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/data/refman/pasoursint/CMSSW_5_2_9/src/RecoJets/FFTJetProducers/src/FFTJetInterface.cc

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00001 #include <cassert>
00002 
00003 #include "RecoJets/FFTJetProducers/interface/FFTJetInterface.h"
00004 
00005 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00006 
00007 #include "DataFormats/JetReco/interface/Jet.h"
00008 #include "DataFormats/CaloTowers/interface/CaloTower.h"
00009 #include "DataFormats/VertexReco/interface/Vertex.h"
00010 #include "DataFormats/VertexReco/interface/VertexFwd.h"
00011 
00012 #define init_param(type, varname) varname (ps.getParameter< type >( #varname ))
00013 
00014 using namespace fftjetcms;
00015 
00016 namespace fftjetcms {
00017 
00018 bool FFTJetInterface::storeInSinglePrecision() const 
00019 {
00020     return true;
00021 }
00022 
00023 
00024 FFTJetInterface::JetType FFTJetInterface::parse_jet_type(
00025     const std::string& name)
00026 {
00027     if (!name.compare("BasicJet"))
00028         return BASICJET;
00029     else if (!name.compare("GenJet"))
00030         return GENJET;
00031     else if (!name.compare("CaloJet"))
00032         return CALOJET;
00033     else if (!name.compare("PFJet"))
00034         return PFJET;
00035     else if (!name.compare("TrackJet"))
00036         return TRACKJET;
00037     else if (!name.compare("JPTJet"))
00038         return JPTJET;
00039     else
00040         throw cms::Exception("FFTJetBadConfig")
00041             << "Unsupported jet type specification \""
00042             << name << "\"" << std::endl;
00043 }
00044 
00045 
00046 FFTJetInterface::FFTJetInterface(const edm::ParameterSet& ps)
00047     : inputLabel(ps.getParameter<edm::InputTag>("src")),
00048       init_param(std::string, outputLabel),
00049       jetType(parse_jet_type(ps.getParameter<std::string>("jetType"))),
00050       init_param(bool, doPVCorrection),
00051       init_param(edm::InputTag, srcPVs),
00052       etaDependentMagnutideFactors(
00053           ps.getParameter<std::vector<double> >(
00054               "etaDependentMagnutideFactors")),
00055       init_param(edm::ParameterSet, anomalous),
00056       init_param(bool, insertCompleteEvent),
00057       init_param(double, completeEventScale),
00058       vertex_(0.0, 0.0, 0.0)
00059 {
00060       if (insertCompleteEvent && completeEventScale <= 0.0)
00061         throw cms::Exception("FFTJetBadConfig")
00062           << "Bad scale for the complete event : must be positive"
00063           << std::endl;
00064 }
00065 
00066 
00067 double FFTJetInterface::getEventScale() const
00068 {
00069      return insertCompleteEvent ? completeEventScale : 0.0;
00070 }
00071 
00072 
00073 void FFTJetInterface::loadInputCollection(const edm::Event& iEvent)
00074 {
00075     // Figure out if we are going to perform the vertex adjustment
00076     const bool adjustForVertex = doPVCorrection && jetType == CALOJET;
00077 
00078     // Figure out the vertex
00079     if (adjustForVertex)
00080     {
00081         edm::Handle<reco::VertexCollection> pvCollection;
00082         iEvent.getByLabel(srcPVs, pvCollection);
00083         if (pvCollection->empty())
00084             vertex_ = reco::Particle::Point(0.0, 0.0, 0.0);
00085         else
00086             vertex_ = pvCollection->begin()->position();
00087     }
00088 
00089     // Get the input collection
00090     iEvent.getByLabel(inputLabel, inputCollection);
00091 
00092     // Create the set of 4-vectors needed by the algorithm
00093     eventData.clear();
00094     candidateIndex.clear();
00095     unsigned index = 0;
00096     const reco::CandidateView::const_iterator end = inputCollection->end();
00097     for (reco::CandidateView::const_iterator it = inputCollection->begin();
00098          it != end; ++it, ++index)
00099     {
00100         const reco::Candidate& item(*it);
00101         if (anomalous(item))
00102             continue;
00103         if (std::isnan(item.pt()))
00104             continue;
00105 
00106         if (adjustForVertex)
00107         {
00108             const CaloTower& tower(dynamic_cast<const CaloTower&>(item));
00109             eventData.push_back(VectorLike(tower.p4(vertex_)));
00110         }
00111         else
00112             eventData.push_back(item.p4());
00113         candidateIndex.push_back(index);
00114     }
00115     assert(eventData.size() == candidateIndex.size());
00116 }
00117 
00118 
00119 void FFTJetInterface::discretizeEnergyFlow()
00120 {
00121     // It is a bug to call this function before defining the energy flow grid
00122     assert(energyFlow.get());
00123 
00124     fftjet::Grid2d<Real>& g(*energyFlow);
00125     g.reset();
00126 
00127     const unsigned nInputs = eventData.size();
00128     const VectorLike* inp = nInputs ? &eventData[0] : 0;
00129     for (unsigned i=0; i<nInputs; ++i)
00130     {
00131         const VectorLike& item(inp[i]);
00132         g.fill(item.Eta(), item.Phi(), item.Et());
00133     }
00134 
00135     if (!etaDependentMagnutideFactors.empty())
00136     {
00137         if (etaDependentMagnutideFactors.size() != g.nEta())
00138             throw cms::Exception("FFTJetBadConfig")
00139                 << "ERROR in FFTJetInterface::discretizeEnergyFlow() :"
00140                 " number of elements in the \"etaDependentMagnutideFactors\""
00141                 " vector is inconsistent with the grid binning"
00142                 << std::endl;
00143         g.scaleData(&etaDependentMagnutideFactors[0],
00144                     etaDependentMagnutideFactors.size());
00145     }
00146 }
00147 
00148 }