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00001 #include <memory>
00002 
00003 #include "FWCore/Framework/interface/Frameworkfwd.h"
00004 #include "FWCore/Framework/interface/EDProducer.h"
00005 
00006 #include "FWCore/Framework/interface/Event.h"
00007 #include "FWCore/Framework/interface/MakerMacros.h"
00008 
00009 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00010 
00011 #include "DataFormats/HepMCCandidate/interface/GenParticle.h"
00012 #include "DataFormats/Candidate/interface/CompositeCandidate.h"
00013 #include "CommonTools/CandUtils/interface/AddFourMomenta.h"
00014 #include "CommonTools/CandUtils/interface/Booster.h"
00015 #include <Math/VectorUtil.h>
00016 
00017 //
00018 // class declaration
00019 //
00020 class ISRGammaWeightProducer : public edm::EDProducer {
00021    public:
00022       explicit ISRGammaWeightProducer(const edm::ParameterSet&);
00023       ~ISRGammaWeightProducer();
00024 
00025       virtual void beginJob() ;
00026       virtual void produce(edm::Event&, const edm::EventSetup&);
00027       virtual void endJob() ;
00028 
00029    private:
00030       edm::InputTag genTag_;
00031       std::vector<double> isrBinEdges_;
00032       std::vector<double> ptWeights_;
00033 };
00034 
00035 
00036 #include "DataFormats/HepMCCandidate/interface/GenParticle.h"
00038 ISRGammaWeightProducer::ISRGammaWeightProducer(const edm::ParameterSet& pset) {
00039       genTag_ = pset.getUntrackedParameter<edm::InputTag> ("GenTag", edm::InputTag("genParticles"));
00040 
00041       produces<double>();
00042 } 
00043 
00045 ISRGammaWeightProducer::~ISRGammaWeightProducer(){}
00046 
00048 void ISRGammaWeightProducer::beginJob() {}
00049 
00051 void ISRGammaWeightProducer::endJob(){}
00052 
00054 void ISRGammaWeightProducer::produce(edm::Event& iEvent, const edm::EventSetup&) {
00055 
00056       if (iEvent.isRealData()) return;
00057 
00058       edm::Handle<reco::GenParticleCollection> genParticles;
00059       iEvent.getByLabel(genTag_, genParticles);
00060       unsigned int gensize = genParticles->size();
00061 
00062       std::auto_ptr<double> weight (new double);
00063 
00064       // Set a default weight to start with
00065       (*weight) = 1.;
00066 
00067       // Find the boson at the hard scattering level
00068       const reco::GenParticle* boson = 0;
00069       int parton1Key = -1;
00070       int parton2Key = -1;
00071       for (unsigned int i = 0; i<gensize; ++i) {
00072             const reco::GenParticle& part = (*genParticles)[i];
00073             int status = abs(part.status());
00074             if (status!=3) continue;
00075             if (part.numberOfMothers()!=2) continue;
00076             int partId = abs(part.pdgId());
00077             if (status==3 && (partId==23||abs(partId)==24)) {
00078                   boson = &(*genParticles)[i];
00079                   parton1Key = part.motherRef(0).key();
00080                   parton2Key = part.motherRef(1).key();
00081                   break;
00082             }
00083       }
00084       
00085       // Consider only photons near the hard-scattering process
00086       const reco::GenParticle* photon = 0;
00087       if (boson) {
00088         for (unsigned int i = 0; i<gensize; ++i) {
00089             photon = 0;
00090             const reco::GenParticle& part = (*genParticles)[i];
00091             int status = abs(part.status());
00092             if (status!=1) continue;
00093             int partId = abs(part.pdgId());
00094             if (partId!=22)  continue;
00095             if (part.numberOfMothers()!=1) continue;
00096             int keyM = part.motherRef(0).key();
00097             const reco::GenParticle* mother = &(*genParticles)[keyM];
00098             if (mother->status()!=3) continue;
00099             int mId = mother->pdgId();
00100             if (abs(mId)>6 && mId!=2212) continue;
00101             for (unsigned int j=0; j<mother->numberOfDaughters(); ++j){ 
00102                   int keyD = mother->daughterRef(j).key();
00103                   if (keyD==parton1Key || keyD==parton2Key) {
00104                         photon = &part;
00105                         break;
00106                   }
00107             }
00108             if (photon) break;
00109         }  
00110       }
00111 
00112       if (boson && photon) {
00113             math::XYZTLorentzVector smom = boson->p4() + photon->p4();
00114             double s = smom.M2();
00115             double sqrts = smom.M();
00116 
00117             // Go to CM using the boost direction of the boson+photon system
00118             ROOT::Math::Boost cmboost(smom.BoostToCM());
00119             math::XYZTLorentzVector photonCM(cmboost(photon->p4()));
00120             double pcostheta = (  smom.x()*photonCM.x()
00121                                + smom.y()*photonCM.y()
00122                                + smom.z()*photonCM.z() ) / smom.P();
00123             
00124             // Determine kinematic invariants
00125             double t = - sqrts * (photonCM.t()-pcostheta);
00126             double MV = boson->mass();
00127             double u = MV*MV - s - t;
00128             (*weight) = 1. - 2*t*u/(s*s+MV*MV*MV*MV);
00129             //printf(">>>>>>>>> s %f t %f u %f, MV %f, weight = %f\n", s, t, u, MV, (*weight));
00130       }
00131 
00132       iEvent.put(weight);
00133 }
00134 
00135 DEFINE_FWK_MODULE(ISRGammaWeightProducer);