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#include <ZdcSD.h>
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 () |
Protected Member Functions | |
| virtual void | initRun () |
Private Member Functions | |
| int | setTrackID (G4Step *step) |
Private Attributes | |
| std::vector < ZdcShowerLibrary::Hit > | hits |
| ZdcNumberingScheme * | numberingScheme |
| ZdcShowerLibrary * | showerLibrary |
| double | thFibDir |
| bool | useShowerHits |
| bool | useShowerLibrary |
| int | verbosity |
| double | zdcHitEnergyCut |
| ZdcSD::ZdcSD | ( | G4String | name, |
| const DDCompactView & | cpv, | ||
| SensitiveDetectorCatalog & | clg, | ||
| edm::ParameterSet const & | p, | ||
| const SimTrackManager * | manager | ||
| ) |
Definition at line 21 of file ZdcSD.cc.
References edm::ParameterSet::getParameter(), setNumberingScheme(), showerLibrary, useShowerHits, useShowerLibrary, verbosity, and zdcHitEnergyCut.
: CaloSD(name, cpv, clg, p, manager), numberingScheme(0) { edm::ParameterSet m_ZdcSD = p.getParameter<edm::ParameterSet>("ZdcSD"); useShowerLibrary = m_ZdcSD.getParameter<bool>("UseShowerLibrary"); useShowerHits = m_ZdcSD.getParameter<bool>("UseShowerHits"); zdcHitEnergyCut = m_ZdcSD.getParameter<double>("ZdcHitEnergyCut")*GeV; verbosity = m_ZdcSD.getParameter<int>("Verbosity"); int verbn = verbosity/10; verbosity %= 10; ZdcNumberingScheme* scheme; scheme = new ZdcNumberingScheme(verbn); setNumberingScheme(scheme); edm::LogInfo("ForwardSim") << "***************************************************\n" << "* *\n" << "* Constructing a ZdcSD with name " << name <<" *\n" << "* *\n" << "***************************************************"; edm::LogInfo("ForwardSim") << "\nUse of shower library is set to " << useShowerLibrary << "\nUse of Shower hits method is set to " << useShowerHits; edm::LogInfo("ForwardSim") << "\nEnergy Threshold Cut set to " << zdcHitEnergyCut/GeV <<" (GeV)"; if(useShowerLibrary){ showerLibrary = new ZdcShowerLibrary(name, cpv, p); } }
| ZdcSD::~ZdcSD | ( | ) | [virtual] |
Definition at line 59 of file ZdcSD.cc.
References numberingScheme, and showerLibrary.
{
if(numberingScheme) delete numberingScheme;
if(showerLibrary)delete showerLibrary;
edm::LogInfo("ForwardSim")
<<"end of ZdcSD\n";
}
| double ZdcSD::getEnergyDeposit | ( | G4Step * | aStep, |
| edm::ParameterSet const & | p | ||
| ) | [virtual] |
Definition at line 180 of file ZdcSD.cc.
References a, beta, DeDxDiscriminatorTools::charge(), eta(), edm::ParameterSet::getParameter(), create_public_lumi_plots::log, LogDebug, max(), min, NULL, phi, pi, CaloSD::preStepPoint, alignCSCRings::r, mathSSE::sqrt(), funct::tan(), theta(), CaloSD::theTrack, and thFibDir.
{
float NCherPhot = 0.;
//std::cout<<"I go through here"<<std::endl;
if (aStep == NULL) {
LogDebug("ForwardSim") << "ZdcSD:: getEnergyDeposit: aStep is NULL!";
return 0;
} else {
// preStepPoint information
G4SteppingControl stepControlFlag = aStep->GetControlFlag();
G4StepPoint* preStepPoint = aStep->GetPreStepPoint();
G4VPhysicalVolume* currentPV = preStepPoint->GetPhysicalVolume();
G4String nameVolume = currentPV->GetName();
G4ThreeVector hitPoint = preStepPoint->GetPosition();
G4ThreeVector hit_mom = preStepPoint->GetMomentumDirection();
G4double stepL = aStep->GetStepLength()/cm;
G4double beta = preStepPoint->GetBeta();
G4double charge = preStepPoint->GetCharge();
// G4VProcess* curprocess = preStepPoint->GetProcessDefinedStep();
// G4String namePr = preStepPoint->GetProcessDefinedStep()->GetProcessName();
// G4LogicalVolume* lv = currentPV->GetLogicalVolume();
// G4Material* mat = lv->GetMaterial();
// G4double rad = mat->GetRadlen();
// postStepPoint information
G4StepPoint* postStepPoint = aStep->GetPostStepPoint();
G4VPhysicalVolume* postPV = postStepPoint->GetPhysicalVolume();
G4String postnameVolume = postPV->GetName();
// theTrack information
G4Track* theTrack = aStep->GetTrack();
G4String particleType = theTrack->GetDefinition()->GetParticleName();
G4int primaryID = theTrack->GetTrackID();
G4double entot = theTrack->GetTotalEnergy();
G4ThreeVector vert_mom = theTrack->GetVertexMomentumDirection();
G4ThreeVector localPoint = theTrack->GetTouchable()->GetHistory()->GetTopTransform().TransformPoint(hitPoint);
// calculations
float costheta = vert_mom.z()/sqrt(vert_mom.x()*vert_mom.x()+
vert_mom.y()*vert_mom.y()+
vert_mom.z()*vert_mom.z());
float theta = acos(std::min(std::max(costheta,float(-1.)),float(1.)));
float eta = -log(tan(theta/2));
float phi = -100.;
if (vert_mom.x() != 0) phi = atan2(vert_mom.y(),vert_mom.x());
if (phi < 0.) phi += twopi;
// Get the total energy deposit
double stepE = aStep->GetTotalEnergyDeposit();
LogDebug("ForwardSim")
<< "ZdcSD:: getEnergyDeposit: "
<<"*****************HHHHHHHHHHHHHHHHHHHHHHHHHHLLLLLLLLLlllllllllll&&&&&&&&&&\n"
<< " preStepPoint: " << nameVolume << "," << stepL << "," << stepE
<< "," << beta << "," << charge << "\n"
<< " postStepPoint: " << postnameVolume << "," << costheta << ","
<< theta << "," << eta << "," << phi << "," << particleType << ","
<< primaryID;
float bThreshold = 0.67;
if ((beta > bThreshold) && (charge != 0) && (nameVolume == "ZDC_EMFiber" || nameVolume == "ZDC_HadFiber")) {
LogDebug("ForwardSim") << "ZdcSD:: getEnergyDeposit: pass ";
float nMedium = 1.4925;
// float photEnSpectrDL = 10714.285714;
// photEnSpectrDL = (1./400.nm-1./700.nm)*10000000.cm/nm; /* cm-1 */
float photEnSpectrDE = 1.24;
// E = 2pi*(1./137.)*(eV*cm/370.)/lambda = 12.389184*(eV*cm)/lambda
// Emax = 12.389184*(eV*cm)/400nm*10-7cm/nm = 3.01 eV
// Emin = 12.389184*(eV*cm)/700nm*10-7cm/nm = 1.77 eV
// delE = Emax - Emin = 1.24 eV
float effPMTandTransport = 0.15;
// Check these values
float thFullRefl = 23.;
float thFullReflRad = thFullRefl*pi/180.;
edm::ParameterSet m_ZdcSD = p.getParameter<edm::ParameterSet>("ZdcSD");
thFibDir = m_ZdcSD.getParameter<double>("FiberDirection");
//float thFibDir = 90.;
float thFibDirRad = thFibDir*pi/180.;
// at which theta the point is located:
// float th1 = hitPoint.theta();
// theta of charged particle in LabRF(hit momentum direction):
float costh = hit_mom.z()/sqrt(hit_mom.x()*hit_mom.x()+
hit_mom.y()*hit_mom.y()+
hit_mom.z()*hit_mom.z());
float th = acos(std::min(std::max(costh,float(-1.)),float(1.)));
// just in case (can do both standard ranges of phi):
if (th < 0.) th += twopi;
// theta of cone with Cherenkov photons w.r.t.direction of charged part.:
float costhcher =1./(nMedium*beta);
float thcher = acos(std::min(std::max(costhcher,float(-1.)),float(1.)));
// diff thetas of charged part. and quartz direction in LabRF:
float DelFibPart = fabs(th - thFibDirRad);
// define real distances:
float d = fabs(tan(th)-tan(thFibDirRad));
// float a = fabs(tan(thFibDirRad)-tan(thFibDirRad+thFullReflRad));
// float r = fabs(tan(th)-tan(th+thcher));
float a = tan(thFibDirRad)+tan(fabs(thFibDirRad-thFullReflRad));
float r = tan(th)+tan(fabs(th-thcher));
// std::cout.testOut << " d=|tan(" << th << ")-tan(" << thFibDirRad << ")| "
// << "=|" << tan(th) << "-" << tan(thFibDirRad) << "| = " << d;
// std::cout.testOut << " a=tan(" << thFibDirRad << ")=" << tan(thFibDirRad)
// << " + tan(|" << thFibDirRad << " - " << thFullReflRad << "|)="
// << tan(fabs(thFibDirRad-thFullReflRad)) << " = " << a;
// std::cout.testOut << " r=tan(" << th << ")=" << tan(th) << " + tan(|" << th
// << " - " << thcher << "|)=" << tan(fabs(th-thcher)) << " = " << r;
// define losses d_qz in cone of full reflection inside quartz direction
float d_qz = -1;
float variant = -1;
// if (d > (r+a))
if (DelFibPart > (thFullReflRad + thcher) ) {
variant = 0.; d_qz = 0.;
} else {
// if ((DelFibPart + thcher) < thFullReflRad ) [(d+r) < a]
if ((th + thcher) < (thFibDirRad+thFullReflRad) && (th - thcher) > (thFibDirRad-thFullReflRad) ) {
variant = 1.; d_qz = 1.;
} else {
// if ((thcher - DelFibPart ) > thFullReflRad ) [(r-d) > a]
if ((thFibDirRad + thFullReflRad) < (th + thcher) && (thFibDirRad - thFullReflRad) > (th - thcher) ) {
variant = 2.; d_qz = 0.;
} else {
// if ((thcher + DelFibPart ) > thFullReflRad && thcher < (DelFibPart+thFullReflRad) ) { [(r+d) > a && (r-d) < a)]
variant = 3.; // d_qz is calculated below
// use crossed length of circles(cone projection) - dC1/dC2 :
float arg_arcos = 0.;
float tan_arcos = 2.*a*d;
if (tan_arcos != 0.) arg_arcos =(r*r-a*a-d*d)/tan_arcos;
// std::cout.testOut << " d_qz: " << r << "," << a << "," << d << " " << tan_arcos << " " << arg_arcos;
arg_arcos = fabs(arg_arcos);
// std::cout.testOut << "," << arg_arcos;
float th_arcos = acos(std::min(std::max(arg_arcos,float(-1.)),float(1.)));
// std::cout.testOut << " " << th_arcos;
d_qz = th_arcos/pi/2.;
// std::cout.testOut << " " << d_qz;
d_qz = fabs(d_qz);
// std::cout.testOut << "," << d_qz;
}
}
}
// std::cout<< std::endl;
double meanNCherPhot = 0.;
G4int poissNCherPhot = 0;
if (d_qz > 0) {
meanNCherPhot = 370.*charge*charge*( 1. - 1./(nMedium*nMedium*beta*beta) ) * photEnSpectrDE * stepL;
// dLamdX: meanNCherPhot = (2.*pi/137.)*charge*charge*
// ( 1. - 1./(nMedium*nMedium*beta*beta) ) * photEnSpectrDL * stepL;
poissNCherPhot = (G4int) G4Poisson(meanNCherPhot);
if (poissNCherPhot < 0) poissNCherPhot = 0;
// NCherPhot = meanNCherPhot;
NCherPhot = poissNCherPhot * effPMTandTransport * d_qz;
}
LogDebug("ForwardSim")
<< "ZdcSD:: getEnergyDeposit: gED: "
<< stepE
<< "," << costh
<< "," << th
<< "," << costhcher
<< "," << thcher
<< "," << DelFibPart
<< "," << d
<< "," << a
<< "," << r
<< "," << hitPoint
<< "," << hit_mom
<< "," << stepControlFlag
<< "," << entot
<< "," << vert_mom
<< "," << localPoint
<< "," << charge
<< "," << beta
<< "," << stepL
<< "," << d_qz
<< "," << variant
<< "," << meanNCherPhot
<< "," << poissNCherPhot
<< "," << NCherPhot;
// --constants-----------------
// << "," << photEnSpectrDE
// << "," << nMedium
// << "," << bThreshold
// << "," << thFibDirRad
// << "," << thFullReflRad
// << "," << effPMTandTransport
// --other variables-----------
// << "," << curprocess
// << "," << nameProcess
// << "," << name
// << "," << rad
// << "," << mat
} else {
// determine failure mode: beta, charge, and/or nameVolume
if (beta <= bThreshold)
LogDebug("ForwardSim")
<< "ZdcSD:: getEnergyDeposit: fail beta=" << beta;
if (charge == 0)
LogDebug("ForwardSim")
<< "ZdcSD:: getEnergyDeposit: fail charge=0";
if ( !(nameVolume == "ZDC_EMFiber" || nameVolume == "ZDC_HadFiber") )
LogDebug("ForwardSim")
<< "ZdcSD:: getEnergyDeposit: fail nv=" << nameVolume;
}
return NCherPhot;
}
}
| void ZdcSD::getFromLibrary | ( | G4Step * | step | ) |
Definition at line 96 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, 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().
{
bool ok = true;
preStepPoint = aStep->GetPreStepPoint();
theTrack = aStep->GetTrack();
double etrack = preStepPoint->GetKineticEnergy();
int primaryID = setTrackID(aStep);
hits.clear();
/*
if (etrack >= zdcHitEnergyCut) {
primaryID = theTrack->GetTrackID();
} else {
primaryID = theTrack->GetParentID();
if (primaryID == 0) primaryID = theTrack->GetTrackID();
}
*/
// Reset entry point for new primary
posGlobal = preStepPoint->GetPosition();
resetForNewPrimary(posGlobal, etrack);
if (etrack >= zdcHitEnergyCut){
// create hits only if above threshold
LogDebug("ForwardSim")
//std::cout
<<"----------------New track------------------------------\n"
<<"Incident EnergyTrack: "<<etrack<< " MeV \n"
<<"Zdc Cut Energy for Hits: "<<zdcHitEnergyCut<<" MeV \n"
<< "ZdcSD::getFromLibrary " <<hits.size() <<" hits for "
<< GetName() << " of " << primaryID << " with "
<< theTrack->GetDefinition()->GetParticleName() << " of "
<< preStepPoint->GetKineticEnergy()<< " MeV\n";
hits.swap(showerLibrary->getHits(aStep, ok));
}
entrancePoint = preStepPoint->GetPosition();
for (unsigned int i=0; i<hits.size(); i++) {
posGlobal = hits[i].position;
entranceLocal = hits[i].entryLocal;
double time = hits[i].time;
unsigned int unitID = hits[i].detID;
edepositHAD = hits[i].DeHad;
edepositEM = hits[i].DeEM;
currentID.setID(unitID, time, primaryID);
// check if it is in the same unit and timeslice as the previous on
if (currentID == previousID) {
updateHit(currentHit);
} else {
currentHit = createNewHit();
}
// currentHit->setPosition(hitPoint.x(),hitPoint.y(),hitPoint.z());
// currentHit->setEM(eEM);
// currentHit->setHadr(eHAD);
currentHit->setIncidentEnergy(etrack);
// currentHit->setEntryLocal(hitEntry.x(),hitEntry.y(),hitEntry.z());
LogDebug("ForwardSim") << "ZdcSD: Final Hit number:"<<i<<"-->"
<<"New HitID: "<<currentHit->getUnitID()
<<" New Hit trackID: "<<currentHit->getTrackID()
<<" New EM Energy: "<<currentHit->getEM()/GeV
<<" New HAD Energy: "<<currentHit->getHadr()/GeV
<<" New HitEntryPoint: "<<currentHit->getEntryLocal()
<<" New IncidentEnergy: "<<currentHit->getIncidentEnergy()/GeV
<<" New HitPosition: "<<posGlobal;
}
//Now kill the current track
if (ok) {
theTrack->SetTrackStatus(fStopAndKill);
G4TrackVector tv = *(aStep->GetSecondary());
for (unsigned int kk=0; kk<tv.size(); kk++) {
if (tv[kk]->GetVolume() == preStepPoint->GetPhysicalVolume())
tv[kk]->SetTrackStatus(fStopAndKill);
}
}
}
| void ZdcSD::initRun | ( | ) | [protected, virtual] |
Reimplemented from CaloSD.
Definition at line 68 of file ZdcSD.cc.
References hits, ZdcShowerLibrary::initRun(), showerLibrary, and useShowerLibrary.
{
if(useShowerLibrary){
G4ParticleTable *theParticleTable = G4ParticleTable::GetParticleTable();
showerLibrary->initRun(theParticleTable);
}
hits.clear();
}
| bool ZdcSD::ProcessHits | ( | G4Step * | step, |
| G4TouchableHistory * | tHistory | ||
| ) | [virtual] |
Reimplemented from CaloSD.
Definition at line 76 of file ZdcSD.cc.
References CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::edepositEM, CaloSD::edepositHAD, getFromLibrary(), CaloSD::getStepInfo(), CaloSD::hitExists(), SensitiveDetector::NaNTrap(), NULL, useShowerHits, and useShowerLibrary.
{
NaNTrap( aStep ) ;
if (aStep == NULL) {
return true;
} else {
if(useShowerLibrary){
getFromLibrary(aStep);
}
if(useShowerHits){
if (getStepInfo(aStep)) {
if (hitExists() == false && edepositEM+edepositHAD>0.)
currentHit = CaloSD::createNewHit();
}
}
}
return true;
}
| uint32_t ZdcSD::setDetUnitId | ( | G4Step * | step | ) | [virtual] |
Implements CaloSD.
Definition at line 409 of file ZdcSD.cc.
References ZdcNumberingScheme::getUnitID(), and numberingScheme.
{
uint32_t returnNumber = 0;
if(numberingScheme != 0)returnNumber = numberingScheme->getUnitID(aStep);
// edm: return (numberingScheme == 0 ? 0 : numberingScheme->getUnitID(aStep));
return returnNumber;
}
| void ZdcSD::setNumberingScheme | ( | ZdcNumberingScheme * | scheme | ) |
Definition at line 416 of file ZdcSD.cc.
References numberingScheme.
Referenced by ZdcSD().
{
if (scheme != 0) {
edm::LogInfo("ForwardSim") << "ZdcSD: updates numbering scheme for "
<< GetName();
if (numberingScheme) delete numberingScheme;
numberingScheme = scheme;
}
}
| int ZdcSD::setTrackID | ( | G4Step * | step | ) | [private] |
Definition at line 425 of file ZdcSD.cc.
References TrackInformation::getIDonCaloSurface(), LogDebug, CaloSD::preStepPoint, CaloSD::previousID, CaloSD::resetForNewPrimary(), CaloSD::theTrack, and CaloHitID::trackID().
Referenced by getFromLibrary().
{
theTrack = aStep->GetTrack();
double etrack = preStepPoint->GetKineticEnergy();
TrackInformation * trkInfo = (TrackInformation *)(theTrack->GetUserInformation());
int primaryID = trkInfo->getIDonCaloSurface();
if (primaryID == 0) {
#ifdef DebugLog
LogDebug("ZdcSD") << "ZdcSD: Problem with primaryID **** set by force "
<< "to TkID **** " << theTrack->GetTrackID();
#endif
primaryID = theTrack->GetTrackID();
}
if (primaryID != previousID.trackID())
resetForNewPrimary(preStepPoint->GetPosition(), etrack);
return primaryID;
}
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] |
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] |
double ZdcSD::zdcHitEnergyCut [private] |
Definition at line 37 of file ZdcSD.h.
Referenced by getFromLibrary(), and ZdcSD().
1.7.3