df/d6a/G4Svc_8h_source.html

#ifndef G4SIM_G4SVC_H

#define G4SIM_G4SVC_H


#include "GaudiKernel/Service.h"

#include "G4Svc/IG4Svc.h"

#include "GaudiKernel/NTuple.h"


// G4 includes

#include  "G4UImanager.hh"


#ifdef G4VIS_USE

 #include "G4VisManager.hh"

#endif


#include <vector>

#include <string>

#include "RealizationSvc/RealizationSvc.h"

#include "RealizationSvc/IRealizationSvc.h"


// Forward declarations

template <class TYPE> class SvcFactory;


class G4VUserPhysicsList;

class G4RunManager;

class G4SvcRunManager;

class G4VUserActionInitialization;


// ClassName:   G4Svc

// Description: This service provides access to Geant 4

//


class G4Svc: public extends<Service, IG4Svc>

{

public:


  G4Svc( const std::string& name, ISvcLocator* svc );


  // Destructor.

  virtual ~G4Svc();


  virtual StatusCode initialize();

  virtual StatusCode finalize();


  // Query the interfaces.

  //virtual StatusCode queryInterface( const InterfaceID& riid, void** ppvInterface );


  G4RunManager * runMgr();


  // Detector init

  void SetUserInitialization(G4VUserDetectorConstruction* userInit);


  // Physics init

  void SetUserInitialization(G4VUserPhysicsList* physInit);


  void SetUserInitialization(G4VUserActionInitialization* actionInit);


  // User Action

  /*void SetUserAction(G4UserRunAction *);

  void SetUserAction(G4UserEventAction *);

  void SetUserAction(G4VUserPrimaryGeneratorAction*);

  void SetUserAction(G4UserStackingAction*);

  void SetUserAction(G4UserTrackingAction*);

  void SetUserAction(G4UserSteppingAction*);*/


  // G4Event

  const G4Event* GetCurrentEvent() const;

  const G4Run*   GetCurrentRun() const;


#ifdef G4VIS_USE

  G4VisManager * visMgr() { return p_visMgr; }

#endif

  G4UImanager  * uiMgr();

  void  StartUISession();


  //for vertex parameters

  double GetBeamPosX() {return m_beamPosX;}

  double GetBeamPosY() {return m_beamPosY;}

  double GetBeamPosZ() {return m_beamPosZ;}


  double GetBeamSizeX() {return m_beamSizeX;}

  double GetBeamSizeY() {return m_beamSizeY;}

  double GetBeamSizeZ() {return m_beamSizeZ;}


  double GetBeamShiftPx(){return m_beamShiftPx;}

  double GetBeamShiftPy(){return m_beamShiftPy;}

  double GetBeamShiftPz(){return m_beamShiftPz;}


  double GetBeamStartTime() {return m_beamStartTime;}

  double GetBeamDeltaTime() {return m_beamDeltaTime;}

  double GetNBunch() {return m_nBunch;}

  double GetBunchTimeSigma() {return m_bunchTimeSigma;}


  double GetBeamTime() {return m_beamTime;}

  void   SetBeamTime(double value) {m_beamTime = value;}

   std::string GetMdcNoiseFile(){return m_mdcNoiseFile;}


  double GetBeamAngle() {return m_beamAngle;}

  bool   GetBoostLab() {return m_boostLab;}

  bool   GetSetBeamShift() {return m_setBeamShift;}


  int GetMdcDataInput() { return m_mdcDataInput; }

  int GetMdcDedxFlag(){return m_mdcDedxFlag;}


  NTuple::Tuple* GetTupleMdc() {return m_tupleMdc;}

  void SetTupleMdc (NTuple::Tuple* tuple) {m_tupleMdc = tuple;}


  NTuple::Tuple* GetTupleTof1() {return m_tupleTof1;}

  void SetTupleTof1 (NTuple::Tuple* tuple) {m_tupleTof1 = tuple;}


  NTuple::Tuple* GetTupleTof2() {return m_tupleTof2;}

  void SetTupleTof2 (NTuple::Tuple* tuple) {m_tupleTof2 = tuple;}


  NTuple::Tuple* GetTupleTof3() {return m_tupleTof3;}

  void SetTupleTof3 (NTuple::Tuple* tuple) {m_tupleTof3 = tuple;}


  NTuple::Tuple* GetTupleEmc1() {return m_tupleEmc1;}

  void SetTupleEmc1 (NTuple::Tuple* tuple) {m_tupleEmc1 = tuple;}


  NTuple::Tuple* GetTupleEmc2() {return m_tupleEmc2;}

  void SetTupleEmc2 (NTuple::Tuple* tuple) {m_tupleEmc2 = tuple;}


  NTuple::Tuple* GetTupleMuc() {return m_tupleMuc;}

  void SetTupleMuc (NTuple::Tuple* tuple) {m_tupleMuc = tuple;}


  bool MdcRootFlag() {return m_mdcRootFlag;}

  bool TofRootFlag() {return m_tofRootFlag;}

  bool EmcRootFlag() {return m_emcRootFlag;}

  bool MucRootFlag() {return m_mucRootFlag;}


  bool TofSaturationFlag() {return m_tofSaturationFlag;} // Tof Q Saturation in bhabha events


  bool EmcLightOutput() {return m_emcLightOutput;}

  double EmcIncoherentNoise() {return m_emcIncoherentNoise;}

  double EmcCoherentNoise() {return m_emcCoherentNoise;}

  double EmcNoiseMean() {return m_emcNoiseMean;}

  double EmcNoiseSigma() {return m_emcNoiseSigma;}

  double EmcNoiseThreshold() {return m_emcNoiseThreshold;}

  int EmcNoiseLevel() {return m_emcNoiseLevel;}

  int EmcTime() {return m_emcTime;}

  int EmcElecSaturation(){return m_emcELecSaturation;}

  int EmcElecSatuDead(){return m_emcELecSatuDead;}


  int MucNoiseMode() {return m_mucNoiseMode;}


  int LogLevel() {return m_logLevel;}


public:


  void G4Init();


  // Run initialization, termination and single event generation for G4SimAlg

  void RunInitialize();

  void RunTerminate();

  void SimulateEvents(int);


private:


  // Allow SvcFactory to instantiate the service.

  friend class SvcFactory<G4Svc>;


  G4SvcRunManager *p_runMgr;

  G4UImanager  *p_uiMgr;


  //std::string m_PhysicsList;

  //double m_PhysicsCut;


  // Visualization

  bool m_vis;

  //std::string m_visType;


  // Initialization macro file


  std::string m_macroName;

  std::string m_mdcNoiseFile;


#ifdef G4VIS_USE

  G4VisManager *p_visMgr;

#endif


  // Save Hits and Tracks in StoreGate

  //bool m_saveHits;

  //bool m_saveTracks;

  int m_logLevel;


  // Verbosity

  int m_runVerb;

  int m_eventVerb;

  int m_trackVerb;


  bool _init;


  bool m_interactiveG4;


  bool m_besGenAction;


  int m_runID;


  int m_mdcDataInput;

  int m_mdcDedxFlag;


  //vertex parameters

  double m_beamPosX;

  double m_beamPosY;

  double m_beamPosZ;


  double m_beamSizeX;

  double m_beamSizeY;

  double m_beamSizeZ;


  double m_beamStartTime;

  double m_beamDeltaTime;

  double m_nBunch;


  double m_bunchTimeSigma;

  double m_beamTime;


  double m_beamShiftPx;

  double m_beamShiftPy;

  double m_beamShiftPz;


  bool   m_boostLab;

  bool   m_setBeamShift;

  double m_beamAngle;


  // MC Monitor

  NTuple::Tuple* m_tupleMdc;

  bool m_mdcRootFlag;


  NTuple::Tuple* m_tupleTof1;

  NTuple::Tuple* m_tupleTof2;

  NTuple::Tuple* m_tupleTof3;

  bool m_tofRootFlag;

  bool m_tofSaturationFlag;


  NTuple::Tuple* m_tupleEmc1; //digi level

  NTuple::Tuple* m_tupleEmc2; //event level

  bool m_emcRootFlag;


  // Emc Crystal Light Output

  bool m_emcLightOutput;

  // Incoherent Noise

  double  m_emcIncoherentNoise;

  // Coherent Noise

  double  m_emcCoherentNoise;

  // Noise for fast simulation

  double  m_emcNoiseMean;

  double  m_emcNoiseSigma;

  // Only energy above noise threshold will be recorded

  double  m_emcNoiseThreshold;

  // Noise Level:

  // 0: No noise, 1: Only singal crystals have noise,

  // 2: Only 5x5 matrix has noise, 3: All noise.

  int m_emcNoiseLevel;

  // Time

  int m_emcTime;

  //MC electronics saturation of crystal:

  //0:using Bhabha calibration constants;

  //1:using EmaxData from data;

  int m_emcELecSaturation;


  //MC Special dead channel of electronics saturation of crystal:

  //0:without the simulation Special dead channel in MC ;

  //1:with the simulation Special dead channel in MC ;

  int m_emcELecSatuDead;


  // Muc noise mode

  int m_mucNoiseMode;


  NTuple::Tuple* m_tupleMuc;

  bool m_mucRootFlag;


  RealizationSvc* m_RealizationSvc;

};


#endif

IG4Svc.h

IRealizationSvc.h

RealizationSvc.h

G4SvcRunManager
Definition: G4SvcRunManager.h:15

G4Svc
Definition: G4Svc.h:33

G4Svc::EmcLightOutput
bool EmcLightOutput()
Definition: G4Svc.h:132

G4Svc::MdcRootFlag
bool MdcRootFlag()
Definition: G4Svc.h:125

G4Svc::initialize
virtual StatusCode initialize()
Definition: G4Svc.cpp:141

G4Svc::GetMdcNoiseFile
std::string GetMdcNoiseFile()
Definition: G4Svc.h:95

G4Svc::GetCurrentEvent
const G4Event * GetCurrentEvent() const
Definition: G4Svc.cpp:194

G4Svc::GetTupleMdc
NTuple::Tuple * GetTupleMdc()
Definition: G4Svc.h:104

G4Svc::SetTupleTof3
void SetTupleTof3(NTuple::Tuple *tuple)
Definition: G4Svc.h:114

G4Svc::SetTupleMdc
void SetTupleMdc(NTuple::Tuple *tuple)
Definition: G4Svc.h:105

G4Svc::GetBeamSizeZ
double GetBeamSizeZ()
Definition: G4Svc.h:82

G4Svc::RunTerminate
void RunTerminate()
Definition: G4Svc.cpp:383

G4Svc::GetBeamPosX
double GetBeamPosX()
Definition: G4Svc.h:76

G4Svc::EmcNoiseSigma
double EmcNoiseSigma()
Definition: G4Svc.h:136

G4Svc::EmcNoiseThreshold
double EmcNoiseThreshold()
Definition: G4Svc.h:137

G4Svc::GetBeamPosZ
double GetBeamPosZ()
Definition: G4Svc.h:78

G4Svc::EmcRootFlag
bool EmcRootFlag()
Definition: G4Svc.h:127

G4Svc::uiMgr
G4UImanager * uiMgr()
Definition: G4Svc.cpp:215

G4Svc::~G4Svc
virtual ~G4Svc()
Definition: G4Svc.cpp:110

G4Svc::GetBeamShiftPz
double GetBeamShiftPz()
Definition: G4Svc.h:86

G4Svc::RunInitialize
void RunInitialize()
Definition: G4Svc.cpp:371

G4Svc::EmcElecSaturation
int EmcElecSaturation()
Definition: G4Svc.h:140

G4Svc::EmcNoiseMean
double EmcNoiseMean()
Definition: G4Svc.h:135

G4Svc::GetBoostLab
bool GetBoostLab()
Definition: G4Svc.h:98

G4Svc::StartUISession
void StartUISession()
Definition: G4Svc.cpp:290

G4Svc::GetTupleTof3
NTuple::Tuple * GetTupleTof3()
Definition: G4Svc.h:113

G4Svc::runMgr
G4RunManager * runMgr()
Definition: G4Svc.cpp:124

G4Svc::EmcElecSatuDead
int EmcElecSatuDead()
Definition: G4Svc.h:141

G4Svc::EmcIncoherentNoise
double EmcIncoherentNoise()
Definition: G4Svc.h:133

G4Svc::MucNoiseMode
int MucNoiseMode()
Definition: G4Svc.h:143

G4Svc::GetNBunch
double GetNBunch()
Definition: G4Svc.h:90

G4Svc::GetBeamAngle
double GetBeamAngle()
Definition: G4Svc.h:97

G4Svc::GetBeamShiftPx
double GetBeamShiftPx()
Definition: G4Svc.h:84

G4Svc::GetBeamTime
double GetBeamTime()
Definition: G4Svc.h:93

G4Svc::G4Init
void G4Init()
Definition: G4Svc.cpp:303

G4Svc::SetTupleMuc
void SetTupleMuc(NTuple::Tuple *tuple)
Definition: G4Svc.h:123

G4Svc::GetBeamDeltaTime
double GetBeamDeltaTime()
Definition: G4Svc.h:89

G4Svc::GetMdcDedxFlag
int GetMdcDedxFlag()
Definition: G4Svc.h:102

G4Svc::SetTupleEmc1
void SetTupleEmc1(NTuple::Tuple *tuple)
Definition: G4Svc.h:117

G4Svc::GetBunchTimeSigma
double GetBunchTimeSigma()
Definition: G4Svc.h:91

G4Svc::GetBeamShiftPy
double GetBeamShiftPy()
Definition: G4Svc.h:85

G4Svc::SetTupleEmc2
void SetTupleEmc2(NTuple::Tuple *tuple)
Definition: G4Svc.h:120

G4Svc::GetBeamStartTime
double GetBeamStartTime()
Definition: G4Svc.h:88

G4Svc::GetSetBeamShift
bool GetSetBeamShift()
Definition: G4Svc.h:99

G4Svc::TofRootFlag
bool TofRootFlag()
Definition: G4Svc.h:126

G4Svc::EmcCoherentNoise
double EmcCoherentNoise()
Definition: G4Svc.h:134

G4Svc::SimulateEvents
void SimulateEvents(int)
Definition: G4Svc.cpp:388

G4Svc::GetTupleEmc2
NTuple::Tuple * GetTupleEmc2()
Definition: G4Svc.h:119

G4Svc::GetMdcDataInput
int GetMdcDataInput()
Definition: G4Svc.h:101

G4Svc::SetTupleTof2
void SetTupleTof2(NTuple::Tuple *tuple)
Definition: G4Svc.h:111

G4Svc::SetBeamTime
void SetBeamTime(double value)
Definition: G4Svc.h:94

G4Svc::SetUserInitialization
void SetUserInitialization(G4VUserDetectorConstruction *userInit)
Definition: G4Svc.cpp:224

G4Svc::GetBeamSizeX
double GetBeamSizeX()
Definition: G4Svc.h:80

G4Svc::LogLevel
int LogLevel()
Definition: G4Svc.h:145

G4Svc::GetTupleTof2
NTuple::Tuple * GetTupleTof2()
Definition: G4Svc.h:110

G4Svc::EmcNoiseLevel
int EmcNoiseLevel()
Definition: G4Svc.h:138

G4Svc::SetTupleTof1
void SetTupleTof1(NTuple::Tuple *tuple)
Definition: G4Svc.h:108

G4Svc::MucRootFlag
bool MucRootFlag()
Definition: G4Svc.h:128

G4Svc::finalize
virtual StatusCode finalize()
Definition: G4Svc.cpp:168

G4Svc::TofSaturationFlag
bool TofSaturationFlag()
Definition: G4Svc.h:130

G4Svc::GetBeamPosY
double GetBeamPosY()
Definition: G4Svc.h:77

G4Svc::GetCurrentRun
const G4Run * GetCurrentRun() const
Definition: G4Svc.cpp:208

G4Svc::GetBeamSizeY
double GetBeamSizeY()
Definition: G4Svc.h:81

G4Svc::GetTupleMuc
NTuple::Tuple * GetTupleMuc()
Definition: G4Svc.h:122

G4Svc::GetTupleEmc1
NTuple::Tuple * GetTupleEmc1()
Definition: G4Svc.h:116

G4Svc::EmcTime
int EmcTime()
Definition: G4Svc.h:139

G4Svc::GetTupleTof1
NTuple::Tuple * GetTupleTof1()
Definition: G4Svc.h:107

RealizationSvc
Definition: RealizationSvc.h:18

SvcFactory
Forward and external declarations.
Definition: CalibDataSvc.h:35