfEventAction().

227 { HitGlobalPositionY.push_back(ly); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorGlobalPositionZ ( Float_t  lz)
inline

Definition at line 230 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitGlobalPositionZ.

Referenced by QweakSimEventAction::EndOfEventAction().

230 { HitGlobalPositionZ.push_back(lz); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorHasBeenHit ( Int_t  n)
inline

Definition at line 200 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HasBeenHit.

Referenced by QweakSimEventAction::EndOfEventAction().

200 { HasBeenHit = n; }
Int_t HasBeenHit
Has this detector been hit? 0 = no, 5 = yes.

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorID ( Int_t  did)
inline

Definition at line 138 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References DetectorID.

Referenced by QweakSimEventAction::EndOfEventAction().

138 { DetectorID.push_back(did); }
std::vector< Int_t > DetectorID
ID of the detector in which this hit was registered.

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorLocalExitPositionX ( Float_t  lx)
inline

Definition at line 215 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalExitPositionX.

Referenced by QweakSimEventAction::EndOfEventAction().

215 { HitLocalExitPositionX.push_back(lx); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorLocalExitPositionY ( Float_t  ly)
inline

Definition at line 218 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalExitPositionY.

Referenced by QweakSimEventAction::EndOfEventAction().

218 { HitLocalExitPositionY.push_back(ly); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorLocalExitPositionZ ( Float_t  lz)
inline

Definition at line 221 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalExitPositionZ.

Referenced by QweakSimEventAction::EndOfEventAction().

221 { HitLocalExitPositionZ.push_back(lz); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorLocalPositionX ( Float_t  lx)
inline

Definition at line 206 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalPositionX.

Referenced by QweakSimEventAction::EndOfEventAction().

206 { HitLocalPositionX.push_back(lx); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorLocalPositionY ( Float_t  ly)
inline

Definition at line 209 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalPositionY.

Referenced by QweakSimEventAction::EndOfEventAction().

209 { HitLocalPositionY.push_back(ly); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorLocalPositionZ ( Float_t  lz)
inline

Definition at line 212 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References HitLocalPositionZ.

Referenced by QweakSimEventAction::EndOfEventAction().

212 { HitLocalPositionZ.push_back(lz); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreDetectorNbOfHits ( Int_t  nd)
inline

Definition at line 203 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References NbOfHits.

Referenced by QweakSimEventAction::EndOfEventAction().

203 { NbOfHits = nd; }
Int_t NbOfHits
Number of hits in this detector.

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void QweakSimUserCerenkov_RadiatorEvent::StoreGlobalMomentumX ( Float_t  px)
inline

Definition at line 282 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalMomentumX.

Referenced by QweakSimEventAction::EndOfEventAction().

282 { GlobalMomentumX.push_back(px); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreGlobalMomentumY ( Float_t  py)
inline

Definition at line 285 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalMomentumY.

Referenced by QweakSimEventAction::EndOfEventAction().

285 { GlobalMomentumY.push_back(py); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreGlobalMomentumZ ( Float_t  pz)
inline

Definition at line 288 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalMomentumZ.

Referenced by QweakSimEventAction::EndOfEventAction().

288 { GlobalMomentumZ.push_back(pz); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreGlobalPhiAngle ( Float_t  phi)
inline

Definition at line 294 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalPhiAngle.

Referenced by QweakSimEventAction::EndOfEventAction().

294 { GlobalPhiAngle.push_back(phi); }
std::vector< Float_t > GlobalPhiAngle
(degrees, but 90 degrees rotated to keep things interesting)

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void QweakSimUserCerenkov_RadiatorEvent::StoreGlobalThetaAngle ( Float_t  theta)
inline

Definition at line 291 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalThetaAngle.

Referenced by QweakSimEventAction::EndOfEventAction().

291 { GlobalThetaAngle.push_back(theta); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreGlobalTimeOfHit ( Float_t  gtime)
inline

Definition at line 160 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References GlobalTimeOfHit.

Referenced by QweakSimEventAction::EndOfEventAction().

160 { GlobalTimeOfHit.push_back(gtime); }
std::vector< Float_t > GlobalTimeOfHit
Global time when this hit was generated (ns)

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void QweakSimUserCerenkov_RadiatorEvent::StoreKineticEnergy ( Float_t  ke)
inline

Definition at line 166 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References KineticEnergy.

Referenced by QweakSimEventAction::EndOfEventAction().

166 { KineticEnergy.push_back(ke); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreLocalMomentumX ( Float_t  px)
inline

Definition at line 265 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalMomentumX.

Referenced by QweakSimEventAction::EndOfEventAction().

265 { LocalMomentumX.push_back(px); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreLocalMomentumY ( Float_t  py)
inline

Definition at line 268 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalMomentumY.

Referenced by QweakSimEventAction::EndOfEventAction().

268 { LocalMomentumY.push_back(py); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreLocalMomentumZ ( Float_t  pz)
inline

Definition at line 271 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalMomentumZ.

Referenced by QweakSimEventAction::EndOfEventAction().

271 { LocalMomentumZ.push_back(pz); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreLocalPhiAngle ( Float_t  phi)
inline

Definition at line 277 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalPhiAngle.

Referenced by QweakSimEventAction::EndOfEventAction().

277 { LocalPhiAngle.push_back(phi); }
std::vector< Float_t > LocalPhiAngle
(degrees, but 90 degrees rotated to keep things interesting)

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void QweakSimUserCerenkov_RadiatorEvent::StoreLocalThetaAngle ( Float_t  theta)
inline

Definition at line 274 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LocalThetaAngle.

Referenced by QweakSimEventAction::EndOfEventAction().

274 { LocalThetaAngle.push_back(theta); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreLongitudinalPolarization ( Float_t  pl)
inline

Definition at line 180 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References LongitudinalPolarization.

Referenced by QweakSimEventAction::EndOfEventAction().

180 { LongitudinalPolarization.push_back(pl); }
std::vector< Float_t > LongitudinalPolarization
(dimensionless, normalized)

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexKineticEnergy ( Float_t  ekin)
inline

Definition at line 257 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexKineticEnergy.

Referenced by QweakSimEventAction::EndOfEventAction().

257 { OriginVertexKineticEnergy.push_back(ekin); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexMomentumDirectionX ( Float_t  vx)
inline

Definition at line 242 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexMomentumDirectionX.

Referenced by QweakSimEventAction::EndOfEventAction().

242 { OriginVertexMomentumDirectionX.push_back(vx); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexMomentumDirectionY ( Float_t  vy)
inline

Definition at line 245 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexMomentumDirectionY.

Referenced by QweakSimEventAction::EndOfEventAction().

245 { OriginVertexMomentumDirectionY.push_back(vy); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexMomentumDirectionZ ( Float_t  vz)
inline

Definition at line 248 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexMomentumDirectionZ.

Referenced by QweakSimEventAction::EndOfEventAction().

248 { OriginVertexMomentumDirectionZ.push_back(vz); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexPhiAngle ( Float_t  phi)
inline

Definition at line 254 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPhiAngle.

Referenced by QweakSimEventAction::EndOfEventAction().

254 { OriginVertexPhiAngle.push_back(phi); }
std::vector< Float_t > OriginVertexPhiAngle
(degrees)

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexPositionX ( Float_t  vx)
inline

Definition at line 233 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPositionX.

Referenced by QweakSimEventAction::EndOfEventAction().

233 { OriginVertexPositionX.push_back(vx); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexPositionY ( Float_t  vy)
inline

Definition at line 236 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPositionY.

Referenced by QweakSimEventAction::EndOfEventAction().

236 { OriginVertexPositionY.push_back(vy); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexPositionZ ( Float_t  vz)
inline

Definition at line 239 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexPositionZ.

Referenced by QweakSimEventAction::EndOfEventAction().

239 { OriginVertexPositionZ.push_back(vz); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexThetaAngle ( Float_t  theta)
inline

Definition at line 251 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexThetaAngle.

Referenced by QweakSimEventAction::EndOfEventAction().

251 { OriginVertexThetaAngle.push_back(theta); }
std::vector< Float_t > OriginVertexThetaAngle
(degrees)

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void QweakSimUserCerenkov_RadiatorEvent::StoreOriginVertexTotalEnergy ( Float_t  etot)
inline

Definition at line 260 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References OriginVertexTotalEnergy.

Referenced by QweakSimEventAction::EndOfEventAction().

260 { OriginVertexTotalEnergy.push_back(etot); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreParentID ( Int_t  Pid)
inline

Definition at line 151 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParentID.

Referenced by QweakSimEventAction::EndOfEventAction().

151 { ParentID.push_back(Pid); }
std::vector< Int_t > ParentID
Id of the parent of this hit.

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void QweakSimUserCerenkov_RadiatorEvent::StoreParticleID ( Int_t  pid)
inline

Definition at line 157 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParticleID.

Referenced by QweakSimEventAction::EndOfEventAction().

157 { ParticleID.push_back(pid); }
std::vector< Int_t > ParticleID
Id of this hit.

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void QweakSimUserCerenkov_RadiatorEvent::StoreParticleName ( TString  pn)
inline

Definition at line 145 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParticleName.

Referenced by QweakSimEventAction::EndOfEventAction().

145 { ParticleName.push_back(pn); }
std::vector< TString > ParticleName
Name of the particle type of this hit.

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void QweakSimUserCerenkov_RadiatorEvent::StoreParticleType ( Int_t  pt)
inline

Definition at line 148 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References ParticleType.

Referenced by QweakSimEventAction::EndOfEventAction().

148 { ParticleType.push_back(pt); }
std::vector< Int_t > ParticleType
Lund type of the particle type of this hit

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void QweakSimUserCerenkov_RadiatorEvent::StorePolarizationX ( Float_t  px)
inline

Definition at line 171 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References PolarizationX.

Referenced by QweakSimEventAction::EndOfEventAction().

171 { PolarizationX.push_back(px); }
std::vector< Float_t > PolarizationX
(dimensionless, normalized)

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void QweakSimUserCerenkov_RadiatorEvent::StorePolarizationY ( Float_t  py)
inline

Definition at line 174 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References PolarizationY.

Referenced by QweakSimEventAction::EndOfEventAction().

174 { PolarizationY.push_back(py); }
std::vector< Float_t > PolarizationY
(dimensionless, normalized)

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void QweakSimUserCerenkov_RadiatorEvent::StorePolarizationZ ( Float_t  pz)
inline

Definition at line 177 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References PolarizationZ.

Referenced by QweakSimEventAction::EndOfEventAction().

177 { PolarizationZ.push_back(pz); }
std::vector< Float_t > PolarizationZ
(dimensionless, normalized)

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void QweakSimUserCerenkov_RadiatorEvent::StoreTotalEnergy ( Float_t  te)
inline

Definition at line 163 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TotalEnergy.

Referenced by QweakSimEventAction::EndOfEventAction().

163 { TotalEnergy.push_back(te); }

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void QweakSimUserCerenkov_RadiatorEvent::StoreTrackID ( Int_t  tid)
inline

Definition at line 142 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TrackID.

142 { TrackID = tid; }
Int_t TrackID
ID of the track from which this hit was generated.
void QweakSimUserCerenkov_RadiatorEvent::StoreTransversePolarization ( Float_t  pt)
inline

Definition at line 183 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarization.

Referenced by QweakSimEventAction::EndOfEventAction().

183 { TransversePolarization.push_back(pt); }
std::vector< Float_t > TransversePolarization
(dimensionless, normalized)

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void QweakSimUserCerenkov_RadiatorEvent::StoreTransversePolarizationPhiAngle ( Float_t  phi)
inline

Definition at line 195 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarizationPhiAngle.

Referenced by QweakSimEventAction::EndOfEventAction().

195 { TransversePolarizationPhiAngle.push_back(phi); }
std::vector< Float_t > TransversePolarizationPhiAngle
(degrees)

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void QweakSimUserCerenkov_RadiatorEvent::StoreTransversePolarizationX ( Float_t  pt)
inline

Definition at line 186 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarizationX.

Referenced by QweakSimEventAction::EndOfEventAction().

186 { TransversePolarizationX.push_back(pt); }
std::vector< Float_t > TransversePolarizationX
(dimensionless, normalized)

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void QweakSimUserCerenkov_RadiatorEvent::StoreTransversePolarizationY ( Float_t  pt)
inline

Definition at line 189 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarizationY.

Referenced by QweakSimEventAction::EndOfEventAction().

189 { TransversePolarizationY.push_back(pt); }
std::vector< Float_t > TransversePolarizationY
(dimensionless, normalized)

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void QweakSimUserCerenkov_RadiatorEvent::StoreTransversePolarizationZ ( Float_t  pt)
inline

Definition at line 192 of file QweakSimUserCerenkov_RadiatorEvent.hh.

References TransversePolarizationZ.

Referenced by QweakSimEventAction::EndOfEventAction().

192 { TransversePolarizationZ.push_back(pt); }
std::vector< Float_t > TransversePolarizationZ
(dimensionless, normalized)

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Field Documentation

std::vector<TString> QweakSimUserCerenkov_RadiatorEvent::CreatorProcessName
private

Process name that created this hit.

Definition at line 104 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetCreatorProcessName(), Initialize(), and StoreCreatorProcessName().

std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::DetectorID
private

ID of the detector in which this hit was registered.

Definition at line 24 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetDetectorID(), Initialize(), and StoreDetectorID().

std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::EdgeEventFlag
private

Was the distance between hit and exit position below 1.5 cm? 0 = no, 1 = yes.

Definition at line 30 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by Initialize().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GlobalMomentumX
private

(GeV/c)

Definition at line 91 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetGlobalMomentumX(), Initialize(), and StoreGlobalMomentumX().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GlobalMomentumY
private

(GeV/c)

Definition at line 92 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetGlobalMomentumY(), Initialize(), and StoreGlobalMomentumY().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GlobalMomentumZ
private

(GeV/c)

Definition at line 93 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetGlobalMomentumZ(), Initialize(), and StoreGlobalMomentumZ().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GlobalPhiAngle
private

(degrees, but 90 degrees rotated to keep things interesting)

Definition at line 95 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetGlobalPhiAngle(), Initialize(), and StoreGlobalPhiAngle().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GlobalThetaAngle
private

(degrees)

Definition at line 94 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetGlobalThetaAngle(), Initialize(), and StoreGlobalThetaAngle().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::GlobalTimeOfHit
private

Global time when this hit was generated (ns)

Definition at line 27 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetGloablTimeOfHit(), Initialize(), and StoreGlobalTimeOfHit().

Int_t QweakSimUserCerenkov_RadiatorEvent::HasBeenHit
private

Has this detector been hit? 0 = no, 5 = yes.

Definition at line 29 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetDetectorHasBeenHit(), Initialize(), and StoreDetectorHasBeenHit().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitGlobalPositionX
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitGlobalPositionY
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitGlobalPositionZ
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitLocalExitPositionX
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitLocalExitPositionY
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitLocalExitPositionZ
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitLocalPositionX
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitLocalPositionY
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::HitLocalPositionZ
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::KineticEnergy
private

(MeV)

Definition at line 125 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetKineticEnergy(), Initialize(), and StoreKineticEnergy().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::LocalMomentumX
private

(GeV/c)

Definition at line 81 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetLocalMomentumX(), Initialize(), and StoreLocalMomentumX().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::LocalMomentumY
private

(GeV/c)

Definition at line 82 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetLocalMomentumY(), Initialize(), and StoreLocalMomentumY().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::LocalMomentumZ
private

(GeV/c)

Definition at line 83 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetLocalMomentumZ(), Initialize(), and StoreLocalMomentumZ().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::LocalPhiAngle
private

(degrees, but 90 degrees rotated to keep things interesting)

Definition at line 85 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetLocalPhiAngle(), Initialize(), and StoreLocalPhiAngle().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::LocalThetaAngle
private

(degrees)

Definition at line 84 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetLocalThetaAngle(), Initialize(), and StoreLocalThetaAngle().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::LongitudinalPolarization
private

(dimensionless, normalized)

Definition at line 113 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetLongitudinalPolarization(), Initialize(), and StoreLongitudinalPolarization().

Int_t QweakSimUserCerenkov_RadiatorEvent::NbOfHits
private

Number of hits in this detector.

Definition at line 31 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetDetectorNbOfHits(), Initialize(), and StoreDetectorNbOfHits().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexKineticEnergy
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexMomentumDirectionX
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexMomentumDirectionY
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexMomentumDirectionZ
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexPhiAngle
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexPositionX
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexPositionY
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexPositionZ
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexThetaAngle
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::OriginVertexTotalEnergy
private
std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::ParentID
private

Id of the parent of this hit.

Definition at line 103 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetParentID(), Initialize(), and StoreParentID().

std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::ParticleID
private

Id of this hit.

Definition at line 102 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetParticleID(), Initialize(), and StoreParticleID().

std::vector<TString> QweakSimUserCerenkov_RadiatorEvent::ParticleName
private

Name of the particle type of this hit.

Definition at line 100 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetParticleName(), Initialize(), and StoreParticleName().

std::vector<Int_t> QweakSimUserCerenkov_RadiatorEvent::ParticleType
private

Lund type of the particle type of this hit

Definition at line 101 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetParticleType(), Initialize(), and StoreParticleType().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::PolarizationX
private

(dimensionless, normalized)

Definition at line 110 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetPolarizationX(), Initialize(), and StorePolarizationX().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::PolarizationY
private

(dimensionless, normalized)

Definition at line 111 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetPolarizationY(), Initialize(), and StorePolarizationY().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::PolarizationZ
private

(dimensionless, normalized)

Definition at line 112 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetPolarizationZ(), Initialize(), and StorePolarizationZ().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::TotalEnergy
private

(MeV)

Definition at line 124 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetTotalEnergy(), Initialize(), and StoreTotalEnergy().

Int_t QweakSimUserCerenkov_RadiatorEvent::TrackID
private

ID of the track from which this hit was generated.

Definition at line 25 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetTrackID(), Initialize(), and StoreTrackID().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::TransversePolarization
private

(dimensionless, normalized)

Definition at line 114 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetTransversePolarization(), Initialize(), and StoreTransversePolarization().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::TransversePolarizationPhiAngle
private
std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::TransversePolarizationX
private

(dimensionless, normalized)

Definition at line 115 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetTransversePolarizationX(), Initialize(), and StoreTransversePolarizationX().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::TransversePolarizationY
private

(dimensionless, normalized)

Definition at line 116 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetTransversePolarizationY(), Initialize(), and StoreTransversePolarizationY().

std::vector<Float_t> QweakSimUserCerenkov_RadiatorEvent::TransversePolarizationZ
private

(dimensionless, normalized)

Definition at line 117 of file QweakSimUserCerenkov_RadiatorEvent.hh.

Referenced by GetTransversePolarizationZ(), Initialize(), and StoreTransversePolarizationZ().


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