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ZdcSD Class Reference

#include <ZdcSD.h>

Inheritance diagram for ZdcSD:
CaloSD SensitiveCaloDetector Observer< const BeginOfRun * > Observer< const BeginOfEvent * > Observer< const BeginOfTrack * > Observer< const EndOfTrack * > Observer< const EndOfEvent * > SensitiveDetector

Public Member Functions

virtual double getEnergyDeposit (G4Step *, edm::ParameterSet const &)
 
void getFromLibrary (G4Step *step)
 
virtual bool ProcessHits (G4Step *step, G4TouchableHistory *tHistory)
 
virtual uint32_t setDetUnitId (G4Step *step)
 
void setNumberingScheme (ZdcNumberingScheme *scheme)
 
 ZdcSD (G4String, const DDCompactView &, SensitiveDetectorCatalog &, edm::ParameterSet const &, const SimTrackManager *)
 
virtual ~ZdcSD ()
 
- Public Member Functions inherited from CaloSD
 CaloSD (G4String aSDname, const DDCompactView &cpv, SensitiveDetectorCatalog &clg, edm::ParameterSet const &p, const SimTrackManager *, int tSlice=1, bool ignoreTkID=false)
 
virtual void clear ()
 
virtual void DrawAll ()
 
virtual void EndOfEvent (G4HCofThisEvent *eventHC)
 
void fillHits (edm::PCaloHitContainer &, std::string n)
 
virtual double getEnergyDeposit (G4Step *step)
 
virtual void Initialize (G4HCofThisEvent *HCE)
 
virtual void PrintAll ()
 
virtual bool ProcessHits (G4GFlashSpot *aSpot, G4TouchableHistory *)
 
virtual ~CaloSD ()
 
- Public Member Functions inherited from SensitiveCaloDetector
 SensitiveCaloDetector (std::string &iname, const DDCompactView &cpv, SensitiveDetectorCatalog &clg, edm::ParameterSet const &p)
 
- Public Member Functions inherited from SensitiveDetector
virtual void AssignSD (std::string &vname)
 
Local3DPoint ConvertToLocal3DPoint (const G4ThreeVector &point)
 
Local3DPoint FinalStepPosition (G4Step *s, coordinates)
 
virtual std::vector< std::string > getNames ()
 
Local3DPoint InitialStepPosition (G4Step *s, coordinates)
 
std::string nameOfSD ()
 
void NaNTrap (G4Step *step)
 
void Register ()
 
 SensitiveDetector (std::string &iname, const DDCompactView &cpv, SensitiveDetectorCatalog &, edm::ParameterSet const &p)
 
virtual ~SensitiveDetector ()
 
- Public Member Functions inherited from Observer< const BeginOfRun * >
 Observer ()
 
void slotForUpdate (const BeginOfRun *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const BeginOfEvent * >
 Observer ()
 
void slotForUpdate (const BeginOfEvent *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const BeginOfTrack * >
 Observer ()
 
void slotForUpdate (const BeginOfTrack *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const EndOfTrack * >
 Observer ()
 
void slotForUpdate (const EndOfTrack *iT)
 
virtual ~Observer ()
 
- Public Member Functions inherited from Observer< const EndOfEvent * >
 Observer ()
 
void slotForUpdate (const EndOfEvent *iT)
 
virtual ~Observer ()
 

Protected Member Functions

virtual void initRun ()
 
- Protected Member Functions inherited from CaloSD
G4bool checkHit ()
 
virtual void clearHits ()
 
CaloG4HitcreateNewHit ()
 
virtual bool filterHit (CaloG4Hit *, double)
 
double getAttenuation (G4Step *aStep, double birk1, double birk2, double birk3)
 
virtual uint16_t getDepth (G4Step *)
 
int getNumberOfHits ()
 
double getResponseWt (G4Track *)
 
virtual G4bool getStepInfo (G4Step *aStep)
 
virtual int getTrackID (G4Track *)
 
G4bool hitExists ()
 
void resetForNewPrimary (const G4ThreeVector &, double)
 
G4ThreeVector setToGlobal (const G4ThreeVector &, const G4VTouchable *)
 
G4ThreeVector setToLocal (const G4ThreeVector &, const G4VTouchable *)
 
virtual void update (const BeginOfRun *)
 This routine will be called when the appropriate signal arrives. More...
 
virtual void update (const BeginOfEvent *)
 This routine will be called when the appropriate signal arrives. More...
 
virtual void update (const BeginOfTrack *trk)
 This routine will be called when the appropriate signal arrives. More...
 
virtual void update (const EndOfTrack *trk)
 This routine will be called when the appropriate signal arrives. More...
 
virtual void update (const ::EndOfEvent *)
 
void updateHit (CaloG4Hit *)
 
- Protected Member Functions inherited from Observer< const EndOfEvent * >
virtual void update (const EndOfEvent *)=0
 This routine will be called when the appropriate signal arrives. More...
 

Private Member Functions

int setTrackID (G4Step *step)
 

Private Attributes

std::vector
< ZdcShowerLibrary::Hit
hits
 
ZdcNumberingSchemenumberingScheme
 
ZdcShowerLibraryshowerLibrary
 
double thFibDir
 
bool useShowerHits
 
bool useShowerLibrary
 
int verbosity
 
double zdcHitEnergyCut
 

Additional Inherited Members

- Public Types inherited from SensitiveDetector
enum  coordinates { WorldCoordinates, LocalCoordinates }
 
- Protected Attributes inherited from CaloSD
int checkHits
 
double correctT
 
bool corrTOFBeam
 
CaloG4HitcurrentHit
 
CaloHitID currentID
 
float edepositEM
 
float edepositHAD
 
double eminHit
 
double eminHitD
 
G4int emPDG
 
double energyCut
 
G4ThreeVector entranceLocal
 
G4ThreeVector entrancePoint
 
G4int epPDG
 
bool forceSave
 
G4int gammaPDG
 
float incidentEnergy
 
double kmaxIon
 
double kmaxNeutron
 
double kmaxProton
 
const SimTrackManagerm_trackManager
 
G4ThreeVector posGlobal
 
G4StepPoint * preStepPoint
 
CaloHitID previousID
 
int primIDSaved
 
bool runInit
 
bool suppressHeavy
 
G4Track * theTrack
 
double tmaxHit
 
bool useMap
 

Detailed Description

Definition at line 14 of file ZdcSD.h.

Constructor & Destructor Documentation

ZdcSD::ZdcSD ( G4String  name,
const DDCompactView cpv,
SensitiveDetectorCatalog clg,
edm::ParameterSet const &  p,
const SimTrackManager manager 
)

Definition at line 23 of file ZdcSD.cc.

References edm::ParameterSet::getParameter(), setNumberingScheme(), showerLibrary, useShowerHits, useShowerLibrary, verbosity, and zdcHitEnergyCut.

25  :
26  CaloSD(name, cpv, clg, p, manager), numberingScheme(0) {
27  edm::ParameterSet m_ZdcSD = p.getParameter<edm::ParameterSet>("ZdcSD");
28  useShowerLibrary = m_ZdcSD.getParameter<bool>("UseShowerLibrary");
29  useShowerHits = m_ZdcSD.getParameter<bool>("UseShowerHits");
30  zdcHitEnergyCut = m_ZdcSD.getParameter<double>("ZdcHitEnergyCut")*GeV;
31  verbosity = m_ZdcSD.getParameter<int>("Verbosity");
32  int verbn = verbosity/10;
33  verbosity %= 10;
34  ZdcNumberingScheme* scheme;
35  scheme = new ZdcNumberingScheme(verbn);
36  setNumberingScheme(scheme);
37 
38  edm::LogInfo("ForwardSim")
39  << "***************************************************\n"
40  << "* *\n"
41  << "* Constructing a ZdcSD with name " << name <<" *\n"
42  << "* *\n"
43  << "***************************************************";
44 
45  edm::LogInfo("ForwardSim")
46  << "\nUse of shower library is set to "
47  << useShowerLibrary
48  << "\nUse of Shower hits method is set to "
49  << useShowerHits;
50 
51  edm::LogInfo("ForwardSim")
52  << "\nEnergy Threshold Cut set to "
53  << zdcHitEnergyCut/GeV
54  <<" (GeV)";
55 
56  if(useShowerLibrary){
57  showerLibrary = new ZdcShowerLibrary(name, cpv, p);
58  }
59 }
void setNumberingScheme(ZdcNumberingScheme *scheme)
Definition: ZdcSD.cc:418
T getParameter(std::string const &) const
int verbosity
Definition: ZdcSD.h:33
ZdcNumberingScheme * numberingScheme
Definition: ZdcSD.h:39
bool useShowerHits
Definition: ZdcSD.h:34
CaloSD(G4String aSDname, const DDCompactView &cpv, SensitiveDetectorCatalog &clg, edm::ParameterSet const &p, const SimTrackManager *, int tSlice=1, bool ignoreTkID=false)
Definition: CaloSD.cc:24
double zdcHitEnergyCut
Definition: ZdcSD.h:37
bool useShowerLibrary
Definition: ZdcSD.h:34
ZdcShowerLibrary * showerLibrary
Definition: ZdcSD.h:38
ZdcSD::~ZdcSD ( )
virtual

Definition at line 61 of file ZdcSD.cc.

References numberingScheme, and showerLibrary.

61  {
62 
64  if(showerLibrary)delete showerLibrary;
65 
66  edm::LogInfo("ForwardSim")
67  <<"end of ZdcSD\n";
68 }
ZdcNumberingScheme * numberingScheme
Definition: ZdcSD.h:39
ZdcShowerLibrary * showerLibrary
Definition: ZdcSD.h:38

Member Function Documentation

double ZdcSD::getEnergyDeposit ( G4Step *  aStep,
edm::ParameterSet const &  p 
)
virtual

Definition at line 182 of file ZdcSD.cc.

References a, beta, DeDxDiscriminatorTools::charge(), eta(), edm::ParameterSet::getParameter(), create_public_lumi_plots::log, LogDebug, max(), bookConverter::min, NULL, phi, pi, CaloSD::preStepPoint, alignCSCRings::r, mathSSE::sqrt(), funct::tan(), theta(), CaloSD::theTrack, and thFibDir.

182  {
183 
184  float NCherPhot = 0.;
185  //std::cout<<"I go through here"<<std::endl;
186 
187  if (aStep == NULL) {
188  LogDebug("ForwardSim") << "ZdcSD:: getEnergyDeposit: aStep is NULL!";
189  return 0;
190  } else {
191  // preStepPoint information
192  G4SteppingControl stepControlFlag = aStep->GetControlFlag();
193  G4StepPoint* preStepPoint = aStep->GetPreStepPoint();
194  G4VPhysicalVolume* currentPV = preStepPoint->GetPhysicalVolume();
195  G4String nameVolume = currentPV->GetName();
196 
197  G4ThreeVector hitPoint = preStepPoint->GetPosition();
198  G4ThreeVector hit_mom = preStepPoint->GetMomentumDirection();
199  G4double stepL = aStep->GetStepLength()/cm;
200  G4double beta = preStepPoint->GetBeta();
201  G4double charge = preStepPoint->GetCharge();
202 
203  // G4VProcess* curprocess = preStepPoint->GetProcessDefinedStep();
204  // G4String namePr = preStepPoint->GetProcessDefinedStep()->GetProcessName();
205  // G4LogicalVolume* lv = currentPV->GetLogicalVolume();
206  // G4Material* mat = lv->GetMaterial();
207  // G4double rad = mat->GetRadlen();
208 
209  // postStepPoint information
210  G4StepPoint* postStepPoint = aStep->GetPostStepPoint();
211  G4VPhysicalVolume* postPV = postStepPoint->GetPhysicalVolume();
212  G4String postnameVolume = postPV->GetName();
213 
214  // theTrack information
215  G4Track* theTrack = aStep->GetTrack();
216  G4String particleType = theTrack->GetDefinition()->GetParticleName();
217  G4int primaryID = theTrack->GetTrackID();
218  G4double entot = theTrack->GetTotalEnergy();
219  G4ThreeVector vert_mom = theTrack->GetVertexMomentumDirection();
220  G4ThreeVector localPoint = theTrack->GetTouchable()->GetHistory()->GetTopTransform().TransformPoint(hitPoint);
221 
222  // calculations
223  float costheta = vert_mom.z()/sqrt(vert_mom.x()*vert_mom.x()+
224  vert_mom.y()*vert_mom.y()+
225  vert_mom.z()*vert_mom.z());
226  float theta = acos(std::min(std::max(costheta,float(-1.)),float(1.)));
227  float eta = -log(tan(theta/2));
228  float phi = -100.;
229  if (vert_mom.x() != 0) phi = atan2(vert_mom.y(),vert_mom.x());
230  if (phi < 0.) phi += twopi;
231 
232  // Get the total energy deposit
233  double stepE = aStep->GetTotalEnergyDeposit();
234  LogDebug("ForwardSim")
235  << "ZdcSD:: getEnergyDeposit: "
236  <<"*****************HHHHHHHHHHHHHHHHHHHHHHHHHHLLLLLLLLLlllllllllll&&&&&&&&&&\n"
237  << " preStepPoint: " << nameVolume << "," << stepL << "," << stepE
238  << "," << beta << "," << charge << "\n"
239  << " postStepPoint: " << postnameVolume << "," << costheta << ","
240  << theta << "," << eta << "," << phi << "," << particleType << ","
241  << primaryID;
242 
243  float bThreshold = 0.67;
244  if ((beta > bThreshold) && (charge != 0) && (nameVolume == "ZDC_EMFiber" || nameVolume == "ZDC_HadFiber")) {
245  LogDebug("ForwardSim") << "ZdcSD:: getEnergyDeposit: pass ";
246 
247  float nMedium = 1.4925;
248  // float photEnSpectrDL = 10714.285714;
249  // photEnSpectrDL = (1./400.nm-1./700.nm)*10000000.cm/nm; /* cm-1 */
250 
251  float photEnSpectrDE = 1.24;
252  // E = 2pi*(1./137.)*(eV*cm/370.)/lambda = 12.389184*(eV*cm)/lambda
253  // Emax = 12.389184*(eV*cm)/400nm*10-7cm/nm = 3.01 eV
254  // Emin = 12.389184*(eV*cm)/700nm*10-7cm/nm = 1.77 eV
255  // delE = Emax - Emin = 1.24 eV
256 
257  float effPMTandTransport = 0.15;
258 
259  // Check these values
260  float thFullRefl = 23.;
261  float thFullReflRad = thFullRefl*pi/180.;
262 
263  edm::ParameterSet m_ZdcSD = p.getParameter<edm::ParameterSet>("ZdcSD");
264  thFibDir = m_ZdcSD.getParameter<double>("FiberDirection");
265  //float thFibDir = 90.;
266  float thFibDirRad = thFibDir*pi/180.;
267 
268  // at which theta the point is located:
269  // float th1 = hitPoint.theta();
270 
271  // theta of charged particle in LabRF(hit momentum direction):
272  float costh = hit_mom.z()/sqrt(hit_mom.x()*hit_mom.x()+
273  hit_mom.y()*hit_mom.y()+
274  hit_mom.z()*hit_mom.z());
275  float th = acos(std::min(std::max(costh,float(-1.)),float(1.)));
276  // just in case (can do both standard ranges of phi):
277  if (th < 0.) th += twopi;
278 
279  // theta of cone with Cherenkov photons w.r.t.direction of charged part.:
280  float costhcher =1./(nMedium*beta);
281  float thcher = acos(std::min(std::max(costhcher,float(-1.)),float(1.)));
282 
283  // diff thetas of charged part. and quartz direction in LabRF:
284  float DelFibPart = fabs(th - thFibDirRad);
285 
286  // define real distances:
287  float d = fabs(tan(th)-tan(thFibDirRad));
288 
289  // float a = fabs(tan(thFibDirRad)-tan(thFibDirRad+thFullReflRad));
290  // float r = fabs(tan(th)-tan(th+thcher));
291  float a = tan(thFibDirRad)+tan(fabs(thFibDirRad-thFullReflRad));
292  float r = tan(th)+tan(fabs(th-thcher));
293 
294  // std::cout.testOut << " d=|tan(" << th << ")-tan(" << thFibDirRad << ")| "
295  // << "=|" << tan(th) << "-" << tan(thFibDirRad) << "| = " << d;
296  // std::cout.testOut << " a=tan(" << thFibDirRad << ")=" << tan(thFibDirRad)
297  // << " + tan(|" << thFibDirRad << " - " << thFullReflRad << "|)="
298  // << tan(fabs(thFibDirRad-thFullReflRad)) << " = " << a;
299  // std::cout.testOut << " r=tan(" << th << ")=" << tan(th) << " + tan(|" << th
300  // << " - " << thcher << "|)=" << tan(fabs(th-thcher)) << " = " << r;
301 
302  // define losses d_qz in cone of full reflection inside quartz direction
303  float d_qz = -1;
304  float variant = -1;
305 
306  // if (d > (r+a))
307  if (DelFibPart > (thFullReflRad + thcher) ) {
308  variant = 0.; d_qz = 0.;
309  } else {
310  // if ((DelFibPart + thcher) < thFullReflRad ) [(d+r) < a]
311  if ((th + thcher) < (thFibDirRad+thFullReflRad) && (th - thcher) > (thFibDirRad-thFullReflRad) ) {
312  variant = 1.; d_qz = 1.;
313  } else {
314  // if ((thcher - DelFibPart ) > thFullReflRad ) [(r-d) > a]
315  if ((thFibDirRad + thFullReflRad) < (th + thcher) && (thFibDirRad - thFullReflRad) > (th - thcher) ) {
316  variant = 2.; d_qz = 0.;
317  } else {
318  // if ((thcher + DelFibPart ) > thFullReflRad && thcher < (DelFibPart+thFullReflRad) ) { [(r+d) > a && (r-d) < a)]
319  variant = 3.; // d_qz is calculated below
320 
321  // use crossed length of circles(cone projection) - dC1/dC2 :
322  float arg_arcos = 0.;
323  float tan_arcos = 2.*a*d;
324  if (tan_arcos != 0.) arg_arcos =(r*r-a*a-d*d)/tan_arcos;
325  // std::cout.testOut << " d_qz: " << r << "," << a << "," << d << " " << tan_arcos << " " << arg_arcos;
326  arg_arcos = fabs(arg_arcos);
327  // std::cout.testOut << "," << arg_arcos;
328  float th_arcos = acos(std::min(std::max(arg_arcos,float(-1.)),float(1.)));
329  // std::cout.testOut << " " << th_arcos;
330  d_qz = th_arcos/pi/2.;
331  // std::cout.testOut << " " << d_qz;
332  d_qz = fabs(d_qz);
333  // std::cout.testOut << "," << d_qz;
334  }
335  }
336  }
337 
338  // std::cout<< std::endl;
339 
340  double meanNCherPhot = 0.;
341  G4int poissNCherPhot = 0;
342  if (d_qz > 0) {
343  meanNCherPhot = 370.*charge*charge*( 1. - 1./(nMedium*nMedium*beta*beta) ) * photEnSpectrDE * stepL;
344 
345  // dLamdX: meanNCherPhot = (2.*pi/137.)*charge*charge*
346  // ( 1. - 1./(nMedium*nMedium*beta*beta) ) * photEnSpectrDL * stepL;
347  poissNCherPhot = (G4int) G4Poisson(meanNCherPhot);
348 
349  if (poissNCherPhot < 0) poissNCherPhot = 0;
350 
351  // NCherPhot = meanNCherPhot;
352  NCherPhot = poissNCherPhot * effPMTandTransport * d_qz;
353  }
354 
355  LogDebug("ForwardSim")
356  << "ZdcSD:: getEnergyDeposit: gED: "
357  << stepE
358  << "," << costh
359  << "," << th
360  << "," << costhcher
361  << "," << thcher
362  << "," << DelFibPart
363  << "," << d
364  << "," << a
365  << "," << r
366  << "," << hitPoint
367  << "," << hit_mom
368  << "," << stepControlFlag
369  << "," << entot
370  << "," << vert_mom
371  << "," << localPoint
372  << "," << charge
373  << "," << beta
374  << "," << stepL
375  << "," << d_qz
376  << "," << variant
377  << "," << meanNCherPhot
378  << "," << poissNCherPhot
379  << "," << NCherPhot;
380  // --constants-----------------
381  // << "," << photEnSpectrDE
382  // << "," << nMedium
383  // << "," << bThreshold
384  // << "," << thFibDirRad
385  // << "," << thFullReflRad
386  // << "," << effPMTandTransport
387  // --other variables-----------
388  // << "," << curprocess
389  // << "," << nameProcess
390  // << "," << name
391  // << "," << rad
392  // << "," << mat
393 
394  } else {
395  // determine failure mode: beta, charge, and/or nameVolume
396  if (beta <= bThreshold)
397  LogDebug("ForwardSim")
398  << "ZdcSD:: getEnergyDeposit: fail beta=" << beta;
399  if (charge == 0)
400  LogDebug("ForwardSim")
401  << "ZdcSD:: getEnergyDeposit: fail charge=0";
402  if ( !(nameVolume == "ZDC_EMFiber" || nameVolume == "ZDC_HadFiber") )
403  LogDebug("ForwardSim")
404  << "ZdcSD:: getEnergyDeposit: fail nv=" << nameVolume;
405  }
406 
407  return NCherPhot;
408  }
409 }
#define LogDebug(id)
const double beta
double thFibDir
Definition: ZdcSD.h:36
T getParameter(std::string const &) const
Geom::Theta< T > theta() const
#define NULL
Definition: scimark2.h:8
T eta() const
double charge(const std::vector< uint8_t > &Ampls)
const T & max(const T &a, const T &b)
T sqrt(T t)
Definition: SSEVec.h:48
Tan< T >::type tan(const T &t)
Definition: Tan.h:22
G4Track * theTrack
Definition: CaloSD.h:118
G4StepPoint * preStepPoint
Definition: CaloSD.h:120
double a
Definition: hdecay.h:121
double pi
Definition: DDAxes.h:10
void ZdcSD::getFromLibrary ( G4Step *  step)

Definition at line 98 of file ZdcSD.cc.

References CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::currentID, CaloSD::edepositEM, CaloSD::edepositHAD, CaloSD::entranceLocal, CaloSD::entrancePoint, CaloG4Hit::getEM(), CaloG4Hit::getEntryLocal(), CaloG4Hit::getHadr(), ZdcShowerLibrary::getHits(), CaloG4Hit::getIncidentEnergy(), CaloG4Hit::getTrackID(), CaloG4Hit::getUnitID(), GetVolume(), hits, i, GetRecoTauVFromDQM_MC_cff::kk, LogDebug, convertSQLiteXML::ok, CaloSD::posGlobal, CaloSD::preStepPoint, CaloSD::previousID, CaloSD::resetForNewPrimary(), CaloHitID::setID(), CaloG4Hit::setIncidentEnergy(), setTrackID(), showerLibrary, CaloSD::theTrack, cond::rpcobgas::time, CaloSD::updateHit(), and zdcHitEnergyCut.

Referenced by ProcessHits().

98  {
99  bool ok = true;
100 
101  preStepPoint = aStep->GetPreStepPoint();
102  theTrack = aStep->GetTrack();
103 
104  double etrack = preStepPoint->GetKineticEnergy();
105  int primaryID = setTrackID(aStep);
106 
107  hits.clear();
108 
109  /*
110  if (etrack >= zdcHitEnergyCut) {
111  primaryID = theTrack->GetTrackID();
112  } else {
113  primaryID = theTrack->GetParentID();
114  if (primaryID == 0) primaryID = theTrack->GetTrackID();
115  }
116  */
117 
118  // Reset entry point for new primary
119  posGlobal = preStepPoint->GetPosition();
120  resetForNewPrimary(posGlobal, etrack);
121 
122  if (etrack >= zdcHitEnergyCut){
123  // create hits only if above threshold
124 
125  LogDebug("ForwardSim")
126  //std::cout
127  <<"----------------New track------------------------------\n"
128  <<"Incident EnergyTrack: "<<etrack<< " MeV \n"
129  <<"Zdc Cut Energy for Hits: "<<zdcHitEnergyCut<<" MeV \n"
130  << "ZdcSD::getFromLibrary " <<hits.size() <<" hits for "
131  << GetName() << " of " << primaryID << " with "
132  << theTrack->GetDefinition()->GetParticleName() << " of "
133  << preStepPoint->GetKineticEnergy()<< " MeV\n";
134 
135  hits.swap(showerLibrary->getHits(aStep, ok));
136  }
137 
138  entrancePoint = preStepPoint->GetPosition();
139  for (unsigned int i=0; i<hits.size(); i++) {
140  posGlobal = hits[i].position;
141  entranceLocal = hits[i].entryLocal;
142  double time = hits[i].time;
143  unsigned int unitID = hits[i].detID;
144  edepositHAD = hits[i].DeHad;
145  edepositEM = hits[i].DeEM;
146  currentID.setID(unitID, time, primaryID);
147 
148  // check if it is in the same unit and timeslice as the previous on
149  if (currentID == previousID) {
151  } else {
153  }
154 
155  // currentHit->setPosition(hitPoint.x(),hitPoint.y(),hitPoint.z());
156  // currentHit->setEM(eEM);
157  // currentHit->setHadr(eHAD);
158  currentHit->setIncidentEnergy(etrack);
159  // currentHit->setEntryLocal(hitEntry.x(),hitEntry.y(),hitEntry.z());
160 
161  LogDebug("ForwardSim") << "ZdcSD: Final Hit number:"<<i<<"-->"
162  <<"New HitID: "<<currentHit->getUnitID()
163  <<" New Hit trackID: "<<currentHit->getTrackID()
164  <<" New EM Energy: "<<currentHit->getEM()/GeV
165  <<" New HAD Energy: "<<currentHit->getHadr()/GeV
166  <<" New HitEntryPoint: "<<currentHit->getEntryLocal()
167  <<" New IncidentEnergy: "<<currentHit->getIncidentEnergy()/GeV
168  <<" New HitPosition: "<<posGlobal;
169  }
170 
171  //Now kill the current track
172  if (ok) {
173  theTrack->SetTrackStatus(fStopAndKill);
174  G4TrackVector tv = *(aStep->GetSecondary());
175  for (unsigned int kk=0; kk<tv.size(); kk++) {
176  if (tv[kk]->GetVolume() == preStepPoint->GetPhysicalVolume())
177  tv[kk]->SetTrackStatus(fStopAndKill);
178  }
179  }
180 }
#define LogDebug(id)
float edepositEM
Definition: CaloSD.h:121
int i
Definition: DBlmapReader.cc:9
void updateHit(CaloG4Hit *)
Definition: CaloSD.cc:440
std::vector< ZdcShowerLibrary::Hit > hits
Definition: ZdcSD.h:41
void setIncidentEnergy(double e)
Definition: CaloG4Hit.h:66
double getIncidentEnergy() const
Definition: CaloG4Hit.h:65
G4ThreeVector posGlobal
Definition: CaloSD.h:113
std::vector< Hit > & getHits(G4Step *aStep, bool &ok)
void resetForNewPrimary(const G4ThreeVector &, double)
Definition: CaloSD.cc:454
float edepositHAD
Definition: CaloSD.h:121
CaloHitID previousID
Definition: CaloSD.h:117
CaloG4Hit * currentHit
Definition: CaloSD.h:128
G4Track * theTrack
Definition: CaloSD.h:118
void setID(uint32_t unitID, double timeSlice, int trackID, uint16_t depth=0)
Definition: CaloHitID.cc:44
G4StepPoint * preStepPoint
Definition: CaloSD.h:120
static const G4LogicalVolume * GetVolume(const std::string &name)
int getTrackID() const
Definition: CaloG4Hit.h:68
CaloHitID currentID
Definition: CaloSD.h:117
double getEM() const
Definition: CaloG4Hit.h:59
double zdcHitEnergyCut
Definition: ZdcSD.h:37
math::XYZPoint getEntryLocal() const
Definition: CaloG4Hit.h:53
int setTrackID(G4Step *step)
Definition: ZdcSD.cc:427
uint32_t getUnitID() const
Definition: CaloG4Hit.h:69
CaloG4Hit * createNewHit()
Definition: CaloSD.cc:363
G4ThreeVector entrancePoint
Definition: CaloSD.h:111
G4ThreeVector entranceLocal
Definition: CaloSD.h:112
double getHadr() const
Definition: CaloG4Hit.h:62
ZdcShowerLibrary * showerLibrary
Definition: ZdcSD.h:38
void ZdcSD::initRun ( )
protectedvirtual

Reimplemented from CaloSD.

Definition at line 70 of file ZdcSD.cc.

References hits, ZdcShowerLibrary::initRun(), showerLibrary, and useShowerLibrary.

70  {
71  if(useShowerLibrary){
72  G4ParticleTable *theParticleTable = G4ParticleTable::GetParticleTable();
73  showerLibrary->initRun(theParticleTable);
74  }
75  hits.clear();
76 }
std::vector< ZdcShowerLibrary::Hit > hits
Definition: ZdcSD.h:41
void initRun(G4ParticleTable *theParticleTable)
bool useShowerLibrary
Definition: ZdcSD.h:34
ZdcShowerLibrary * showerLibrary
Definition: ZdcSD.h:38
bool ZdcSD::ProcessHits ( G4Step *  step,
G4TouchableHistory *  tHistory 
)
virtual

Reimplemented from CaloSD.

Definition at line 78 of file ZdcSD.cc.

References CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::edepositEM, CaloSD::edepositHAD, getFromLibrary(), CaloSD::getStepInfo(), CaloSD::hitExists(), SensitiveDetector::NaNTrap(), NULL, useShowerHits, and useShowerLibrary.

78  {
79 
80  NaNTrap( aStep ) ;
81 
82  if (aStep == NULL) {
83  return true;
84  } else {
85  if(useShowerLibrary){
86  getFromLibrary(aStep);
87  }
88  if(useShowerHits){
89  if (getStepInfo(aStep)) {
90  if (hitExists() == false && edepositEM+edepositHAD>0.)
92  }
93  }
94  }
95  return true;
96 }
float edepositEM
Definition: CaloSD.h:121
#define NULL
Definition: scimark2.h:8
bool useShowerHits
Definition: ZdcSD.h:34
float edepositHAD
Definition: CaloSD.h:121
CaloG4Hit * currentHit
Definition: CaloSD.h:128
void NaNTrap(G4Step *step)
virtual G4bool getStepInfo(G4Step *aStep)
Definition: CaloSD.cc:250
void getFromLibrary(G4Step *step)
Definition: ZdcSD.cc:98
G4bool hitExists()
Definition: CaloSD.cc:310
bool useShowerLibrary
Definition: ZdcSD.h:34
CaloG4Hit * createNewHit()
Definition: CaloSD.cc:363
uint32_t ZdcSD::setDetUnitId ( G4Step *  step)
virtual

Implements CaloSD.

Definition at line 411 of file ZdcSD.cc.

References ZdcNumberingScheme::getUnitID(), and numberingScheme.

411  {
412  uint32_t returnNumber = 0;
413  if(numberingScheme != 0)returnNumber = numberingScheme->getUnitID(aStep);
414  // edm: return (numberingScheme == 0 ? 0 : numberingScheme->getUnitID(aStep));
415  return returnNumber;
416 }
virtual unsigned int getUnitID(const G4Step *aStep) const
ZdcNumberingScheme * numberingScheme
Definition: ZdcSD.h:39
void ZdcSD::setNumberingScheme ( ZdcNumberingScheme scheme)

Definition at line 418 of file ZdcSD.cc.

References numberingScheme.

Referenced by ZdcSD().

418  {
419  if (scheme != 0) {
420  edm::LogInfo("ForwardSim") << "ZdcSD: updates numbering scheme for "
421  << GetName();
422  if (numberingScheme) delete numberingScheme;
423  numberingScheme = scheme;
424  }
425 }
ZdcNumberingScheme * numberingScheme
Definition: ZdcSD.h:39
int ZdcSD::setTrackID ( G4Step *  step)
private

Definition at line 427 of file ZdcSD.cc.

References TrackInformation::getIDonCaloSurface(), LogDebug, CaloSD::preStepPoint, CaloSD::previousID, CaloSD::resetForNewPrimary(), CaloSD::theTrack, and CaloHitID::trackID().

Referenced by getFromLibrary().

427  {
428  theTrack = aStep->GetTrack();
429  double etrack = preStepPoint->GetKineticEnergy();
430  TrackInformation * trkInfo = (TrackInformation *)(theTrack->GetUserInformation());
431  int primaryID = trkInfo->getIDonCaloSurface();
432  if (primaryID == 0) {
433 #ifdef DebugLog
434  LogDebug("ZdcSD") << "ZdcSD: Problem with primaryID **** set by force "
435  << "to TkID **** " << theTrack->GetTrackID();
436 #endif
437  primaryID = theTrack->GetTrackID();
438  }
439  if (primaryID != previousID.trackID())
440  resetForNewPrimary(preStepPoint->GetPosition(), etrack);
441  return primaryID;
442 }
#define LogDebug(id)
int getIDonCaloSurface() const
void resetForNewPrimary(const G4ThreeVector &, double)
Definition: CaloSD.cc:454
int trackID() const
Definition: CaloHitID.h:25
CaloHitID previousID
Definition: CaloSD.h:117
G4Track * theTrack
Definition: CaloSD.h:118
G4StepPoint * preStepPoint
Definition: CaloSD.h:120

Member Data Documentation

std::vector<ZdcShowerLibrary::Hit> ZdcSD::hits
private

Definition at line 41 of file ZdcSD.h.

Referenced by getFromLibrary(), and initRun().

ZdcNumberingScheme* ZdcSD::numberingScheme
private

Definition at line 39 of file ZdcSD.h.

Referenced by setDetUnitId(), setNumberingScheme(), and ~ZdcSD().

ZdcShowerLibrary* ZdcSD::showerLibrary
private

Definition at line 38 of file ZdcSD.h.

Referenced by getFromLibrary(), initRun(), ZdcSD(), and ~ZdcSD().

double ZdcSD::thFibDir
private

Definition at line 36 of file ZdcSD.h.

Referenced by getEnergyDeposit().

bool ZdcSD::useShowerHits
private

Definition at line 34 of file ZdcSD.h.

Referenced by ProcessHits(), and ZdcSD().

bool ZdcSD::useShowerLibrary
private

Definition at line 34 of file ZdcSD.h.

Referenced by initRun(), ProcessHits(), and ZdcSD().

int ZdcSD::verbosity
private

Definition at line 33 of file ZdcSD.h.

Referenced by ZdcSD().

double ZdcSD::zdcHitEnergyCut
private

Definition at line 37 of file ZdcSD.h.

Referenced by getFromLibrary(), and ZdcSD().