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/data/refman/pasoursint/CMSSW_5_3_1/src/SimG4CMS/Tracker/src/TkAccumulatingSensitiveDetector.cc

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00001 #include "DataFormats/GeometryVector/interface/LocalPoint.h"
00002 #include "DataFormats/GeometryVector/interface/LocalVector.h"
00003 
00004 #include "SimG4Core/SensitiveDetector/interface/FrameRotation.h"
00005 #include "SimG4Core/Notification/interface/TrackInformation.h"
00006 #include "SimG4Core/Notification/interface/G4TrackToParticleID.h"
00007 #include "SimG4Core/Physics/interface/G4ProcessTypeEnumerator.h"
00008 
00009 #include "SimDataFormats/TrackingHit/interface/UpdatablePSimHit.h"
00010 #include "SimDataFormats/SimHitMaker/interface/TrackingSlaveSD.h"
00011 
00012 #include "SimG4CMS/Tracker/interface/TkAccumulatingSensitiveDetector.h"
00013 #include "SimG4CMS/Tracker/interface/FakeFrameRotation.h"
00014 #include "SimG4CMS/Tracker/interface/StandardFrameRotation.h"
00015 #include "SimG4CMS/Tracker/interface/TrackerFrameRotation.h"
00016 #include "SimG4CMS/Tracker/interface/TkSimHitPrinter.h"
00017 #include "SimG4CMS/Tracker/interface/TrackerG4SimHitNumberingScheme.h"
00018 
00019 #include "FWCore/Framework/interface/ESTransientHandle.h"
00020 #include "FWCore/Framework/interface/ESHandle.h"
00021 #include "FWCore/Framework/interface/EventSetup.h"
00022 
00023 #include "Geometry/Records/interface/IdealGeometryRecord.h"
00024 #include "Geometry/TrackerNumberingBuilder/interface/GeometricDet.h"
00025 
00026 #include "SimG4Core/Notification/interface/TrackInformation.h"
00027 
00028 #include "G4Track.hh"
00029 #include "G4SDManager.hh"
00030 #include "G4VProcess.hh"
00031 #include "G4EventManager.hh"
00032 #include "G4Event.hh"
00033 
00034 #include <string>
00035 #include <vector>
00036 #include <iostream>
00037 
00038 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00039 
00040 //#define FAKEFRAMEROTATION
00041 //#define DUMPPROCESSES
00042 
00043 #ifdef DUMPPROCESSES
00044 #include "G4VProcess.hh"
00045 #endif
00046 
00047 using std::cout;
00048 using std::endl;
00049 using std::vector;
00050 using std::string;
00051 
00052 static 
00053 TrackerG4SimHitNumberingScheme&
00054 numberingScheme(const DDCompactView& cpv, const GeometricDet& det)
00055 {
00056    static TrackerG4SimHitNumberingScheme s_scheme(cpv, det);
00057    return s_scheme;
00058 }
00059 
00060 
00061 TkAccumulatingSensitiveDetector::TkAccumulatingSensitiveDetector(string name, 
00062                                                                  const DDCompactView & cpv,
00063                                                                  SensitiveDetectorCatalog & clg, 
00064                                                                  edm::ParameterSet const & p,
00065                                                                  const SimTrackManager* manager) : 
00066   SensitiveTkDetector(name, cpv, clg, p), myName(name), myRotation(0),  mySimHit(0),theManager(manager),
00067    oldVolume(0), lastId(0), lastTrack(0), eventno(0) ,rTracker(1200.*mm),zTracker(3000.*mm),
00068    numberingScheme_(0)
00069 {
00070    
00071   edm::ParameterSet m_TrackerSD = p.getParameter<edm::ParameterSet>("TrackerSD");
00072   allowZeroEnergyLoss = m_TrackerSD.getParameter<bool>("ZeroEnergyLoss");
00073   neverAccumulate     = m_TrackerSD.getParameter<bool>("NeverAccumulate");
00074   printHits           = m_TrackerSD.getParameter<bool>("PrintHits");
00075   theSigma            = m_TrackerSD.getParameter<double>("ElectronicSigmaInNanoSeconds");
00076   energyCut           = m_TrackerSD.getParameter<double>("EnergyThresholdForPersistencyInGeV")*GeV; //default must be 0.5
00077   energyHistoryCut    = m_TrackerSD.getParameter<double>("EnergyThresholdForHistoryInGeV")*GeV;//default must be 0.05
00078 
00079   edm::LogInfo("TrackerSimInfo") <<"Criteria for Saving Tracker SimTracks:  ";
00080   edm::LogInfo("TrackerSimInfo")<<" History: "<<energyHistoryCut<< " MeV ; Persistency: "<< energyCut<<" MeV ";
00081   edm::LogInfo("TrackerSimInfo")<<" Constructing a TkAccumulatingSensitiveDetector with ";
00082 
00083 #ifndef FAKEFRAMEROTATION
00084   // No Rotation given in input, automagically choose one based upon the name
00085   if (name.find("TrackerHits") != string::npos) 
00086     {
00087       edm::LogInfo("TrackerSimInfo")<<" TkAccumulatingSensitiveDetector: using TrackerFrameRotation for "<<myName;
00088       myRotation = new TrackerFrameRotation;
00089     }
00090   // Just in case (test beam etc)
00091   if (myRotation == 0) 
00092     {
00093       edm::LogInfo("TrackerSimInfo")<<" TkAccumulatingSensitiveDetector: using StandardFrameRotation for "<<myName;
00094       myRotation = new StandardFrameRotation;
00095     }
00096 #else
00097   myRotation = new FakeFrameRotation;
00098   edm::LogWarning("TrackerSimInfo")<< " WARNING - Using FakeFrameRotation in TkAccumulatingSensitiveDetector;";  
00099 #endif
00100 
00101     slaveLowTof  = new TrackingSlaveSD(name+"LowTof");
00102     slaveHighTof = new TrackingSlaveSD(name+"HighTof");
00103   
00104     // Now attach the right detectors (LogicalVolumes) to me
00105     vector<string>  lvNames = clg.logicalNames(name);
00106     this->Register();
00107     for (vector<string>::iterator it = lvNames.begin();  it != lvNames.end(); it++)
00108     {
00109       edm::LogInfo("TrackerSimInfo")<< name << " attaching LV " << *it;
00110         this->AssignSD(*it);
00111     }
00112 
00113     theG4ProcessTypeEnumerator = new G4ProcessTypeEnumerator;
00114     myG4TrackToParticleID = new G4TrackToParticleID;
00115 }
00116 
00117 TkAccumulatingSensitiveDetector::~TkAccumulatingSensitiveDetector() 
00118 { 
00119   delete slaveLowTof;
00120   delete slaveHighTof;
00121   delete theG4ProcessTypeEnumerator;
00122   delete myG4TrackToParticleID;
00123 }
00124 
00125 
00126 bool TkAccumulatingSensitiveDetector::ProcessHits(G4Step * aStep, G4TouchableHistory * ROhist)
00127 {
00128 
00129     LogDebug("TrackerSimDebug")<< " Entering a new Step " << aStep->GetTotalEnergyDeposit() << " " 
00130          << aStep->GetPreStepPoint()->GetPhysicalVolume()->GetLogicalVolume()->GetName();
00131 
00132     //TimeMe t1(theTimer, false);
00133     if (aStep->GetTotalEnergyDeposit()>0. || allowZeroEnergyLoss == true)
00134     {
00135         if (newHit(aStep) == true)
00136         {
00137             sendHit();
00138             createHit(aStep);
00139         }
00140         else
00141         {
00142             updateHit(aStep);
00143         }
00144         return true;
00145     }
00146     return false;
00147 }
00148 
00149 uint32_t TkAccumulatingSensitiveDetector::setDetUnitId(G4Step * s)
00150 { 
00151  unsigned int detId = numberingScheme_->g4ToNumberingScheme(s->GetPreStepPoint()->GetTouchable());
00152 
00153  LogDebug("TrackerSimDebug")<< " DetID = "<<detId; 
00154 
00155  return detId;
00156 }
00157 
00158 
00159 int TkAccumulatingSensitiveDetector::tofBin(float tof)
00160 {
00161 
00162     float threshold = 3. * theSigma;
00163     if (tof < threshold) return 1;
00164     return 2;
00165 }
00166 
00167 Local3DPoint TkAccumulatingSensitiveDetector::toOrcaRef(Local3DPoint in ,G4VPhysicalVolume * v)
00168 {
00169     if (myRotation !=0) return myRotation->transformPoint(in,v);
00170     return (in);
00171 }
00172 
00173 
00174 void TkAccumulatingSensitiveDetector::update(const BeginOfTrack *bot){
00175   const G4Track* gTrack = (*bot)();
00176 #ifdef DUMPPROCESSES
00177   edm::LogInfo("TrackerSimInfo") <<" -> process creator pointer "<<gTrack->GetCreatorProcess();
00178   if (gTrack->GetCreatorProcess())
00179     edm::LogInfo("TrackerSimInfo")<<" -> PROCESS CREATOR : "<<gTrack->GetCreatorProcess()->GetProcessName();
00180 #endif
00181 
00182 
00183   //
00184   //Position
00185   //
00186   const G4ThreeVector pos = gTrack->GetPosition();
00187   //LogDebug("TrackerSimDebug")<<" ENERGY MeV "<<gTrack->GetKineticEnergy()<<" Energy Cut" << energyCut;
00188   //LogDebug("TrackerSimDebug")<<" TOTAL ENERGY "<<gTrack->GetTotalEnergy();
00189   //LogDebug("TrackerSimDebug")<<" WEIGHT "<<gTrack->GetWeight();
00190 
00191   //
00192   // Check if in Tracker Volume
00193   //
00194   if (pos.perp() < rTracker &&std::fabs(pos.z()) < zTracker){
00195     //
00196     // inside the Tracker
00197     //
00198     LogDebug("TrackerSimDebug")<<" INSIDE TRACKER";
00199 
00200     if (gTrack->GetKineticEnergy() > energyCut){
00201       TrackInformation* info = getOrCreateTrackInformation(gTrack);
00202       //LogDebug("TrackerSimDebug")<<" POINTER "<<info;
00203       //LogDebug("TrackerSimDebug")<<" track inside the tracker selected for STORE";
00204       //LogDebug("TrackerSimDebug")<<"Track ID (persistent track) = "<<gTrack->GetTrackID();
00205 
00206       info->storeTrack(true);
00207     }
00208     //
00209     // Save History?
00210     //
00211     if (gTrack->GetKineticEnergy() > energyHistoryCut){
00212       TrackInformation* info = getOrCreateTrackInformation(gTrack);
00213       info->putInHistory();
00214       //LogDebug("TrackerSimDebug")<<" POINTER "<<info;
00215       //LogDebug("TrackerSimDebug")<<" track inside the tracker selected for HISTORY";
00216       //LogDebug("TrackerSimDebug")<<"Track ID (history track) = "<<gTrack->GetTrackID();
00217     }
00218     
00219   }
00220 }
00221 
00222 
00223 
00224 void TkAccumulatingSensitiveDetector::sendHit()
00225 {  
00226     if (mySimHit == 0) return;
00227     LogDebug("TrackerSimDebug")<< " Storing PSimHit: " << pname << " " << mySimHit->detUnitId() 
00228          << " " << mySimHit->trackId() << " " << mySimHit->energyLoss() 
00229          << " " << mySimHit->entryPoint() << " " << mySimHit->exitPoint();
00230     if (printHits)
00231     {
00232         TkSimHitPrinter thePrinter("TkHitPositionOSCAR.dat");
00233         thePrinter.startNewSimHit(myName,oldVolume->GetLogicalVolume()->GetName(),
00234                                   mySimHit->detUnitId(),mySimHit->trackId(),eventno);
00235         thePrinter.printLocal(mySimHit->entryPoint(),mySimHit->exitPoint());
00236         thePrinter.printGlobal(globalEntryPoint,globalExitPoint);
00237         thePrinter.printHitData(mySimHit->energyLoss(),mySimHit->timeOfFlight());
00238         thePrinter.printMomentumOfTrack(mySimHit->pabs(),pname,
00239                                         thePrinter.getPropagationSign(globalEntryPoint,globalExitPoint));
00240         thePrinter.printGlobalMomentum(px,py,pz);
00241     }
00242     
00243     if (tofBin(mySimHit->timeOfFlight()) == 1)
00244         slaveLowTof->processHits(*mySimHit);  // implicit conversion (slicing) to PSimHit!!!
00245     else
00246         slaveHighTof->processHits(*mySimHit); // implicit conversion (slicing) to PSimHit!!!
00247     //
00248     // clean up
00249     delete mySimHit;
00250     mySimHit = 0;
00251     lastTrack = 0;
00252     lastId = 0;
00253 }
00254 
00255 void TkAccumulatingSensitiveDetector::createHit(G4Step * aStep)
00256 {
00257     if (mySimHit != 0) 
00258     {
00259         delete mySimHit;
00260         mySimHit=0;
00261     }
00262     
00263     G4Track * theTrack  = aStep->GetTrack(); 
00264 
00265     G4VPhysicalVolume * v = aStep->GetPreStepPoint()->GetPhysicalVolume();
00266     Local3DPoint theEntryPoint = toOrcaRef(SensitiveDetector::InitialStepPosition(aStep,LocalCoordinates),v);  
00267     Local3DPoint theExitPoint  = toOrcaRef(SensitiveDetector::FinalStepPosition(aStep,LocalCoordinates),v); 
00268     //
00269     //  This allows to send he skipEvent if it is outside!
00270     //
00271     checkExitPoint(theExitPoint);
00272     float thePabs             = aStep->GetPreStepPoint()->GetMomentum().mag()/GeV;
00273     float theTof              = aStep->GetPreStepPoint()->GetGlobalTime()/nanosecond;
00274     float theEnergyLoss       = aStep->GetTotalEnergyDeposit()/GeV;
00275     int theParticleType       = myG4TrackToParticleID->particleID(theTrack);
00276     uint32_t theDetUnitId     = setDetUnitId(aStep);
00277   
00278     globalEntryPoint = SensitiveDetector::InitialStepPosition(aStep,WorldCoordinates);
00279     globalExitPoint = SensitiveDetector::FinalStepPosition(aStep,WorldCoordinates);
00280     pname = theTrack->GetDynamicParticle()->GetDefinition()->GetParticleName();
00281   
00282     if (theDetUnitId == 0)
00283     {
00284       edm::LogError("TrackerSimInfo") << " Error: theDetUnitId is not valid.";
00285       abort();
00286     }
00287     unsigned int theTrackID = theTrack->GetTrackID();
00288   
00289     // To whom assign the Hit?
00290     // First iteration: if the track is to be stored, use the current number;
00291     // otherwise, get to the mother
00292     unsigned  int theTrackIDInsideTheSimHit=theTrackID;
00293 
00294     
00295     G4VUserTrackInformation * info = theTrack->GetUserInformation();
00296     if (info == 0) edm::LogError("TrackerSimInfo")<< " Error: no UserInformation available ";
00297     else
00298       {
00299         TrackInformation * temp = dynamic_cast<TrackInformation* >(info);
00300         if (temp ==0) edm::LogError("TrackerSimInfo")<< " Error:G4VUserTrackInformation is not a TrackInformation.";
00301         if (temp->storeTrack() == false) 
00302           {
00303             // Go to the mother!
00304             LogDebug("TrackerSimDebug")<< " TkAccumulatingSensitiveDetector:createHit(): setting the TrackID from "
00305                       << theTrackIDInsideTheSimHit;
00306             theTrackIDInsideTheSimHit = theTrack->GetParentID();
00307             LogDebug("TrackerSimDebug")<< " to the mother one " << theTrackIDInsideTheSimHit << " " << theEnergyLoss;
00308           }
00309         else
00310           {
00311             LogDebug("TrackerSimDebug")<< " TkAccumulatingSensitiveDetector:createHit(): leaving the current TrackID " 
00312                       << theTrackIDInsideTheSimHit;
00313           }
00314       }
00315     
00316     
00317     px  = aStep->GetPreStepPoint()->GetMomentum().x()/GeV;
00318     py  = aStep->GetPreStepPoint()->GetMomentum().y()/GeV;
00319     pz  = aStep->GetPreStepPoint()->GetMomentum().z()/GeV;
00320     
00321     G4ThreeVector gmd  = aStep->GetPreStepPoint()->GetMomentumDirection();
00322     // convert it to local frame
00323     G4ThreeVector lmd = ((G4TouchableHistory *)(aStep->GetPreStepPoint()->GetTouchable()))->GetHistory()
00324       ->GetTopTransform().TransformAxis(gmd);
00325     Local3DPoint lnmd = toOrcaRef(ConvertToLocal3DPoint(lmd),v);
00326     float theThetaAtEntry = lnmd.theta();
00327     float thePhiAtEntry = lnmd.phi();
00328     
00329     mySimHit = new UpdatablePSimHit(theEntryPoint,theExitPoint,thePabs,theTof,
00330                                     theEnergyLoss,theParticleType,theDetUnitId,
00331                                     theTrackIDInsideTheSimHit,theThetaAtEntry,thePhiAtEntry,
00332                                     theG4ProcessTypeEnumerator->processId(theTrack->GetCreatorProcess()));  
00333     LogDebug("TrackerSimDebug")<< " Created PSimHit: " << pname << " " << mySimHit->detUnitId() << " " << mySimHit->trackId()
00334                                << " " << mySimHit->energyLoss() << " " << mySimHit->entryPoint() 
00335                                << " " << mySimHit->exitPoint();
00336     lastId = theDetUnitId;
00337     lastTrack = theTrackID;
00338     oldVolume = v;
00339 }
00340 
00341 void TkAccumulatingSensitiveDetector::updateHit(G4Step * aStep)
00342 {
00343     G4VPhysicalVolume * v = aStep->GetPreStepPoint()->GetPhysicalVolume();
00344     Local3DPoint theExitPoint = toOrcaRef(SensitiveDetector::FinalStepPosition(aStep,LocalCoordinates),v); 
00345     //
00346     // This allows to send he skipEvent if it is outside!
00347     //
00348     checkExitPoint(theExitPoint);
00349     float theEnergyLoss = aStep->GetTotalEnergyDeposit()/GeV;
00350     mySimHit->setExitPoint(theExitPoint);
00351     LogDebug("TrackerSimDebug")<< " Before : " << mySimHit->energyLoss();
00352     mySimHit->addEnergyLoss(theEnergyLoss);
00353     globalExitPoint = SensitiveDetector::FinalStepPosition(aStep,WorldCoordinates);
00354 
00355     LogDebug("TrackerSimDebug")<< " Updating: new exitpoint " << pname << " " << theExitPoint 
00356                                << " new energy loss " << theEnergyLoss;
00357     LogDebug("TrackerSimDebug")<< " Updated PSimHit: " << mySimHit->detUnitId() << " " << mySimHit->trackId()
00358                                << " " << mySimHit->energyLoss() << " " << mySimHit->entryPoint() 
00359                                << " " << mySimHit->exitPoint();
00360 }
00361 
00362 bool TkAccumulatingSensitiveDetector::newHit(G4Step * aStep)
00363 {
00364     if (neverAccumulate == true) return true;
00365     G4Track * theTrack = aStep->GetTrack(); 
00366     uint32_t theDetUnitId = setDetUnitId(aStep);
00367     unsigned int theTrackID = theTrack->GetTrackID();
00368 
00369     LogDebug("TrackerSimDebug")<< " OLD (d,t) = (" << lastId << "," << lastTrack 
00370                                << "), new = (" << theDetUnitId << "," << theTrackID << ") return "
00371                                << ((theTrackID == lastTrack) && (lastId == theDetUnitId));
00372     if ((mySimHit != 0) && (theTrackID == lastTrack) && (lastId == theDetUnitId) && closeHit(aStep))
00373       return false;
00374     return true;
00375 }
00376 
00377 bool TkAccumulatingSensitiveDetector::closeHit(G4Step * aStep)
00378 {
00379     if (mySimHit == 0) return false; 
00380     const float tolerance = 0.05 * mm; // 50 micron are allowed between the exit 
00381     // point of the current hit and the entry point of the new hit
00382     G4VPhysicalVolume * v = aStep->GetPreStepPoint()->GetPhysicalVolume();
00383     Local3DPoint theEntryPoint = toOrcaRef(SensitiveDetector::InitialStepPosition(aStep,LocalCoordinates),v);  
00384     LogDebug("TrackerSimDebug")<< " closeHit: distance = " << (mySimHit->exitPoint()-theEntryPoint).mag();
00385 
00386     if ((mySimHit->exitPoint()-theEntryPoint).mag()<tolerance) return true;
00387     return false;
00388 }
00389 
00390 void TkAccumulatingSensitiveDetector::EndOfEvent(G4HCofThisEvent *)
00391 {
00392 
00393   LogDebug("TrackerSimDebug")<< " Saving the last hit in a ROU " << myName;
00394 
00395     if (mySimHit == 0) return;
00396       sendHit();
00397 }
00398 
00399 void TkAccumulatingSensitiveDetector::update(const BeginOfEvent * i)
00400 {
00401     clearHits();
00402     eventno = (*i)()->GetEventID();
00403     mySimHit = 0;
00404 }
00405 
00406 void TkAccumulatingSensitiveDetector::update(const BeginOfJob * i)
00407 {
00408     edm::ESHandle<GeometricDet> pDD;
00409     const edm::EventSetup* es = (*i)();
00410     es->get<IdealGeometryRecord>().get( pDD );
00411 
00412     edm::ESTransientHandle<DDCompactView> pView;
00413     es->get<IdealGeometryRecord>().get(pView);
00414 
00415     numberingScheme_=&(numberingScheme(*pView,*pDD));
00416 }
00417 
00418 void TkAccumulatingSensitiveDetector::clearHits()
00419 {
00420     slaveLowTof->Initialize();
00421     slaveHighTof->Initialize();
00422 }
00423 
00424 void TkAccumulatingSensitiveDetector::checkExitPoint(Local3DPoint p)
00425 {
00426     double z = p.z();
00427     if (std::abs(z)<0.3*mm) return;
00428     bool sendExc = false;
00429     //static SimpleConfigurable<bool> sendExc(false,"TrackerSim:ThrowOnBadHits");
00430     edm::LogWarning("TrackerSimInfo")<< " ************ Hit outside the detector ; Local z " << z 
00431                                      << "; skipping event = " << sendExc;
00432     if (sendExc == true)
00433     {
00434         G4EventManager::GetEventManager()->AbortCurrentEvent();
00435         G4EventManager::GetEventManager()->GetNonconstCurrentEvent()->SetEventAborted();
00436     }
00437 }
00438 
00439 TrackInformation* TkAccumulatingSensitiveDetector::getOrCreateTrackInformation( const G4Track* gTrack){
00440   G4VUserTrackInformation* temp = gTrack->GetUserInformation();
00441   if (temp == 0){
00442     edm::LogError("TrackerSimInfo") <<" ERROR: no G4VUserTrackInformation available";
00443     abort();
00444   }else{
00445     TrackInformation* info = dynamic_cast<TrackInformation*>(temp);
00446     if (info ==0){
00447       edm::LogError("TrackerSimInfo")<<" ERROR: TkSimTrackSelection: the UserInformation does not appear to be a TrackInformation";
00448       abort();
00449     }
00450     return info;
00451   }
00452 }
00453 
00454 void TkAccumulatingSensitiveDetector::fillHits(edm::PSimHitContainer& c, std::string n){
00455   //
00456   // do it once for low, once for High
00457   //
00458 
00459   if (slaveLowTof->name() == n)  c=slaveLowTof->hits();
00460   if (slaveHighTof->name() == n) c=slaveHighTof->hits();
00461 
00462 }
00463 
00464 std::vector<string> TkAccumulatingSensitiveDetector::getNames(){
00465   std::vector<string> temp;
00466   temp.push_back(slaveLowTof->name());
00467   temp.push_back(slaveHighTof->name());
00468   return temp;
00469 }