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/data/refman/pasoursint/CMSSW_4_1_8_patch9/src/Validation/EventGenerator/plugins/BasicGenParticleValidation.cc

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00001 /*class BasicGenParticleValidation
00002  *  
00003  *  Class to fill dqm monitor elements from existing EDM file
00004  *
00005  *  $Date: 2010/07/02 13:34:23 $
00006  *  $Revision: 1.2 $
00007  */
00008  
00009 #include "Validation/EventGenerator/interface/BasicGenParticleValidation.h"
00010 
00011 #include "CLHEP/Units/defs.h"
00012 #include "CLHEP/Units/PhysicalConstants.h"
00013 
00014 using namespace edm;
00015 
00016 BasicGenParticleValidation::BasicGenParticleValidation(const edm::ParameterSet& iPSet):  
00017   hepmcCollection_(iPSet.getParameter<edm::InputTag>("hepmcCollection")),
00018   genparticleCollection_(iPSet.getParameter<edm::InputTag>("genparticleCollection")),
00019   genjetCollection_(iPSet.getParameter<edm::InputTag>("genjetsCollection")),
00020   matchPr_(iPSet.getParameter<double>("matchingPrecision")),
00021   verbosity_(iPSet.getUntrackedParameter<unsigned int>("verbosity",0))
00022 {    
00023   dbe = 0;
00024   dbe = edm::Service<DQMStore>().operator->();
00025 }
00026 
00027 BasicGenParticleValidation::~BasicGenParticleValidation() {}
00028 
00029 void BasicGenParticleValidation::beginJob()
00030 {
00031   if(dbe){
00033         dbe->setCurrentFolder("Generator/GenParticles");
00034         
00036     
00037     // Number of analyzed events
00038     nEvt = dbe->book1D("nEvt", "n analyzed Events", 1, 0., 1.);
00039 
00041         genPMultiplicity = dbe->book1D("genPMultiplicty", "Log(No. all GenParticles)", 50, -1, 5); //Log
00042     //difference in HepMC and reco multiplicity
00043     genMatched = dbe->book1D("genMatched", "Difference reco - matched", 50, -25, 25);
00044     //multiple matching
00045     multipleMatching = dbe->book1D("multipleMatching", "multiple reco HepMC matching", 50, 0, 50);
00046     //momentum difference of matched particles
00047     matchedResolution = dbe->book1D("matchedResolution", "log10(momentum difference of matched particles)", 70, -10., -3.);
00048 
00049     // GenJet general distributions
00050     genJetMult = dbe->book1D("genJetMult", "GenJet multiplicity", 50, 0, 50);
00051     genJetEnergy = dbe->book1D("genJetEnergy", "Log10(GenJet energy)", 60, -1, 5);
00052     genJetPt = dbe->book1D("genJetPt", "Log10(GenJet pt)", 60, -1, 5);
00053     genJetEta = dbe->book1D("genJetEta", "GenJet eta", 220, -11, 11);
00054     genJetPhi = dbe->book1D("genJetPhi", "GenJet phi", 360, -180, 180);
00055     genJetDeltaEtaMin = dbe->book1D("genJetDeltaEtaMin", "GenJet minimum rapidity gap", 30, 0, 30);
00056     
00057     genJetPto1 = dbe->book1D("genJetPto1", "GenJet multiplicity above 1 GeV", 50, 0, 50);
00058     genJetPto10 = dbe->book1D("genJetPto10", "GenJet multiplicity above 10 GeV", 50, 0, 50);
00059     genJetPto100 = dbe->book1D("genJetPto100", "GenJet multiplicity above 100 GeV", 50, 0, 50);
00060     genJetCentral = dbe->book1D("genJetCentral", "GenJet multiplicity |eta|.lt.2.5", 50, 0, 50);
00061 
00062     genJetTotPt = dbe->book1D("genJetTotPt", "Log10(GenJet total pt)", 100, -5, 5);
00063 
00064   }
00065   return;
00066 }
00067 
00068 void BasicGenParticleValidation::endJob(){return;}
00069 void BasicGenParticleValidation::beginRun(const edm::Run& iRun,const edm::EventSetup& iSetup)
00070 {
00072   iSetup.getData( fPDGTable );
00073   return;
00074 }
00075 void BasicGenParticleValidation::endRun(const edm::Run& iRun,const edm::EventSetup& iSetup){return;}
00076 void BasicGenParticleValidation::analyze(const edm::Event& iEvent,const edm::EventSetup& iSetup)
00077 { 
00078 
00079   unsigned int initSize = 1000;
00080 
00082   edm::Handle<HepMCProduct> evt;
00083   iEvent.getByLabel(hepmcCollection_, evt);
00084 
00085   //Get HepMC EVENT
00086   HepMC::GenEvent *myGenEvent = new HepMC::GenEvent(*(evt->GetEvent()));
00087 
00088   nEvt->Fill(0.5);
00089 
00090   std::vector<const HepMC::GenParticle*> hepmcGPCollection;
00091   std::vector<int> barcodeList;
00092   hepmcGPCollection.reserve(initSize);
00093   barcodeList.reserve(initSize);
00094 
00095   //Looping through HepMC::GenParticle collection to search for status 1 particles
00096   for (HepMC::GenEvent::particle_const_iterator iter = myGenEvent->particles_begin(); iter != myGenEvent->particles_end(); ++iter){
00097     if ( (*iter)->status() == 1) {
00098       hepmcGPCollection.push_back(*iter);
00099       barcodeList.push_back((*iter)->barcode());
00100       if ( verbosity_ > 0 ) {
00101         std::cout << "HepMC " << std::setw(14) << std::fixed << (*iter)->pdg_id() << std::setw(14) << std::fixed << (*iter)->momentum().px() << std::setw(14) << std::fixed 
00102                   << (*iter)->momentum().py() << std::setw(14) << std::fixed << (*iter)->momentum().pz() << std::endl;
00103       }
00104     }
00105   }
00106   
00107 
00108   // Gather information on the reco::GenParticle collection
00109   edm::Handle<reco::GenParticleCollection> genParticles;
00110   iEvent.getByLabel(genparticleCollection_, genParticles );
00111   
00112   std::vector<const reco::GenParticle*> particles;
00113   particles.reserve(initSize);
00114   for (reco::GenParticleCollection::const_iterator iter=genParticles->begin();iter!=genParticles->end();++iter){
00115     if ( (*iter).status() == 1) { 
00116       particles.push_back(&*iter); 
00117       if ( verbosity_ > 0 ) {
00118         std::cout << "reco  " << std::setw(14) << std::fixed << (*iter).pdgId() << std::setw(14) << std::fixed << (*iter).px() 
00119                   << std::setw(14) << std::fixed << (*iter).py() << std::setw(14) << std::fixed << (*iter).pz() << std::endl;
00120       }
00121     }
00122   }
00123 
00124   unsigned int nReco = particles.size();
00125   unsigned int nHepMC = hepmcGPCollection.size();
00126 
00127   genPMultiplicity->Fill(std::log10(nReco));
00128 
00129   // Define vector containing index of hepmc corresponding to the reco::GenParticle
00130   std::vector<int> hepmcMatchIndex;
00131   hepmcMatchIndex.reserve(initSize);
00132 
00133   // Matching procedure
00134 
00135   // Check array size consistency
00136 
00137   if ( nReco != nHepMC ) {
00138     edm::LogWarning("CollectionSizeInconsistency") << "Collection size inconsistency: HepMC::GenParticle = " << nHepMC << " reco::GenParticle = " << nReco;
00139   }
00140 
00141   // Match each HepMC with a reco
00142 
00143   for ( unsigned int i = 0; i < nReco; ++i ){
00144     for ( unsigned int j = 0; j < nHepMC; ++j ){
00145       if ( matchParticles( hepmcGPCollection[j], particles[i] ) ) { 
00146         hepmcMatchIndex.push_back((int)j); 
00147         if ( hepmcGPCollection[j]->momentum().rho() != 0. ) { 
00148           double reso = 1.-particles[i]->p()/hepmcGPCollection[j]->momentum().rho();
00149           if ( verbosity_ > 0 ) { 
00150             std::cout << "Matching momentum: reco = " << particles[i]->p() << " HepMC = " 
00151                       << hepmcGPCollection[j]->momentum().rho() << " resoultion = " << reso << std::endl;
00152           }
00153           matchedResolution->Fill(std::log10(std::fabs(reso))); }
00154         continue; 
00155       }
00156     }
00157   }
00158 
00159   // Check unicity of matching
00160 
00161   unsigned int nMatched = hepmcMatchIndex.size();
00162   
00163   if ( nMatched != nReco ) {
00164     edm::LogWarning("IncorrectMatching") << "Incorrect number of matched indexes: GenParticle = " << nReco << " matched indexes = " << nMatched;
00165   }
00166   genMatched->Fill(int(nReco-nMatched));
00167 
00168   unsigned int nWrMatch = 0;
00169 
00170   for ( unsigned int i = 0; i < nMatched; ++i ){
00171     for (unsigned int j = i+1; j < nMatched; ++j ){
00172       if ( hepmcMatchIndex[i] == hepmcMatchIndex[j] ) {
00173         int theIndex = hepmcMatchIndex[i];
00174         edm::LogWarning("DuplicatedMatching") << "Multiple matching occurencies for GenParticle barcode = " << barcodeList[theIndex];
00175         nWrMatch++;
00176       }
00177     }
00178   }
00179   multipleMatching->Fill(int(nWrMatch));
00180 
00181   // Gather information in the GenJet collection
00182   edm::Handle<reco::GenJetCollection> genJets;
00183   iEvent.getByLabel(genjetCollection_, genJets );
00184 
00185   int nJets = 0;
00186   int nJetso1 = 0;
00187   int nJetso10 = 0;
00188   int nJetso100 = 0;
00189   int nJetsCentral = 0;
00190   double totPt = 0.;
00191   
00192   std::vector<double> jetEta;
00193   jetEta.reserve(initSize);
00194 
00195   for (reco::GenJetCollection::const_iterator iter=genJets->begin();iter!=genJets->end();++iter){
00196     nJets++;
00197     double pt = (*iter).pt();
00198     totPt += pt;
00199     if (pt > 1.) nJetso1++;
00200     if (pt > 10.) nJetso10++;
00201     if (pt > 100.) nJetso100++;
00202     double eta = (*iter).eta();
00203     if ( std::fabs(eta) < 2.5 ) nJetsCentral++;
00204     jetEta.push_back(eta);
00205 
00206     genJetEnergy->Fill(std::log10((*iter).energy()));
00207     genJetPt->Fill(std::log10(pt));
00208     genJetEta->Fill(eta);
00209     genJetPhi->Fill((*iter).phi()/CLHEP::degree);
00210   }
00211 
00212   genJetMult->Fill(nJets);
00213   genJetPto1->Fill(nJetso1);
00214   genJetPto10->Fill(nJetso10);
00215   genJetPto100->Fill(nJetso100);
00216   genJetCentral->Fill(nJetsCentral);
00217 
00218   genJetTotPt->Fill(std::log10(totPt));
00219 
00220   double deltaEta = 999.;
00221   if ( jetEta.size() > 1 ) {
00222     for (unsigned int i = 0; i < jetEta.size(); i++){
00223       for (unsigned int j = i+1; j < jetEta.size(); j++){
00224         deltaEta = std::min(deltaEta,std::fabs(jetEta[i]-jetEta[j]));
00225       }
00226     }
00227   }
00228 
00229   genJetDeltaEtaMin->Fill(deltaEta);
00230 
00231   delete myGenEvent;
00232 }//analyze
00233 
00234 bool BasicGenParticleValidation::matchParticles(const HepMC::GenParticle*& hepmcP, const reco::GenParticle*& recoP){
00235 
00236   bool state = false;
00237 
00238   if ( hepmcP->pdg_id() != recoP->pdgId() ) return state;
00239   if ( std::fabs(hepmcP->momentum().px()-recoP->px()) < std::fabs(matchPr_*hepmcP->momentum().px()) && 
00240        std::fabs(hepmcP->momentum().py()-recoP->py()) < std::fabs(matchPr_*hepmcP->momentum().py()) && 
00241        std::fabs(hepmcP->momentum().pz()-recoP->pz()) < std::fabs(matchPr_*hepmcP->momentum().pz())) {
00242     state = true; }
00243 
00244   return state;
00245 
00246 }