CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_3_10/src/PhysicsTools/PatUtils/interface/SmearedJetProducerT.h

Go to the documentation of this file.
00001 #ifndef PhysicsTools_PatUtils_SmearedJetProducerT_h
00002 #define PhysicsTools_PatUtils_SmearedJetProducerT_h
00003 
00020 #include "FWCore/Framework/interface/Frameworkfwd.h"
00021 #include "FWCore/Framework/interface/EDProducer.h"
00022 #include "FWCore/Framework/interface/Event.h"
00023 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00024 #include "FWCore/Utilities/interface/InputTag.h"
00025 
00026 #include "FWCore/ParameterSet/interface/FileInPath.h"
00027 #include "FWCore/Utilities/interface/Exception.h"
00028 
00029 #include "DataFormats/PatCandidates/interface/Jet.h"
00030 #include "DataFormats/METReco/interface/CorrMETData.h"
00031 #include "DataFormats/Common/interface/Handle.h"
00032 
00033 #include "DataFormats/JetReco/interface/GenJet.h"
00034 #include "DataFormats/JetReco/interface/GenJetCollection.h"
00035 #include "DataFormats/Math/interface/deltaR.h"
00036 
00037 #include "JetMETCorrections/Type1MET/interface/JetCorrExtractorT.h"
00038 #include "CommonTools/Utils/interface/StringCutObjectSelector.h"
00039 
00040 #include <TFile.h>
00041 #include <TFormula.h>
00042 #include <TH2.h>
00043 #include <TMath.h>
00044 #include <TRandom3.h>
00045 #include <TString.h>
00046 
00047 #include <iostream>
00048 #include <iomanip>
00049 
00050 namespace SmearedJetProducer_namespace
00051 {
00052   template <typename T>
00053   class GenJetMatcherT
00054   {
00055     public:
00056 
00057      GenJetMatcherT(const edm::ParameterSet& cfg) 
00058        : srcGenJets_(cfg.getParameter<edm::InputTag>("srcGenJets")),
00059          dRmaxGenJetMatch_(0)
00060      {
00061        TString dRmaxGenJetMatch_formula = cfg.getParameter<std::string>("dRmaxGenJetMatch").data();
00062        dRmaxGenJetMatch_formula.ReplaceAll("genJetPt", "x");
00063        dRmaxGenJetMatch_ = new TFormula("dRmaxGenJetMatch", dRmaxGenJetMatch_formula.Data());
00064      }
00065      ~GenJetMatcherT() 
00066      {
00067        delete dRmaxGenJetMatch_;
00068      }
00069 
00070      const reco::GenJet* operator()(const T& jet, edm::Event* evt = 0) const
00071      {
00072        assert(evt);
00073        
00074        edm::Handle<reco::GenJetCollection> genJets;
00075        evt->getByLabel(srcGenJets_, genJets);
00076 
00077        const reco::GenJet* retVal = 0;
00078 
00079        double dRbestMatch = 1.e+6;
00080        for ( reco::GenJetCollection::const_iterator genJet = genJets->begin();
00081              genJet != genJets->end(); ++genJet ) {
00082          double dRmax = dRmaxGenJetMatch_->Eval(genJet->pt());
00083          //std::cout << "genJetPt = " << genJet->pt() << ": dRmax = " << dRmax << std::endl;
00084          double dR = deltaR(jet.p4(), genJet->p4());     
00085          if ( dR < dRbestMatch && dR < dRmax ) {
00086            retVal = &(*genJet);
00087            dRbestMatch = dR;
00088          }
00089        }
00090 
00091        return retVal;
00092      }
00093 
00094     private:
00095 
00096 //--- configuration parameter
00097      edm::InputTag srcGenJets_;
00098 
00099      TFormula* dRmaxGenJetMatch_;
00100   };
00101 
00102   template <typename T>
00103   class JetResolutionExtractorT
00104   {
00105     public:
00106 
00107      JetResolutionExtractorT(const edm::ParameterSet&) {}
00108      ~JetResolutionExtractorT() {}
00109 
00110      double operator()(const T&) const
00111      {
00112        throw cms::Exception("SmearedJetProducer::produce")
00113          << " Jets of type other than PF not supported yet !!\n";       
00114      }
00115   };
00116 
00117   template <typename T>
00118   class RawJetExtractorT // this template is neccessary to support pat::Jets
00119                          // (because pat::Jet->p4() returns the JES corrected, not the raw, jet momentum)
00120   {
00121     public:
00122 
00123      reco::Candidate::LorentzVector operator()(const T& jet) const 
00124      {        
00125        return jet.p4();
00126      } 
00127   };
00128 
00129   template <>
00130   class RawJetExtractorT<pat::Jet>
00131   {
00132     public:
00133 
00134      reco::Candidate::LorentzVector operator()(const pat::Jet& jet) const 
00135      { 
00136        if ( jet.jecSetsAvailable() ) return jet.correctedP4("Uncorrected");
00137        else return jet.p4();
00138      } 
00139   };
00140 }
00141 
00142 template <typename T, typename Textractor>
00143 class SmearedJetProducerT : public edm::EDProducer 
00144 {
00145   typedef std::vector<T> JetCollection;
00146 
00147  public:
00148 
00149   explicit SmearedJetProducerT(const edm::ParameterSet& cfg)
00150     : moduleLabel_(cfg.getParameter<std::string>("@module_label")),
00151       genJetMatcher_(cfg),
00152       jetResolutionExtractor_(cfg.getParameter<edm::ParameterSet>("jetResolutions")),
00153       skipJetSelection_(0)
00154   {
00155     //std::cout << "<SmearedJetProducer::SmearedJetProducer>:" << std::endl;
00156     //std::cout << " moduleLabel = " << moduleLabel_ << std::endl;
00157 
00158     src_ = cfg.getParameter<edm::InputTag>("src");
00159 
00160     edm::FileInPath inputFileName = cfg.getParameter<edm::FileInPath>("inputFileName");
00161     std::string lutName = cfg.getParameter<std::string>("lutName");
00162     if ( !inputFileName.isLocal() ) 
00163       throw cms::Exception("JetMETsmearInputProducer") 
00164         << " Failed to find File = " << inputFileName << " !!\n";
00165 
00166     inputFile_ = new TFile(inputFileName.fullPath().data());
00167     lut_ = dynamic_cast<TH2*>(inputFile_->Get(lutName.data()));
00168     if ( !lut_ ) 
00169       throw cms::Exception("SmearedJetProducer") 
00170         << " Failed to load LUT = " << lutName.data() << " from file = " << inputFileName.fullPath().data() << " !!\n";
00171 
00172     jetCorrLabel_ = ( cfg.exists("jetCorrLabel") ) ?
00173       cfg.getParameter<std::string>("jetCorrLabel") : "";
00174     jetCorrEtaMax_ = ( cfg.exists("jetCorrEtaMax") ) ?
00175       cfg.getParameter<double>("jetCorrEtaMax") : 9.9;
00176 
00177     sigmaMaxGenJetMatch_ = cfg.getParameter<double>("sigmaMaxGenJetMatch");
00178 
00179     smearBy_ = ( cfg.exists("smearBy") ) ? cfg.getParameter<double>("smearBy") : 1.0;
00180     //std::cout << "smearBy = " << smearBy_ << std::endl;
00181 
00182     shiftBy_ = ( cfg.exists("shiftBy") ) ? cfg.getParameter<double>("shiftBy") : 0.;
00183     //std::cout << "shiftBy = " << shiftBy_ << std::endl;
00184 
00185     if ( cfg.exists("skipJetSelection") ) {
00186       std::string skipJetSelection_string = cfg.getParameter<std::string>("skipJetSelection");
00187       skipJetSelection_ = new StringCutObjectSelector<T>(skipJetSelection_string);
00188     }
00189 
00190     skipRawJetPtThreshold_  = ( cfg.exists("skipRawJetPtThreshold")  ) ? 
00191       cfg.getParameter<double>("skipRawJetPtThreshold")  : 1.e-2;
00192     skipCorrJetPtThreshold_ = ( cfg.exists("skipCorrJetPtThreshold") ) ? 
00193       cfg.getParameter<double>("skipCorrJetPtThreshold") : 1.e-2;
00194 
00195     verbosity_ = ( cfg.exists("verbosity") ) ?
00196       cfg.getParameter<int>("verbosity") : 0;
00197 
00198     produces<JetCollection>();
00199   }
00200   ~SmearedJetProducerT()
00201   {
00202     delete skipJetSelection_;
00203     delete inputFile_;
00204     delete lut_;
00205   }
00206     
00207  private:
00208 
00209   virtual void produce(edm::Event& evt, const edm::EventSetup& es)
00210   {
00211     if ( verbosity_ ) {
00212       std::cout << "<SmearedJetProducerT::produce>:" << std::endl;
00213       std::cout << " moduleLabel = " << moduleLabel_ << std::endl;
00214       std::cout << " src = " << src_.label() << std::endl;
00215     }
00216 
00217     std::auto_ptr<JetCollection> smearedJets(new JetCollection);
00218     
00219     edm::Handle<JetCollection> jets;
00220     evt.getByLabel(src_, jets);
00221 
00222     int numJets = jets->size();
00223     for ( int jetIndex = 0; jetIndex < numJets; ++jetIndex ) {
00224       const T& jet = jets->at(jetIndex);
00225       
00226       static SmearedJetProducer_namespace::RawJetExtractorT<T> rawJetExtractor;
00227       reco::Candidate::LorentzVector rawJetP4 = rawJetExtractor(jet);
00228       if ( verbosity_ ) {
00229         std::cout << "rawJet: Pt = " << rawJetP4.pt() << ", eta = " << rawJetP4.eta() << ", phi = " << rawJetP4.phi() << std::endl;
00230       }
00231 
00232       reco::Candidate::LorentzVector corrJetP4 = jet.p4();
00233       if ( jetCorrLabel_ != "" ) corrJetP4 = jetCorrExtractor_(jet, jetCorrLabel_, &evt, &es, jetCorrEtaMax_, &rawJetP4);
00234       if ( verbosity_ ) {
00235         std::cout << "corrJet: Pt = " << corrJetP4.pt() << ", eta = " << corrJetP4.eta() << ", phi = " << corrJetP4.phi() << std::endl;
00236       }
00237 
00238       double smearFactor = 1.;      
00239       double x = TMath::Abs(corrJetP4.eta());
00240       double y = corrJetP4.pt();
00241       if ( x > lut_->GetXaxis()->GetXmin() && x < lut_->GetXaxis()->GetXmax() &&
00242            y > lut_->GetYaxis()->GetXmin() && y < lut_->GetYaxis()->GetXmax() ) {
00243         int binIndex = lut_->FindBin(x, y);
00244         
00245         if ( smearBy_ > 0. ) smearFactor += smearBy_*(lut_->GetBinContent(binIndex) - 1.);
00246         double smearFactorErr = lut_->GetBinError(binIndex);
00247         if ( verbosity_ ) std::cout << "smearFactor = " << smearFactor << " +/- " << smearFactorErr << std::endl;
00248 
00249         if ( shiftBy_ != 0. ) {
00250           smearFactor += (shiftBy_*smearFactorErr);
00251           if ( verbosity_ ) std::cout << "smearFactor(shifted) = " << smearFactor << std::endl;
00252         }
00253       }
00254 
00255       double smearedJetEn = jet.energy();
00256       double sigmaEn = jetResolutionExtractor_(jet)*TMath::Sqrt(smearFactor*smearFactor - 1.);
00257       const reco::GenJet* genJet = genJetMatcher_(jet, &evt);
00258       bool isGenMatched = false;
00259       if ( genJet ) {
00260         if ( verbosity_ ) {
00261           std::cout << "genJet: Pt = " << genJet->pt() << ", eta = " << genJet->eta() << ", phi = " << genJet->phi() << std::endl;
00262         }
00263         double dEn = corrJetP4.E() - genJet->energy();
00264         if ( dEn < (sigmaMaxGenJetMatch_*sigmaEn) ) {
00265 //--- case 1: reconstructed jet matched to generator level jet, 
00266 //            smear difference between reconstructed and "true" jet energy
00267 
00268           if ( verbosity_ ) {
00269             std::cout << " successfully matched to genJet" << std::endl;        
00270             std::cout << "corrJetEn = " << corrJetP4.E() << ", genJetEn = " << genJet->energy() << " --> dEn = " << dEn << std::endl;
00271           }
00272 
00273           smearedJetEn = jet.energy()*(1. + (smearFactor - 1.)*dEn/TMath::Max(rawJetP4.E(), corrJetP4.E()));
00274           isGenMatched = true;
00275         }
00276       }
00277       if ( !isGenMatched ) {
00278 //--- case 2: reconstructed jet **not** matched to generator level jet, 
00279 //            smear jet energy using MC resolution functions implemented in PFMEt significance algorithm (CMS AN-10/400)
00280 
00281         if ( verbosity_ ) {
00282           std::cout << " not matched to genJet" << std::endl;
00283           std::cout << "corrJetEn = " << corrJetP4.E() << ", sigmaEn = " << sigmaEn << std::endl;
00284         }
00285 
00286         if ( smearFactor > 1. ) {
00287           // CV: MC resolution already accounted for in reconstructed jet,
00288           //     add additional Gaussian smearing of width = sqrt(smearFactor^2 - 1) 
00289           //     to account for Data/MC **difference** in jet resolutions.
00290           //     Take maximum(rawJetEn, corrJetEn) to avoid pathological cases
00291           //    (e.g. corrJetEn << rawJetEn, due to L1Fastjet corrections)
00292 
00293           smearedJetEn = jet.energy()*(1. + rnd_.Gaus(0., sigmaEn)/TMath::Max(rawJetP4.E(), corrJetP4.E()));
00294         }
00295       }
00296 
00297       // CV: keep minimum jet energy, in order not to loose direction information
00298       const double minJetEn = 1.e-2;
00299       if ( smearedJetEn < minJetEn ) smearedJetEn = minJetEn;
00300 
00301       // CV: skip smearing in case either "raw" or "corrected" jet energy is very low
00302       //     or jet passes selection configurable via python
00303       //    (allows for protection against "pathological cases",
00304       //     cf. PhysicsTools/PatUtils/python/tools/metUncertaintyTools.py)
00305       reco::Candidate::LorentzVector smearedJetP4 = jet.p4();
00306       if ( !((skipJetSelection_ && (*skipJetSelection_)(jet)) ||
00307              rawJetP4.pt()  < skipRawJetPtThreshold_          ||
00308              corrJetP4.pt() < skipCorrJetPtThreshold_         ) ) {
00309         if ( verbosity_ ) {
00310           std::cout << " smearing jetP4 by factor = " << (smearedJetEn/jet.energy()) << " --> smearedJetEn = " << smearedJetEn << std::endl;
00311         }
00312         smearedJetP4 *= (smearedJetEn/jet.energy());
00313       }
00314           
00315       if ( verbosity_ ) {
00316         std::cout << "smearedJet: Pt = " << smearedJetP4.pt() << ", eta = " << smearedJetP4.eta() << ", phi = " << smearedJetP4.phi() << std::endl;
00317         std::cout << " dPt = " << (smearedJetP4.pt() - jet.pt()) 
00318                   << " (Px = " << (smearedJetP4.px() - jet.px()) << ", Py = " << (smearedJetP4.py() - jet.py()) << ")" << std::endl;
00319       }
00320       
00321       T smearedJet = (jet);
00322       smearedJet.setP4(smearedJetP4);
00323       
00324       smearedJets->push_back(smearedJet);
00325     }
00326 
00327 //--- add collection of "smeared" jets to the event
00328     evt.put(smearedJets);
00329   } 
00330 
00331   std::string moduleLabel_;
00332       
00333   SmearedJetProducer_namespace::GenJetMatcherT<T> genJetMatcher_;
00334 
00335 //--- configuration parameters
00336  
00337   // collection of pat::Jets (with L2L3/L2L3Residual corrections applied)
00338   edm::InputTag src_;
00339 
00340   TFile* inputFile_;
00341   TH2* lut_;
00342 
00343   SmearedJetProducer_namespace::JetResolutionExtractorT<T> jetResolutionExtractor_;
00344   TRandom3 rnd_;
00345 
00346   std::string jetCorrLabel_; // e.g. 'ak5PFJetL1FastL2L3' (reco::PFJets) / '' (pat::Jets)
00347   double jetCorrEtaMax_; // do not use JEC factors for |eta| above this threshold (recommended default = 4.7),
00348                          // in order to work around problem with CMSSW_4_2_x JEC factors at high eta,
00349                          // reported in
00350                          //  https://hypernews.cern.ch/HyperNews/CMS/get/jes/270.html
00351                          //  https://hypernews.cern.ch/HyperNews/CMS/get/JetMET/1259/1.html
00352   Textractor jetCorrExtractor_;
00353 
00354   double sigmaMaxGenJetMatch_; // maximum difference between energy of reconstructed jet and matched generator level jet
00355                                // (if the difference between reconstructed and generated jet energy exceeds this threshold,
00356                                //  the jet is considered to have substantial pile-up contributions are is considered to be unmatched)
00357 
00358   double smearBy_; // option to "smear" jet energy by N standard-deviations, useful for template morphing
00359 
00360   double shiftBy_; // option to increase/decrease within uncertainties the jet energy resolution used for smearing 
00361 
00362   StringCutObjectSelector<T>* skipJetSelection_; // jets passing this cut are **not** smeared 
00363   double skipRawJetPtThreshold_;  // jets with transverse momenta below this value (either on "raw" or "corrected" level) 
00364   double skipCorrJetPtThreshold_; // are **not** smeared 
00365 
00366   int verbosity_; // flag to enabled/disable debug output
00367 };
00368 
00369 #endif