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00001 
00002 // File: SimG4Validation.cc
00003 // Description: Main analysis class for Hcal Validation of G4 Hits
00005 #include "Validation/HcalHits/interface/SimG4HcalValidation.h"
00006 
00007 #include "SimG4Core/Notification/interface/BeginOfJob.h"
00008 #include "SimG4Core/Notification/interface/BeginOfRun.h"
00009 #include "SimG4Core/Notification/interface/BeginOfEvent.h"
00010 #include "SimG4Core/Notification/interface/EndOfEvent.h"
00011 
00012 // to retreive hits
00013 #include "DataFormats/HcalDetId/interface/HcalSubdetector.h"
00014 #include "SimG4CMS/Calo/interface/HCalSD.h"
00015 #include "SimG4CMS/Calo/interface/CaloG4Hit.h"
00016 #include "SimG4CMS/Calo/interface/CaloG4HitCollection.h"
00017 #include "DataFormats/Math/interface/Point3D.h"
00018 
00019 #include "FWCore/Framework/interface/Event.h"
00020 #include "FWCore/Framework/interface/EventSetup.h"
00021 #include "FWCore/Framework/interface/ESTransientHandle.h"
00022 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00023 
00024 #include "Geometry/Records/interface/IdealGeometryRecord.h"
00025 #include "DetectorDescription/Core/interface/DDCompactView.h"
00026 
00027 #include "G4SDManager.hh"
00028 #include "G4Step.hh"
00029 #include "G4Track.hh"
00030 #include "G4VProcess.hh"
00031 #include "G4HCofThisEvent.hh"
00032 #include "CLHEP/Units/GlobalSystemOfUnits.h"
00033 #include "CLHEP/Units/GlobalPhysicalConstants.h"
00034 #include <cmath>
00035 #include <iostream>
00036 #include <iomanip>
00037 
00038 SimG4HcalValidation::SimG4HcalValidation(const edm::ParameterSet &p): 
00039   jetf(0), numberingFromDDD(0), org(0) {
00040 
00041   edm::ParameterSet m_Anal = p.getParameter<edm::ParameterSet>("SimG4HcalValidation");
00042   infolevel     = m_Anal.getParameter<int>("InfoLevel");
00043   hcalOnly      = m_Anal.getParameter<bool>("HcalClusterOnly");
00044   applySampling = m_Anal.getParameter<bool>("HcalSampling");
00045   coneSize      = m_Anal.getParameter<double>("ConeSize");
00046   ehitThreshold = m_Anal.getParameter<double>("EcalHitThreshold");
00047   hhitThreshold = m_Anal.getParameter<double>("HcalHitThreshold");
00048   timeLowlim    = m_Anal.getParameter<double>("TimeLowLimit");
00049   timeUplim     = m_Anal.getParameter<double>("TimeUpLimit");
00050   jetThreshold  = m_Anal.getParameter<double>("JetThreshold");
00051   eta0          = m_Anal.getParameter<double>("Eta0");
00052   phi0          = m_Anal.getParameter<double>("Phi0");
00053   names         = m_Anal.getParameter<std::vector<std::string> >("Names");
00054   labelLayer    = m_Anal.getUntrackedParameter<std::string>("LabelLayerInfo","HcalInfoLayer");
00055   labelNxN      = m_Anal.getUntrackedParameter<std::string>("LabelNxNInfo","HcalInfoNxN");
00056   labelJets     = m_Anal.getUntrackedParameter<std::string>("LabelJetsInfo","HcalInfoJets");
00057 
00058   produces<PHcalValidInfoLayer>(labelLayer);
00059   if (infolevel > 0) produces<PHcalValidInfoNxN>(labelNxN);
00060   if (infolevel > 1) produces<PHcalValidInfoJets>(labelJets);
00061 
00062   edm::LogInfo("ValidHcal") << "HcalTestAnalysis:: Initialised as observer of "
00063                             << "begin/end events and of G4step with Parameter "
00064                             << "values: \n\tInfoLevel     = " << infolevel
00065                             << "\n\thcalOnly      = " << hcalOnly 
00066                             << "\n\tapplySampling = " << applySampling 
00067                             << "\n\tconeSize      = " << coneSize
00068                             << "\n\tehitThreshold = " << ehitThreshold 
00069                             << "\n\thhitThreshold = " << hhitThreshold
00070                             << "\n\tttimeLowlim   = " << timeLowlim
00071                             << "\n\tttimeUplim    = " << timeUplim
00072                             << "\n\teta0          = " << eta0
00073                             << "\n\tphi0          = " << phi0
00074                             << "\nLabels (Layer): " << labelLayer
00075                             << " (NxN): " << labelNxN << " (Jets): "
00076                             << labelJets;
00077 
00078   init();
00079 } 
00080    
00081 SimG4HcalValidation::~SimG4HcalValidation() {
00082 
00083   edm::LogInfo("ValidHcal") << "\n -------->  Total number of selected entries"
00084                             << " : " << count << "\nPointers:: JettFinder " 
00085                             << jetf << ", Numbering Scheme " << org 
00086                             << " and FromDDD " << numberingFromDDD;
00087   if (jetf)   {
00088     edm::LogInfo("ValidHcal") << "Delete Jetfinder";
00089     delete jetf;
00090     jetf  = 0;
00091   }
00092   if (numberingFromDDD) {
00093     edm::LogInfo("ValidHcal") << "Delete HcalNumberingFromDDD";
00094     delete numberingFromDDD;
00095     numberingFromDDD = 0;
00096   }
00097 }
00098 
00099 void SimG4HcalValidation::produce(edm::Event& e, const edm::EventSetup&) {
00100 
00101   std::auto_ptr<PHcalValidInfoLayer> productLayer(new PHcalValidInfoLayer);
00102   layerAnalysis(*productLayer);
00103   e.put(productLayer,labelLayer);
00104 
00105   if (infolevel > 0) {
00106     std::auto_ptr<PHcalValidInfoNxN> productNxN(new PHcalValidInfoNxN);
00107     nxNAnalysis(*productNxN);
00108     e.put(productNxN,labelNxN);
00109   }
00110 
00111   if (infolevel > 1) {
00112     std::auto_ptr<PHcalValidInfoJets> productJets(new PHcalValidInfoJets);
00113     jetAnalysis(*productJets);
00114     e.put(productJets,labelJets);
00115   }
00116 }
00117 
00118 //==================================================================== per RUN
00119 void SimG4HcalValidation::init() {
00120 
00121   float sHB[4] = { 117., 117., 178., 217.};
00122   float sHE[3] = { 178., 178., 178.};
00123   float sHF[3] = { 2.84, 2.09, 0.};     //
00124 
00125   float deta[4] = { 0.0435, 0.1305, 0.2175, 0.3045 };
00126   float dphi[4] = { 0.0436, 0.1309, 0.2182, 0.3054 };
00127 
00128   int i=0;
00129   for (i = 0; i < 4; i++) { 
00130     scaleHB.push_back(sHB[i]);
00131   }
00132   for (i = 0; i < 3; i++) { 
00133     scaleHE.push_back(sHE[i]);
00134   }
00135   for (i = 0; i < 3; i++) { 
00136     scaleHF.push_back(sHF[i]);
00137   }
00138 
00139   // window steps;
00140   for(i = 0; i < 4; i++) { 
00141     dEta.push_back(deta[i]);
00142     dPhi.push_back(dphi[i]);
00143   }
00144 
00145   // jetfinder conse size setting
00146   jetf   = new SimG4HcalHitJetFinder(coneSize);
00147 
00148   // counter 
00149   count = 0;
00150   
00151 }
00152 
00153 void SimG4HcalValidation::update(const BeginOfJob * job) {
00154 
00155   // Numbering From DDD
00156   edm::ESTransientHandle<DDCompactView> pDD;
00157   (*job)()->get<IdealGeometryRecord>().get(pDD);
00158   edm::LogInfo("ValidHcal") << "HcalTestAnalysis:: Initialise "
00159                             << "HcalNumberingFromDDD for " << names[0];
00160   numberingFromDDD = new HcalNumberingFromDDD(names[0], (*pDD));
00161 
00162   // Numbering scheme
00163   org              = new HcalTestNumberingScheme(false);
00164 
00165 }
00166 
00167 void SimG4HcalValidation::update(const BeginOfRun * run) {
00168 
00169   int irun = (*run)()->GetRunID();
00170   
00171   edm::LogInfo("ValidHcal") <<" =====> Begin of Run = " << irun;
00172  
00173   std::string  sdname = names[0];
00174   G4SDManager* sd     = G4SDManager::GetSDMpointerIfExist();
00175   if (sd != 0) {
00176     G4VSensitiveDetector* aSD = sd->FindSensitiveDetector(sdname);
00177     if (aSD==0) {
00178       edm::LogWarning("ValidHcal") << "SimG4HcalValidation::beginOfRun: No SD"
00179                                    << " with name " << sdname << " in this "
00180                                    << "Setup";
00181     } else {
00182       HCalSD* theCaloSD = dynamic_cast<HCalSD*>(aSD);
00183       edm::LogInfo("ValidHcal") << "SimG4HcalValidation::beginOfRun: Finds SD"
00184                                 << "with name " << theCaloSD->GetName() 
00185                                 << " in this Setup";
00186       if (org) {
00187         theCaloSD->setNumberingScheme(org);
00188         edm::LogInfo("ValidHcal") << "SimG4HcalValidation::beginOfRun: set a "
00189                                   << "new numbering scheme";
00190       }
00191     }
00192   } else {
00193     edm::LogWarning("ValidHcal") << "SimG4HcalValidation::beginOfRun: Could "
00194                                  << "not get SD Manager!";
00195   }
00196 
00197 }
00198 
00199 //=================================================================== per EVENT
00200 void SimG4HcalValidation::update(const BeginOfEvent * evt) {
00201  
00202   int i = 0;
00203   edepEB = edepEE = edepHB = edepHE = edepHO = 0.;
00204   for (i = 0; i < 5;  i++) edepd[i] = 0.;
00205   for (i = 0; i < 20; i++) edepl[i] = 0.;
00206   vhitec = vhithc = enEcal = enHcal = 0;  
00207   // Cache reset  
00208   clear();
00209 
00210   int iev = (*evt)()->GetEventID();
00211   LogDebug("ValidHcal") << "SimG4HcalValidation: =====> Begin of event = "
00212                         << iev;
00213 }
00214 
00215 //=================================================================== each STEP
00216 void SimG4HcalValidation::update(const G4Step * aStep) {
00217 
00218   if (aStep != NULL) {
00219     G4VPhysicalVolume* curPV  = aStep->GetPreStepPoint()->GetPhysicalVolume();
00220     G4String name = curPV->GetName();
00221     name.assign(name,0,3);
00222     double edeposit = aStep->GetTotalEnergyDeposit();
00223     int    layer=-1,  depth=-1;
00224     if (name == "EBR") {
00225       depth = 0;
00226       edepEB += edeposit;
00227     } else if (name == "EFR") {
00228       depth = 0;
00229       edepEE += edeposit;
00230     } else if (name == "HBS") {
00231       layer = (curPV->GetCopyNo()/10)%100;
00232       depth = (curPV->GetCopyNo())%10 + 1;
00233       if (depth > 0 && depth < 4 && layer >= 0 && layer < 17) {
00234         edepHB += edeposit;
00235       } else {
00236         edm::LogWarning("ValidHcal") << "SimG4HcalValidation:Error " 
00237                                      << curPV->GetName() << curPV->GetCopyNo();
00238         depth = -1; layer = -1;
00239       }
00240     } else if (name == "HES") {
00241       layer = (curPV->GetCopyNo()/10)%100;
00242       depth = (curPV->GetCopyNo())%10 + 1;
00243       if (depth > 0 && depth < 3 && layer >= 0 && layer < 19) {
00244         edepHE += edeposit;
00245       } else {
00246         edm::LogWarning("ValidHcal") << "SimG4HcalValidation:Error " 
00247                                      << curPV->GetName() << curPV->GetCopyNo();
00248         depth = -1; layer = -1;
00249       }
00250     } else if (name == "HTS") {
00251       layer = (curPV->GetCopyNo()/10)%100;
00252       depth = (curPV->GetCopyNo())%10 + 1;
00253       if (depth > 3 && depth < 5 && layer >= 17 && layer < 20) {
00254         edepHO += edeposit;
00255        } else {
00256          edm::LogWarning("ValidHcal") << "SimG4HcalValidation:Error " 
00257                                       << curPV->GetName() <<curPV->GetCopyNo();
00258          depth = -1; layer = -1;
00259        }
00260     }
00261     if (depth >= 0 && depth < 5)  edepd[depth] += edeposit;
00262     if (layer >= 0 && layer < 20) edepl[layer] += edeposit;
00263 
00264     if (layer >= 0 && layer < 20) {
00265       LogDebug("ValidHcal") << "SimG4HcalValidation:: G4Step: " << name 
00266                             << " Layer " << std::setw(3) << layer << " Depth "
00267                             << std::setw(2) << depth << " Edep " <<std::setw(6)
00268                             << edeposit/MeV << " MeV";
00269     }
00270   }
00271 }
00272 
00273 //================================================================ End of EVENT
00274 void SimG4HcalValidation::update(const EndOfEvent * evt) {
00275 
00276   count++;
00277 
00278   // Fill hits cache for jetfinding etc.
00279   fill(evt);
00280   LogDebug("ValidHcal") << "SimG4HcalValidation:: ---  after Fill ";
00281 }
00282 
00283 //---------------------------------------------------
00284 void SimG4HcalValidation::fill(const EndOfEvent * evt) {
00285 
00286   LogDebug("ValidHcal") << "SimG4HcalValidation:Fill event " 
00287                         << (*evt)()->GetEventID();
00288   
00289   // access to the G4 hit collections 
00290   G4HCofThisEvent* allHC = (*evt)()->GetHCofThisEvent();
00291   
00292   int nhc = 0, j = 0;    
00293  
00294   // Hcal
00295   int HCHCid = G4SDManager::GetSDMpointer()->GetCollectionID(names[0]);
00296   CaloG4HitCollection* theHCHC = (CaloG4HitCollection*) allHC->GetHC(HCHCid);
00297   LogDebug("ValidHcal") << "SimG4HcalValidation :: Hit Collection for " 
00298                         << names[0] << " of ID " << HCHCid <<" is obtained at "
00299                         << theHCHC;
00300   if (HCHCid >= 0 && theHCHC > 0) {
00301     for (j = 0; j < theHCHC->entries(); j++) {
00302 
00303       CaloG4Hit* aHit = (*theHCHC)[j]; 
00304     
00305       double e        = aHit->getEnergyDeposit()/GeV;
00306       double time     = aHit->getTimeSlice();
00307       
00308       math::XYZPoint pos  = aHit->getPosition();
00309       double theta    = pos.theta();
00310       double   eta    = -log(tan(theta * 0.5));
00311       double   phi    = pos.phi();
00312     
00313       uint32_t unitID = aHit->getUnitID();
00314       int subdet, zside, layer, etaIndex, phiIndex, lay;
00315       org->unpackHcalIndex(unitID,subdet,zside,layer,etaIndex,phiIndex,lay);
00316 
00317       // some logic to separate HO ...
00318       layer--;
00319       std::string det =  "HB";
00320       if (subdet == static_cast<int>(HcalForward)) {
00321         det = "HF";
00322         uint16_t depth = aHit->getDepth();
00323         if (depth != 0) { layer += 2; lay += 2; }
00324         if      (layer == 1) vhithc += e;
00325         else if (layer == 0) vhitec += e;
00326         else
00327           edm::LogInfo("ValidHcal") << "SimG4HcalValidation::HitPMT " 
00328                                     << subdet << " " << (2*zside-1)*etaIndex 
00329                                     << " " << phiIndex << " " << layer+1 
00330                                     << " R " << pos.rho() << " Phi " << phi/deg
00331                                     << " Edep " << e << " Time " << time;
00332       } else if (subdet == static_cast<int>(HcalEndcap)) {
00333         if (etaIndex <= 20) {
00334           det  = "HES";
00335         } else {
00336           det = "HED";
00337         }
00338       }
00339       LogDebug("ValidHcal") << "SimG4HcalValidation::debugFill Hcal " 
00340                             << det << " layer " << std::setw(2) << layer 
00341                             << " lay " << std::setw(2) << lay << " time " 
00342                             << std::setw(6) << time << " theta " 
00343                             << std::setw(8) << theta << " eta " << std::setw(8)
00344                             << eta << " phi " << std::setw(8) << phi << " e " 
00345                             << std::setw(8) << e << " ID 0x" << std::hex
00346                             << unitID << " ID dec " << std::dec << (int)unitID;
00347 
00348       // if desired, apply sampling factors in HCAL !!!
00349       if (applySampling) e *= getHcalScale(det,layer);    
00350 
00351       //    filter on time & energy 
00352       if (time >= timeLowlim && time <= timeUplim && e > hhitThreshold ) {
00353         enHcal += e;
00354         CaloHit ahit(subdet,lay,e,eta,phi,time,unitID);
00355         hitcache.push_back(ahit);    // fill cache
00356         ++nhc;
00357       }    
00358     }
00359   }
00360   LogDebug("ValidHcal") << "SimG4HcalValidation:: HCAL hits : " << nhc;
00361 
00362   if (!hcalOnly) { //--------------------------  ECAL hits --------------------
00363     int ndets = names.size();
00364     if (ndets > 3) ndets = 3;
00365     for (int idty = 1; idty < ndets; idty++) {
00366       std::string          det = "EB";
00367       if      (idty ==  2) det = "EE";
00368       else if (idty > 2)   det = "ES";
00369 
00370       int nec    = 0;
00371       int ECHCid = G4SDManager::GetSDMpointer()->GetCollectionID(names[idty]);
00372       CaloG4HitCollection* theECHC =(CaloG4HitCollection*)allHC->GetHC(ECHCid);
00373       LogDebug("ValidHcal") << "SimG4HcalValidation:: Hit Collection for "
00374                             << names[idty] << " of ID " << ECHCid 
00375                             << " is obtained at " << theECHC;
00376       if (ECHCid >= 0 && theECHC > 0) {
00377         for (j = 0; j < theECHC->entries(); j++) {
00378 
00379           CaloG4Hit* aHit = (*theECHC)[j]; 
00380     
00381           double e        = aHit->getEnergyDeposit()/GeV;
00382           double time     = aHit->getTimeSlice();
00383       
00384           math::XYZPoint pos  = aHit->getPosition();
00385           double theta    = pos.theta();
00386           double   eta    = -log(tan(theta/2.));
00387           double   phi    = pos.phi();
00388           HcalNumberingFromDDD::HcalID id = numberingFromDDD->unitID(eta,phi,1,1);
00389           uint32_t unitID = org->getUnitID(id);
00390           int subdet, zside, layer, ieta, iphi, lay;
00391           org->unpackHcalIndex(unitID,subdet,zside,layer,ieta,iphi,lay);
00392           subdet = idty+9;
00393           layer  = 0;
00394           unitID = org->packHcalIndex(subdet,zside,layer,ieta,iphi,lay);
00395           
00396           //    filter on time & energy 
00397           if (time >= timeLowlim && time <= timeUplim && e > ehitThreshold ) {
00398             enEcal += e;
00399             CaloHit ahit(subdet,lay,e,eta,phi,time,unitID);
00400             hitcache.push_back(ahit);    // fill cache
00401             ++nec;
00402           }
00403 
00404           LogDebug("ValidHcal") << "SimG4HcalValidation::debugFill Ecal " 
00405                                 << det << " layer " << std::setw(2) << layer 
00406                                 << " lay " << std::setw(2) << lay << " time " 
00407                                 << std::setw(6) << time << " theta " 
00408                                 << std::setw(8) << theta << " eta " 
00409                                 << std::setw(8) << eta  << " phi " 
00410                                 << std::setw(8) << phi << " e " << std::setw(8)
00411                                 << e << " ID 0x" << std::hex << unitID 
00412                                 << " ID dec " << std::dec << (int)unitID;
00413 
00414         }
00415       }
00416 
00417       LogDebug("ValidHcal") << "SimG4HcalValidation:: " << det << " hits : "
00418                             << nec;
00419     }
00420   } // end of if(!hcalOnly)
00421 
00422 }
00423 
00424 void SimG4HcalValidation::layerAnalysis(PHcalValidInfoLayer& product) {
00425 
00426   int i = 0;
00427   LogDebug("ValidHcal") << "\n ===>>> SimG4HcalValidation: Energy deposit "
00428                         << "in MeV\n at EB : " << std::setw(6) << edepEB/MeV 
00429                         << "\n at EE : " << std::setw(6) << edepEE/MeV 
00430                         << "\n at HB : " << std::setw(6) << edepHB/MeV 
00431                         << "\n at HE : " << std::setw(6) << edepHE/MeV 
00432                         << "\n at HO : " << std::setw(6) << edepHO/MeV 
00433                         << "\n ---- SimG4HcalValidation: Energy deposit in";
00434   for (i = 0; i < 5; i++) 
00435     LogDebug("ValidHcal") << " Depth " << std::setw(2) << i << " E " 
00436                           << std::setw(8) << edepd[i]/MeV << " MeV";
00437   LogDebug("ValidHcal") << " ---- SimG4HcalValidation: Energy deposit in"
00438                         << "layers";
00439   for (i = 0; i < 20; i++) 
00440     LogDebug("ValidHcal") << " Layer " << std::setw(2) << i << " E " 
00441                           << std::setw(8) << edepl[i]/MeV  << " MeV";
00442 
00443   product.fillLayers(edepl, edepd, edepHO, edepHB+edepHE, edepEB+edepEE);  
00444 
00445   // Hits in HF
00446   product.fillHF(vhitec, vhithc, enEcal, enHcal);
00447   LogDebug("ValidHcal") << "SimG4HcalValidation::HF hits " << vhitec 
00448                         << " in EC and " << vhithc << " in HC\n"
00449                         << "                     HB/HE   " << enEcal 
00450                         << " in EC and " << enHcal << " in HC";
00451 
00452   // Another HCAL hist to porcess and store separately (a bit more complicated)
00453   fetchHits(product);
00454 
00455   LogDebug("ValidHcal") << " layerAnalysis ===> after fetchHits";
00456 
00457 }
00458 
00459 //-----------------------------------------------------------------------------
00460 void SimG4HcalValidation::nxNAnalysis(PHcalValidInfoNxN& product) {
00461 
00462   std::vector<CaloHit> * hits = &hitcache;
00463   std::vector<CaloHit>::iterator hit_itr;
00464 
00465   LogDebug("ValidHcal") << "SimG4HcalValidation::NxNAnalysis : entrance ";
00466 
00467   collectEnergyRdir(eta0,phi0); // HCAL and ECAL energy in  SimHitCache
00468                                 // around (eta0,phi0)
00469 
00470   LogDebug("ValidHcal") << " NxNAnalysis : coolectEnergyRdir - Ecal " << een 
00471                         << "   Hcal " << hen;
00472 
00473   double etot  = 0.;      // total e deposited     in "cluster"
00474   double ee    = 0.;      // ECAL  e deposited     in "cluster"
00475   double he    = 0.;      // HCAL  e deposited     in "cluster"
00476   double hoe   = 0.;      // HO    e deposited     in "cluster"     
00477 
00478   int    max   = dEta.size(); // 4
00479   
00480   for (hit_itr = hits->begin(); hit_itr < hits->end(); hit_itr++) {
00481 
00482     double e     = hit_itr->e();
00483     double t     = hit_itr->t();
00484     double eta   = hit_itr->eta();
00485     double phi   = hit_itr->phi();
00486     int    type  = hit_itr->det();
00487     int    layer = hit_itr->layer();
00488     
00489     // NxN calulation
00490     
00491     if (fabs(eta0-eta) <= dEta[max-1] && fabs(phi0-phi) <= dPhi[max-1]) {
00492       etot += e;
00493       if (type == 10 || type == 11 || type == 12)  ee += e;
00494       if (type  == static_cast<int>(HcalBarrel) ||
00495           type  == static_cast<int>(HcalEndcap) ||
00496           type  == static_cast<int>(HcalForward)) { 
00497         he += e; 
00498         if (type  == static_cast<int>(HcalBarrel) && layer > 17) hoe += e;
00499 
00500         // which concrete i-th square ?
00501         for (int i = 0; i < max; i++ ) { 
00502           if ((eta0-eta) <= dEta[i] && (eta0-eta) >= -dEta[i] &&
00503               (phi0-phi) <= dPhi[i] && (phi0-phi) >= -dPhi[i]) {
00504 
00505             LogDebug("ValidHcal") << "SimG4HcalValidation:: nxNAnalysis eta0,"
00506                                   << " phi0 = " << eta0 << " " << phi0 
00507                                   << "   type, layer = " << type << "," 
00508                                   << layer << "  eta, phi = " << eta << " " 
00509                                   << phi;
00510 
00511             product.fillTProfileNxN(e, i, t);  
00512             break;
00513           }
00514         }
00515         // here comes break ...
00516       }
00517     }
00518   }
00519 
00520   product.fillEcollectNxN(ee, he, hoe, etot);       
00521   product.fillHvsE(een, hen, hoen, een+hen);
00522 
00523   LogDebug("ValidHcal") << " nxNAnalysis ===> after fillHvsE";
00524 
00525 
00526 }
00527 
00528 
00529 //-----------------------------------------------------------------------------
00530 void SimG4HcalValidation::jetAnalysis(PHcalValidInfoJets& product) {
00531 
00532   std::vector<CaloHit> * hhit = &hitcache;
00533 
00534   jetf->setInput(hhit);
00535 
00536   // zeroing cluster list, perfom clustering, fill cluster list & return pntr
00537   std::vector<SimG4HcalHitCluster> * result = jetf->getClusters(hcalOnly);  
00538 
00539   std::vector<SimG4HcalHitCluster>::iterator clus_itr;
00540 
00541   LogDebug("ValidHcal") << "\n ---------- Final list of " << (*result).size()
00542                         << " clusters ---------------";
00543   for (clus_itr = result->begin(); clus_itr < result->end(); clus_itr++) 
00544     LogDebug("ValidHcal") << (*clus_itr);
00545 
00546   std::vector<double> enevec, etavec, phivec; 
00547 
00548   if ((*result).size() > 0) {
00549 
00550     sort((*result).begin(),(*result).end()); 
00551 
00552     clus_itr = result->begin(); // first cluster only 
00553     double etac = clus_itr->eta();
00554     double phic = clus_itr->phi();
00555 
00556     double ecal_collect = 0.;    // collect Ecal energy in the cone
00557     if (!hcalOnly) {
00558       ecal_collect = clus_itr->collectEcalEnergyR();}
00559     else {
00560       collectEnergyRdir(etac, phic);
00561       ecal_collect = een;
00562     }
00563     LogDebug("ValidHcal") << " JetAnalysis ===> ecal_collect  = " 
00564                           << ecal_collect;
00565 
00566     // eta-phi deviation of the cluster from nominal (eta0, phi0) values
00567     double dist = jetf->rDist(eta0, phi0, etac, phic);
00568     LogDebug("ValidHcal") << " JetAnalysis ===> eta phi deviation  = " << dist;
00569     product.fillEtaPhiProfileJet(eta0, phi0, etac, phic, dist);
00570    
00571     LogDebug("ValidHcal") << " JetAnalysis ===> after fillEtaPhiProfileJet";
00572     
00573     std::vector<CaloHit> * hits = clus_itr->getHits() ;
00574     std::vector<CaloHit>::iterator hit_itr;
00575 
00576     double ee = 0., he = 0., hoe = 0., etot = 0.;
00577     
00578     // cycle over all hits in the FIRST cluster
00579     for (hit_itr = hits->begin(); hit_itr < hits->end(); hit_itr++) {
00580       double e   = hit_itr->e();
00581       double t   = hit_itr->t();
00582       double r   = jetf->rDist(&(*clus_itr), &(*hit_itr));
00583 
00584       // energy collection
00585       etot += e;
00586       if (hit_itr->det()  == 10 || hit_itr->det()  == 11 ||
00587           hit_itr->det()  == 12) ee  += e;
00588       if (hit_itr->det()  == static_cast<int>(HcalBarrel) ||
00589           hit_itr->det()  == static_cast<int>(HcalEndcap) ||
00590           hit_itr->det()  == static_cast<int>(HcalForward)) { 
00591         he  += e; 
00592         if (hit_itr->det()  == static_cast<int>(HcalBarrel) &&
00593             hit_itr->layer() > 17) 
00594           hoe += e; 
00595       }
00596 
00597       if (hit_itr->det()  == static_cast<int>(HcalBarrel) ||
00598           hit_itr->det()  == static_cast<int>(HcalEndcap) ||
00599           hit_itr->det()  == static_cast<int>(HcalForward)) { 
00600         product.fillTProfileJet(he, r, t);
00601       }
00602     }
00603     
00604     product.fillEcollectJet(ee, he, hoe, etot);       
00605 
00606     LogDebug("ValidHcal") << " JetAnalysis ===> after fillEcollectJet: "
00607                           << "ee/he/hoe/etot " << ee << "/" << he << "/" 
00608                           << hoe << "/" << etot;
00609 
00610     // Loop over clusters
00611     for (clus_itr = result->begin(); clus_itr < result->end(); clus_itr++) {
00612       if (clus_itr->e() > jetThreshold) {
00613         enevec.push_back(clus_itr->e());
00614         etavec.push_back(clus_itr->eta());
00615         phivec.push_back(clus_itr->phi());
00616       }
00617     }
00618     product.fillJets(enevec, etavec, phivec);
00619 
00620     LogDebug("ValidHcal") << " JetAnalysis ===> after fillJets\n"
00621                           << " JetAnalysis ===> (*result).size() "
00622                           << (*result).size();
00623  
00624     // Di-jet mass
00625     if (etavec.size() > 1) {
00626       if (etavec[0] > -2.5 && etavec[0] < 2.5 && 
00627           etavec[1] > -2.5 && etavec[1] < 2.5) {
00628  
00629         LogDebug("ValidHcal") << " JetAnalysis ===> Di-jet mass enter\n"
00630                               << " JetAnalysis ===> Di-jet vectors ";
00631         for (unsigned int i = 0; i < enevec.size(); i++)
00632           LogDebug("ValidHcal") << "   e, eta, phi = " << enevec[i] << " "
00633                                 <<  etavec[i] << " " << phivec[i];
00634 
00635         double et0 = enevec[0] / cosh(etavec[0]);
00636         double px0 = et0  * cos(phivec[0]);
00637         double py0 = et0  * sin(phivec[0]);
00638         double pz0 = et0  * sinh(etavec[0]);
00639         double et1 = enevec[1] / cosh(etavec[1]);
00640         double px1 = et1  * cos(phivec[1]);
00641         double py1 = et1  * sin(phivec[1]);
00642         double pz1 = et1  * sinh(etavec[1]);
00643          
00644         double dijetmass2 = (enevec[0]+enevec[1])*(enevec[0]+enevec[1])
00645           - (px1+px0)*(px1+px0) - (py1+py0)*(py1+py0) - (pz1+pz0)*(pz1+pz0);
00646  
00647         LogDebug("ValidHcal") << " JetAnalysis ===> Di-jet massSQ "
00648                               << dijetmass2;
00649 
00650         double dijetmass;
00651         if(dijetmass2 >= 0.) dijetmass = sqrt(dijetmass2);
00652         else                 dijetmass = -sqrt(-1. * dijetmass2);
00653 
00654         product.fillDiJets(dijetmass);
00655  
00656         LogDebug("ValidHcal") << " JetAnalysis ===> after fillDiJets";
00657       }
00658     }
00659   }
00660 }
00661 
00662 //---------------------------------------------------
00663 void SimG4HcalValidation::fetchHits(PHcalValidInfoLayer& product) {
00664 
00665   LogDebug("ValidHcal") << "Enter SimG4HcalValidation::fetchHits with "
00666                         << hitcache.size() << " hits";
00667   int nHit = hitcache.size();
00668   int hit  = 0;
00669   int i;
00670   std::vector<CaloHit>::iterator itr;
00671   std::vector<CaloHit*> lhits(nHit);
00672   for (i = 0, itr = hitcache.begin(); itr != hitcache.end(); i++, itr++) {
00673     uint32_t unitID=itr->id();
00674     int   subdet, zside, group, ieta, iphi, lay;
00675     HcalTestNumbering::unpackHcalIndex(unitID,subdet,zside,group,
00676                                        ieta,iphi,lay);
00677     subdet = itr->det();
00678     lay    = itr->layer();
00679     group  = (subdet&15)<<20;
00680     group += ((lay-1)&31)<<15;
00681     group += (zside&1)<<14;
00682     group += (ieta&127)<<7;
00683     group += (iphi&127);
00684     itr->setId(group);
00685     lhits[i] = &hitcache[i];
00686     LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Original " << i 
00687                           << " "  << hitcache[i] << "\n"
00688                           << "SimG4HcalValidation::fetchHits:Copied   " << i 
00689                           << " " << *lhits[i];
00690   }
00691   sort(lhits.begin(),lhits.end(),CaloHitIdMore());
00692   std::vector<CaloHit*>::iterator k1, k2;
00693   for (i = 0, k1 = lhits.begin(); k1 != lhits.end(); i++, k1++)
00694     LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Sorted " << i 
00695                           << " " << **k1;
00696   int nHits = 0;
00697   for (i = 0, k1 = lhits.begin(); k1 != lhits.end(); i++, k1++) {
00698     double       ehit  = (**k1).e();
00699     double       t     = (**k1).t();
00700     uint32_t     unitID= (**k1).id();
00701     int          jump  = 0;
00702     LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Start " << i 
00703                           << " U/T/E" << " 0x" << std::hex << unitID 
00704                           << std::dec << " "  << t << " " << ehit;
00705     for (k2 = k1+1; k2 != lhits.end() && (t-(**k2).t()) < 1 &&
00706            (t-(**k2).t()) > -1 && unitID == (**k2).id(); k2++) {
00707       ehit += (**k2).e();
00708       LogDebug("ValidHcal") << "\t + " << (**k2).e();
00709       jump++;
00710     }
00711     LogDebug("ValidHcal") << "\t = " << ehit << " in " << jump;
00712 
00713     double eta  = (*k1)->eta();
00714     double phi  = (*k1)->phi();
00715     int lay     = ((unitID>>15)&31) + 1;
00716     int subdet  = (unitID>>20)&15;
00717     int zside   = (unitID>>14)&1;
00718     int ieta    = (unitID>>7)&127;
00719     int iphi    = (unitID)&127;
00720  
00721     // All hits in cache
00722     product.fillHits(nHits, lay, subdet, eta, phi, ehit, t);
00723     nHits++;
00724 
00725     LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits:Hit " << nHits 
00726                           << " " << i << " ID 0x" << std::hex << unitID 
00727                           << "   det " <<  std::dec  << subdet << " " << lay 
00728                           << " " << zside << " " << ieta << " " << iphi 
00729                           << " Time " << t << " E " << ehit;
00730 
00731     i  += jump;
00732     k1 += jump;
00733   }
00734 
00735   LogDebug("ValidHcal") << "SimG4HcalValidation::fetchHits called with "
00736                         << nHit << " hits" << " and writes out " << nHits
00737                         << '(' << hit << ") hits";
00738 
00739 }
00740 //---------------------------------------------------
00741 void SimG4HcalValidation::clear(){
00742    hitcache.erase( hitcache.begin(), hitcache.end()); 
00743 }
00744 
00745 //---------------------------------------------------
00746 void SimG4HcalValidation::collectEnergyRdir (const double eta0, 
00747                                              const double phi0) {
00748 
00749   std::vector<CaloHit> * hits = &hitcache;
00750   std::vector<CaloHit>::iterator hit_itr;
00751 
00752   double sume = 0., sumh = 0., sumho = 0.;  
00753 
00754   for (hit_itr = hits->begin(); hit_itr < hits->end(); hit_itr++) {
00755 
00756     double e   = hit_itr->e();
00757     double eta = hit_itr->eta();
00758     double phi = hit_itr->phi();
00759     
00760     int type  = hit_itr->det();
00761 
00762     double r =  jetf->rDist(eta0, phi0, eta, phi);
00763     if (r < coneSize) {
00764       if (type == 10 || type == 11 || type == 12) {
00765         sume += e;
00766       } else           {
00767         sumh += e;
00768         if (type  == static_cast<int>(HcalBarrel) &&
00769             hit_itr->layer() > 17) sumho += e;
00770       }
00771     }
00772   }
00773   
00774   een  = sume;
00775   hen  = sumh;
00776   hoen = sumho;
00777 }
00778 
00779 //---------------------------------------------------
00780 double SimG4HcalValidation::getHcalScale(std::string det, int layer) const {
00781 
00782   double tmp = 0.;
00783     
00784   if (det == "HB")                         {
00785     tmp = scaleHB[layer];
00786   } else if (det == "HES" || det == "HED") {
00787     tmp = scaleHE[layer];
00788   } else if (det == "HF")                  {
00789     tmp = scaleHF[layer];
00790   }    
00791   
00792   return tmp;
00793 }