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/data/refman/pasoursint/CMSSW_5_2_9/src/RecoLocalCalo/Castor/src/CastorTowerProducer.cc

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00001 // -*- C++ -*-
00002 //
00003 // Package:    Castor
00004 // Class:      CastorTowerProducer
00005 // 
00006 
00013 //
00014 // Original Author:  Hans Van Haevermaet, Benoit Roland
00015 //         Created:  Wed Jul  9 14:00:40 CEST 2008
00016 // $Id: CastorTowerProducer.cc,v 1.9 2011/02/24 09:43:20 hvanhaev Exp $
00017 //
00018 //
00019 
00020 
00021 // system include 
00022 #include <memory>
00023 #include <vector>
00024 #include <iostream>
00025 #include <TMath.h>
00026 #include <TRandom3.h>
00027 
00028 // user include 
00029 #include "FWCore/Framework/interface/Frameworkfwd.h"
00030 #include "FWCore/Framework/interface/EDProducer.h"
00031 #include "FWCore/Framework/interface/Event.h"
00032 #include "FWCore/Framework/interface/MakerMacros.h"
00033 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00034 #include "DataFormats/Math/interface/Point3D.h"
00035 
00036 // Castor Object include
00037 #include "DataFormats/HcalRecHit/interface/CastorRecHit.h"
00038 #include "DataFormats/HcalDetId/interface/HcalCastorDetId.h"
00039 #include "DataFormats/CastorReco/interface/CastorTower.h"
00040 
00041 //
00042 // class declaration
00043 //
00044 
00045 class CastorTowerProducer : public edm::EDProducer {
00046    public:
00047       explicit CastorTowerProducer(const edm::ParameterSet&);
00048       ~CastorTowerProducer();
00049 
00050    private:
00051       virtual void beginJob() ;
00052       virtual void produce(edm::Event&, const edm::EventSetup&);
00053       virtual void endJob() ;
00054       virtual void ComputeTowerVariable(const edm::RefVector<edm::SortedCollection<CastorRecHit> >& usedRecHits, double&  Ehot, double& depth);
00055       
00056       // member data
00057       typedef math::XYZPointD Point;
00058       typedef ROOT::Math::RhoEtaPhiPoint TowerPoint;
00059       typedef ROOT::Math::RhoZPhiPoint CellPoint;
00060       typedef edm::SortedCollection<CastorRecHit> CastorRecHitCollection; 
00061       typedef std::vector<reco::CastorTower> CastorTowerCollection;
00062       typedef edm::RefVector<CastorRecHitCollection> CastorRecHitRefVector;
00063       std::string input_;
00064       double towercut_;
00065       double mintime_;
00066       double maxtime_;
00067 };
00068 
00069 //
00070 // constants, enums and typedefs
00071 //
00072 
00073 const double MYR2D = 180/M_PI;
00074 
00075 //
00076 // static data member definitions
00077 //
00078 
00079 //
00080 // constructor and destructor
00081 //
00082 
00083 CastorTowerProducer::CastorTowerProducer(const edm::ParameterSet& iConfig) :
00084   input_(iConfig.getUntrackedParameter<std::string>("inputprocess","castorreco")),
00085   towercut_(iConfig.getUntrackedParameter<double>("towercut",1.)),
00086   mintime_(iConfig.getUntrackedParameter<double>("mintime",-999)),
00087   maxtime_(iConfig.getUntrackedParameter<double>("maxtime",999))
00088 {
00089   //register your products
00090   produces<CastorTowerCollection>();
00091   //now do what ever other initialization is needed
00092 }
00093 
00094 
00095 CastorTowerProducer::~CastorTowerProducer()
00096 {
00097    // do anything here that needs to be done at desctruction time
00098    // (e.g. close files, deallocate resources etc.)
00099 }
00100 
00101 
00102 //
00103 // member functions
00104 //
00105 
00106 // ------------ method called to produce the data  ------------
00107 void CastorTowerProducer::produce(edm::Event& iEvent, const edm::EventSetup& iSetup) {
00108 
00109   using namespace edm;
00110   using namespace reco;
00111   using namespace TMath;
00112   
00113   // Produce CastorTowers from CastorCells
00114   
00115   edm::Handle<CastorRecHitCollection> InputRecHits;
00116   iEvent.getByLabel(input_,InputRecHits);
00117 
00118   std::auto_ptr<CastorTowerCollection> OutputTowers (new CastorTowerCollection);
00119    
00120   // get and check input size
00121   int nRecHits = InputRecHits->size();
00122 
00123   LogDebug("CastorTowerProducer")
00124     <<"2. entering CastorTowerProducer"<<std::endl;
00125 
00126   if (nRecHits==0)
00127     LogDebug("CastorTowerProducer") <<"Warning: You are trying to run the Tower algorithm with 0 input rechits.";
00128   
00129   // declare castor array
00130   // (0,x): Energies - (1,x): emEnergies - (2,x): hadEnergies - (3,x): phi position
00131   
00132   double poscastortowerarray[4][16]; 
00133   double negcastortowerarray[4][16];
00134 
00135   CastorRecHitRefVector poscastorusedrechits[16];
00136   CastorRecHitRefVector negcastorusedrechits[16];
00137 
00138   // set phi values and everything else to zero
00139   for (int j = 0; j < 16; j++) {
00140     poscastortowerarray[3][j] = -2.94524 + j*0.3927;
00141     poscastortowerarray[0][j] = 0.;
00142     poscastortowerarray[1][j] = 0.;
00143     poscastortowerarray[2][j] = 0.;
00144 
00145     negcastortowerarray[3][j] = -2.94524 + j*0.3927;
00146     negcastortowerarray[0][j] = 0.;
00147     negcastortowerarray[1][j] = 0.;
00148     negcastortowerarray[2][j] = 0.;
00149   }
00150 
00151   // loop over rechits to build castortowerarray[4][16] and castorusedrechits[16] 
00152   for (unsigned int i = 0; i < InputRecHits->size(); i++) {
00153     
00154     edm::Ref<CastorRecHitCollection> rechit_p = edm::Ref<CastorRecHitCollection>(InputRecHits, i);
00155     
00156     double Erechit = rechit_p->energy();
00157     HcalCastorDetId id = rechit_p->id();
00158     int module = id.module();
00159     int sector = id.sector();
00160     double zrechit = 0;
00161     if (module < 3) zrechit = -14390 - 24.75 - 49.5*(module-1);
00162     if (module > 2) zrechit = -14390 - 99 - 49.5 - 99*(module-3); 
00163     double phirechit = -100;
00164     if (sector < 9) phirechit = 0.19635 + (sector-1)*0.3927;
00165     if (sector > 8) phirechit = -2.94524 + (sector - 9)*0.3927;
00166 
00167     // add time conditions for the rechit
00168     if (rechit_p->time() > mintime_ && rechit_p->time() < maxtime_) {
00169 
00170         // loop over the 16 towers possibilities
00171         for ( int j=0;j<16;j++) {
00172       
00173                 // phi matching condition
00174                 if (TMath::Abs(phirechit - poscastortowerarray[3][j]) < 0.0001) {
00175 
00176                         // condition over rechit z value
00177                         if (zrechit > 0.) {
00178                                 poscastortowerarray[0][j]+=Erechit;
00179                                 if (module < 3) {poscastortowerarray[1][j]+=Erechit;} else {poscastortowerarray[2][j]+=Erechit;}
00180                                 poscastorusedrechits[j].push_back(rechit_p);
00181                         } else {
00182                                 negcastortowerarray[0][j]+=Erechit;
00183                                 if (module < 3) {negcastortowerarray[1][j]+=Erechit;} else {negcastortowerarray[2][j]+=Erechit;}
00184                                 negcastorusedrechits[j].push_back(rechit_p);
00185                         } // end condition over rechit z value
00186                 } // end phi matching condition
00187         } // end loop over the 16 towers possibilities
00188     } // end time conditions
00189     
00190   } // end loop over rechits to build castortowerarray[4][16] and castorusedrechits[16]
00191   
00192   // make towers of the arrays
00193 
00194   double fem, Ehot, depth;
00195   double rhoTower = 88.5;
00196 
00197   // loop over the 16 towers possibilities
00198   for (int k=0;k<16;k++) {
00199     
00200     fem = 0;
00201     Ehot = 0;
00202     depth = 0;
00203 
00204     // select the positive towers with E > Ecut
00205     if (poscastortowerarray[0][k] > towercut_) {
00206       
00207       fem = poscastortowerarray[1][k]/poscastortowerarray[0][k];
00208       CastorRecHitRefVector usedRecHits = poscastorusedrechits[k];
00209       ComputeTowerVariable(usedRecHits,Ehot,depth);
00210 
00211       LogDebug("CastorTowerProducer")
00212         <<"tower "<<k+1<<": fem = "<<fem<<" ,depth = "<<depth<<" ,Ehot = "<<Ehot<<std::endl;
00213 
00214       TowerPoint temptowerposition(rhoTower,5.9,poscastortowerarray[3][k]);
00215       Point towerposition(temptowerposition);
00216 
00217       CastorTower newtower(poscastortowerarray[0][k],towerposition,poscastortowerarray[1][k],poscastortowerarray[2][k],fem,depth,Ehot,
00218                            poscastorusedrechits[k]);
00219       OutputTowers->push_back(newtower);
00220     } // end select the positive towers with E > Ecut
00221     
00222     // select the negative towers with E > Ecut
00223     if (negcastortowerarray[0][k] > towercut_) {
00224       
00225       fem = negcastortowerarray[1][k]/negcastortowerarray[0][k];
00226       CastorRecHitRefVector usedRecHits = negcastorusedrechits[k];
00227       ComputeTowerVariable(usedRecHits,Ehot,depth);
00228 
00229       LogDebug("CastorTowerProducer")
00230          <<"tower "<<k+1 << " energy = " << negcastortowerarray[0][k] << "EM = " << negcastortowerarray[1][k] << "HAD = " << negcastortowerarray[2][k] << "phi = " << negcastortowerarray[3][k] << ": fem = "<<fem<<" ,depth = "<<depth<<" ,Ehot = "<<Ehot<<std::endl;
00231 
00232       TowerPoint temptowerposition(rhoTower,-5.9,negcastortowerarray[3][k]);
00233       Point towerposition(temptowerposition);
00234 
00235       CastorTower newtower(negcastortowerarray[0][k],towerposition,negcastortowerarray[1][k],negcastortowerarray[2][k],fem,depth,Ehot,
00236                            negcastorusedrechits[k]);
00237       OutputTowers->push_back(newtower);
00238     } // end select the negative towers with E > Ecut
00239     
00240   } // end loop over the 16 towers possibilities
00241   
00242   iEvent.put(OutputTowers);
00243 } 
00244 
00245 
00246 // ------------ method called once each job just before starting event loop  ------------
00247 void CastorTowerProducer::beginJob() {
00248   LogDebug("CastorTowerProducer")
00249     <<"Starting CastorTowerProducer";
00250 }
00251 
00252 // ------------ method called once each job just after ending the event loop  ------------
00253 void CastorTowerProducer::endJob() {
00254   LogDebug("CastorTowerProducer")
00255     <<"Ending CastorTowerProducer";
00256 }
00257 
00258 void CastorTowerProducer::ComputeTowerVariable(const edm::RefVector<edm::SortedCollection<CastorRecHit> >& usedRecHits, double&  Ehot, double& depth) {
00259 
00260   using namespace reco;
00261 
00262   double Etot = 0;
00263 
00264   // loop over the cells used in the tower k
00265   for (CastorRecHitRefVector::iterator it = usedRecHits.begin(); it != usedRecHits.end(); it++) {
00266     edm::Ref<CastorRecHitCollection> rechit_p = *it;
00267 
00268     double Erechit = rechit_p->energy();
00269     HcalCastorDetId id = rechit_p->id();
00270     int module = id.module();
00271     double zrechit = 0;
00272     if (module < 3) zrechit = -14390 - 24.75 - 49.5*(module-1);
00273     if (module > 2) zrechit = -14390 - 99 - 49.5 - 99*(module-3); 
00274 
00275     if(Erechit > Ehot) Ehot = Erechit;
00276     depth+=Erechit*zrechit;
00277     Etot+=Erechit;
00278   }
00279 
00280   depth/=Etot;
00281   Ehot/=Etot;
00282 }
00283 
00284 //define this as a plug-in
00285 DEFINE_FWK_MODULE(CastorTowerProducer);