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/data/refman/pasoursint/CMSSW_5_3_0/src/GeneratorInterface/LHEInterface/src/JetMatchingMLM.cc

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00001 #include <functional>
00002 #include <algorithm>
00003 #include <iostream>
00004 #include <vector>
00005 #include <memory>
00006 #include <string>
00007 
00008 #include <boost/bind.hpp>
00009 
00010 #include <Math/GenVector/Cartesian3D.h>
00011 #include <Math/GenVector/VectorUtil.h>
00012 
00013 #include <HepMC/GenEvent.h>
00014 #include <HepMC/SimpleVector.h>
00015 
00016 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00017 #include "FWCore/Utilities/interface/Exception.h"
00018 
00019 #include "GeneratorInterface/LHEInterface/interface/JetInput.h"
00020 #include "GeneratorInterface/LHEInterface/interface/JetClustering.h"
00021 #include "GeneratorInterface/LHEInterface/interface/JetMatchingMLM.h"
00022 
00023 #include "Matching.h"
00024 
00025 // #define DEBUG
00026 
00027 namespace lhef {
00028 
00029 namespace {
00030         template<typename T1, typename T2, typename R>
00031         struct DeltaRSeparation : public std::binary_function<T1, T2, R> {
00032                 double operator () (const T1 &v1_, const T2 &v2_) const
00033                 {
00034                         using namespace ROOT::Math;
00035                         Cartesian3D<R> v1(v1_.px(), v1_.py(), v1_.pz());
00036                         Cartesian3D<R> v2(v2_.px(), v2_.py(), v2_.pz());
00037                         return VectorUtil::DeltaR(v1, v2);
00038                 }
00039         };
00040 
00041         // stupid pointer indirection... ugly specialization
00042         template<typename T2, typename R>
00043         struct DeltaRSeparation<const HepMC::GenParticle*, T2, R> {
00044                 double operator () (const HepMC::GenParticle *v1_,
00045                                     const T2 &v2_) const
00046                 {
00047                         using namespace ROOT::Math;
00048                         Cartesian3D<R> v1(v1_->momentum().px(),
00049                                           v1_->momentum().py(),
00050                                           v1_->momentum().pz());
00051                         Cartesian3D<R> v2(v2_.px(), v2_.py(), v2_.pz());
00052                         return VectorUtil::DeltaR(v1, v2);
00053                 }
00054         };
00055 
00056         struct ParticlePtGreater {
00057                 double operator () (const HepMC::GenParticle *v1,
00058                                     const HepMC::GenParticle *v2)
00059                 { return v1->momentum().perp() > v2->momentum().perp(); }
00060         };
00061 
00062         inline HepMC::FourVector convert(const JetClustering::Jet &jet)
00063         { return HepMC::FourVector(jet.px(), jet.py(), jet.pz(), jet.e()); }
00064 } // anonymous namespace
00065 
00066 JetMatchingMLM::JetMatchingMLM(const edm::ParameterSet &params) :
00067         JetMatching(params),
00068         maxDeltaR(params.getParameter<double>("maxDeltaR")),
00069         minJetPt(params.getParameter<double>("jetPtMin")),
00070         maxEta(params.getParameter<double>("maxEta")),
00071         matchPtFraction(0.75),
00072         useEt(params.getParameter<bool>("useEt")),
00073         partonInput(new JetInput(params)),
00074         jetInput(new JetInput(*partonInput))
00075 {
00076         partonInput->setPartonicFinalState(false);
00077         partonInput->setHardProcessOnly(false);
00078 
00079         if (params.exists("matchPtFraction"))
00080                 matchPtFraction =
00081                         params.getParameter<double>("matchPtFraction");
00082 
00083         jetClustering.reset(
00084                 new JetClustering(params, minJetPt * matchPtFraction));
00085 
00086         std::string matchMode = params.getParameter<std::string>("matchMode");
00087         if (matchMode == "inclusive")
00088                 this->matchMode = kInclusive;
00089         else if (matchMode == "exclusive")
00090                 this->matchMode = kExclusive;
00091         else
00092                 throw cms::Exception("Configuration")
00093                         << "Invalid matching mode '" << matchMode
00094                         << "' specified." << std::endl;
00095 }
00096 
00097 JetMatchingMLM::~JetMatchingMLM()
00098 {
00099 }
00100 
00101 std::set<std::string> JetMatchingMLM::capabilities() const
00102 {
00103         std::set<std::string> result = JetMatching::capabilities();
00104         result.insert("matchSummary");
00105         return result;
00106 }
00107 
00108 // implements the MLM method - simply reject or accept
00109 // use polymorphic JetMatching subclasses when modularizing
00110 
00111 double JetMatchingMLM::match(const HepMC::GenEvent *partonLevel,
00112                              const HepMC::GenEvent *finalState,
00113                              bool showeredFinalState)
00114 {
00115         JetInput::ParticleVector partons = (*partonInput)(partonLevel);
00116         std::sort(partons.begin(), partons.end(), ParticlePtGreater());
00117 
00118         JetInput::ParticleVector jetInput =
00119                         showeredFinalState ? (*partonInput)(finalState)
00120                                            : (*this->jetInput)(finalState);
00121         std::sort(jetInput.begin(), jetInput.end(), ParticlePtGreater());
00122 
00123         std::vector<JetClustering::Jet> jets = (*jetClustering)(jetInput);
00124 
00125 #ifdef DEBUG
00126         std::cout << "===== Partons:" << std::endl;
00127         for(JetClustering::ParticleVector::const_iterator c = partons.begin();
00128             c != partons.end(); c++)
00129                 std::cout << "\tpid = " << (*c)->pdg_id()
00130                           << ", pt = " << (*c)->momentum().perp()
00131                           << ", eta = " << (*c)->momentum().eta()
00132                           << ", phi = " << (*c)->momentum().phi()
00133                           << std::endl;
00134         std::cout << "===== JetInput:" << std::endl;
00135         for(JetClustering::ParticleVector::const_iterator c = jetInput.begin();
00136             c != jetInput.end(); c++)
00137                 std::cout << "\tpid = " << (*c)->pdg_id()
00138                           << ", pt = " << (*c)->momentum().perp()
00139                           << ", eta = " << (*c)->momentum().eta()
00140                           << ", phi = " << (*c)->momentum().phi()
00141                           << std::endl;
00142         std::cout << "----- " << jets.size() << " jets:" << std::endl;
00143         for(std::vector<JetClustering::Jet>::const_iterator iter = jets.begin();
00144             iter != jets.end(); ++iter) {
00145                 std::cout << "* pt = " << iter->pt()
00146                           << ", eta = " << iter->eta()
00147                           << ", phi = " << iter->phi()
00148                           << std::endl;
00149                 for(JetClustering::ParticleVector::const_iterator c = iter->constituents().begin();
00150                     c != iter->constituents().end(); c++)
00151                         std::cout << "\tpid = " << (*c)->pdg_id()
00152                                   << ", pt = " << (*c)->momentum().perp()
00153                                   << ", eta = " << (*c)->momentum().eta()
00154                                   << ", phi = " << (*c)->momentum().phi()
00155                                   << std::endl;
00156         }
00157 
00158         using boost::bind;
00159         std::cout << partons.size() << " partons and "
00160                   << std::count_if(jets.begin(), jets.end(),
00161                         bind(std::greater<double>(),
00162                              bind(&JetClustering::Jet::pt, _1),
00163                              minJetPt)) << " jets." << std::endl;
00164 #endif
00165 
00166         Matching<double> matching(partons, jets,
00167                         DeltaRSeparation<JetInput::ParticleVector::value_type,
00168                                          JetClustering::Jet, double>());
00169 
00170         typedef Matching<double>::Match Match;
00171         std::vector<Match> matches =
00172                         matching.match(
00173                                 std::less<double>(),
00174                                 std::bind2nd(std::less<double>(), maxDeltaR));
00175 
00176 #ifdef DEBUG
00177         for(std::vector<Match>::const_iterator iter = matches.begin();
00178             iter != matches.end(); ++iter)
00179                 std::cout << "\tParton " << iter->index1 << " matches jet "
00180                           << iter->index2 << " with a Delta_R of "
00181                           << matching.delta(*iter) << std::endl;
00182 #endif
00183 
00184         unsigned int unmatchedPartons = 0;
00185         unsigned int unmatchedJets = 0;
00186 
00187         matchSummary.clear();
00188         for(std::vector<Match>::const_iterator iter = matches.begin();
00189             iter != matches.end(); ++iter) {
00190                 if ((useEt ? jets[iter->index2].et()
00191                            : jets[iter->index2].pt()) < minJetPt ||
00192                     std::abs(jets[iter->index2].eta()) > maxEta)
00193                         unmatchedPartons++;
00194                 matchSummary.push_back(
00195                         JetPartonMatch(partons[iter->index1]->momentum(),
00196                                        convert(jets[iter->index2]),
00197                                        matching.delta(*iter),
00198                                        partons[iter->index1]->pdg_id()));
00199         }
00200 
00201         for(Matching<double>::index_type i = 0; i < partons.size(); i++) {
00202                 if (!matching.isMatched1st(i)) {
00203                         unmatchedPartons++;
00204                         matchSummary.push_back(
00205                                 JetPartonMatch(partons[i]->momentum(),
00206                                                partons[i]->pdg_id()));
00207                 }
00208         }
00209 
00210         for(Matching<double>::index_type i = 0; i < jets.size(); i++) {
00211                 if (!matching.isMatched2nd(i)) {
00212                         if ((useEt ? jets[i].et()
00213                                    : jets[i].pt()) >= minJetPt &&
00214                             std::abs(jets[i].eta()) <= maxEta)
00215                                 unmatchedJets++;
00216                         matchSummary.push_back(
00217                                 JetPartonMatch(convert(jets[i])));
00218                 }
00219         }
00220 
00221         switch(matchMode) {
00222             case kExclusive:
00223                 if (!unmatchedJets && !unmatchedPartons)
00224                         return 1.0;
00225                 break;
00226             case kInclusive:
00227                 if (!unmatchedPartons)
00228                         return 1.0;
00229         }
00230 
00231         return 0.0;
00232 }
00233 
00234 } // namespace lhef