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Public Member Functions | Private Attributes

TtHadEvtSolutionMaker Class Reference

#include <TtHadEvtSolutionMaker.h>

Inheritance diagram for TtHadEvtSolutionMaker:
edm::EDProducer edm::ProducerBase edm::ProductRegistryHelper

List of all members.

Public Member Functions

virtual void produce (edm::Event &iEvent, const edm::EventSetup &iSetup)
 TtHadEvtSolutionMaker (const edm::ParameterSet &iConfig)
 constructor
 ~TtHadEvtSolutionMaker ()
 destructor

Private Attributes

bool addLRJetComb_
bool addLRSignalSel_
std::vector< unsigned int > constraints_
bool doKinFit_
int jetCorrScheme_
int jetParam_
edm::InputTag jetSrc_
std::string lrJetCombFile_
std::vector< int > lrJetCombObs_
std::string lrSignalSelFile_
std::vector< int > lrSignalSelObs_
int matchingAlgo_
bool matchToGenEvt_
double maxDeltaS_
double maxDist_
double maxF_
int maxNrIter_
TtFullHadKinFittermyKinFitter
TtHadLRJetCombCalcmyLRJetCombCalc
TtHadLRJetCombObservablesmyLRJetCombObservables
TtHadLRSignalSelCalcmyLRSignalSelCalc
TtHadLRSignalSelObservablesmyLRSignalSelObservables
TtHadSimpleBestJetCombmySimpleBestJetComb
bool useDeltaR_
bool useMaxDist_

Detailed Description

Definition at line 27 of file TtHadEvtSolutionMaker.h.


Constructor & Destructor Documentation

TtHadEvtSolutionMaker::TtHadEvtSolutionMaker ( const edm::ParameterSet iConfig) [explicit]

constructor

Definition at line 19 of file TtHadEvtSolutionMaker.cc.

References addLRJetComb_, addLRSignalSel_, constraints_, doKinFit_, edm::ParameterSet::getParameter(), jetCorrScheme_, jetParam_, jetSrc_, lrJetCombFile_, lrJetCombObs_, lrSignalSelFile_, lrSignalSelObs_, matchingAlgo_, matchToGenEvt_, maxDeltaS_, maxDist_, maxF_, maxNrIter_, myKinFitter, myLRJetCombCalc, myLRJetCombObservables, myLRSignalSelCalc, myLRSignalSelObservables, mySimpleBestJetComb, AlCaHLTBitMon_QueryRunRegistry::string, useDeltaR_, and useMaxDist_.

                                                                            {
  // configurables
  jetSrc_          = iConfig.getParameter<edm::InputTag>    ("jetSource");
  jetCorrScheme_   = iConfig.getParameter<int>              ("jetCorrectionScheme");
  doKinFit_        = iConfig.getParameter<bool>             ("doKinFit");
  addLRSignalSel_  = iConfig.getParameter<bool>             ("addLRSignalSel");
  lrSignalSelObs_  = iConfig.getParameter<std::vector<int> >("lrSignalSelObs");
  lrSignalSelFile_ = iConfig.getParameter<std::string>      ("lrSignalSelFile");
  addLRJetComb_    = iConfig.getParameter<bool>             ("addLRJetComb");
  lrJetCombObs_    = iConfig.getParameter<std::vector<int> >("lrJetCombObs");
  lrJetCombFile_   = iConfig.getParameter<std::string>      ("lrJetCombFile");
  maxNrIter_       = iConfig.getParameter<int>              ("maxNrIter");
  maxDeltaS_       = iConfig.getParameter<double>           ("maxDeltaS");
  maxF_            = iConfig.getParameter<double>           ("maxF");
  jetParam_        = iConfig.getParameter<int>              ("jetParametrisation");
  constraints_     = iConfig.getParameter<std::vector<unsigned int> >("constraints");
  matchToGenEvt_   = iConfig.getParameter<bool>             ("matchToGenEvt");
  matchingAlgo_    = iConfig.getParameter<bool>             ("matchingAlgorithm");
  useMaxDist_      = iConfig.getParameter<bool>             ("useMaximalDistance");
  useDeltaR_       = iConfig.getParameter<bool>             ("useDeltaR");
  maxDist_         = iConfig.getParameter<double>           ("maximalDistance");

  // define kinfitter
  if(doKinFit_){
    myKinFitter = new TtFullHadKinFitter(jetParam_, maxNrIter_, maxDeltaS_, maxF_, constraints_);
  }
  
  
  // define jet combinations related calculators
  mySimpleBestJetComb                    = new TtHadSimpleBestJetComb();
  myLRSignalSelObservables               = new TtHadLRSignalSelObservables();
  myLRJetCombObservables                 = new TtHadLRJetCombObservables();
  if (addLRJetComb_)   myLRJetCombCalc   = new TtHadLRJetCombCalc(lrJetCombFile_, lrJetCombObs_);
  
  // instantiate signal selection calculator
  if (addLRSignalSel_) myLRSignalSelCalc = new TtHadLRSignalSelCalc(lrSignalSelFile_, lrSignalSelObs_);
 
  // define what will be produced
  produces<std::vector<TtHadEvtSolution> >();
  
}
TtHadEvtSolutionMaker::~TtHadEvtSolutionMaker ( )

Member Function Documentation

void TtHadEvtSolutionMaker::produce ( edm::Event iEvent,
const edm::EventSetup iSetup 
) [virtual]

Implements edm::EDProducer.

Definition at line 76 of file TtHadEvtSolutionMaker.cc.

References TtFullHadKinFitter::addKinFitInfo(), addLRJetComb_, addLRSignalSel_, gather_cfg::cout, doKinFit_, TtGenEvtProducer_cfi::genEvt, EgammaValidation_cff::genp, edm::Event::getByLabel(), JetPartonMatching::getDistanceForParton(), JetPartonMatching::getMatchForParton(), JetPartonMatching::getSumDistances(), i, j, jetCorrScheme_, jetParam_, analyzePatCleaning_cfg::jets, jetSrc_, gen::k, matchingAlgo_, matchToGenEvt_, maxDist_, myKinFitter, AlCaHLTBitMon_ParallelJobs::p, edm::Event::put(), lumiQueryAPI::q, alignCSCRings::s, TtHadEvtSolution::setJetParametrisation(), useDeltaR_, and useMaxDist_.

                                                                                   {
  // TopObject Selection
  // Select Jets

  bool jetsFound = false;
  edm::Handle<std::vector<pat::Jet> > jets;
  iEvent.getByLabel(jetSrc_, jets);

  if (jets->size() >= 6) jetsFound = true;
  
  // Build Event solutions according to the ambiguity in the jet combination
  // Note, hardcoded to only run through the 6 most energetic jets - could be changed ....
  
  std::vector<TtHadEvtSolution> * evtsols = new std::vector<TtHadEvtSolution>();
  if(jetsFound){
    for (unsigned int p=0; p<3; p++) {  // loop over light jet p
      for (unsigned int q=p+1; q<4; q++) { // loop over light jet q
        for (unsigned int j=q+1; j<5; j++) {  // loop over light jet j
          for (unsigned int k=j+1; k<6; k++) { // loop over light jet k
            for (unsigned int bh=0; bh!=jets->size(); bh++) { //loop over hadronic b-jet1
              if(!(bh==p || bh==q || bh==j || bh==k)) { 
                for (unsigned int bbarh=0; bbarh!=jets->size(); bbarh++) { //loop over hadronic b-jet2
                  if (!(bbarh==p || bbarh==q || bbarh==j || bbarh==k) && !(bbarh==bh)) {
                    // Make event solutions for all possible combinations of the 4 light
                    // jets and 2 possible b-jets, not including the option of the b's being swapped. 
                    // Hadp,Hadq is one pair, Hadj,Hadk the other
                    std::vector<TtHadEvtSolution> asol;
                    asol.resize(3);
                    //[p][q][b] and [j][k][bbar]
                    asol[0].setJetCorrectionScheme(jetCorrScheme_);
                    asol[0].setHadp(jets, p);
                    asol[0].setHadq(jets, q);
                    asol[0].setHadj(jets, j);
                    asol[0].setHadk(jets, k);
                    asol[0].setHadb(jets, bh);
                    asol[0].setHadbbar(jets, bbarh);

                    //[p][j][b] and [q][k][bbar]
                    asol[1].setJetCorrectionScheme(jetCorrScheme_);
                    asol[1].setHadp(jets, p);
                    asol[1].setHadq(jets, j);
                    asol[1].setHadj(jets, q);
                    asol[1].setHadk(jets, k);
                    asol[1].setHadb(jets, bh);
                    asol[1].setHadbbar(jets, bbarh);

                    //[p][k][b] and [j][q][bbar]
                    asol[2].setJetCorrectionScheme(jetCorrScheme_);
                    asol[2].setHadp(jets, p);
                    asol[2].setHadq(jets, k);
                    asol[2].setHadj(jets, j);
                    asol[2].setHadk(jets, q);
                    asol[2].setHadb(jets, bh);
                    asol[2].setHadbbar(jets, bbarh);
                   
                    if(doKinFit_){
                      for(unsigned int i=0;i!=asol.size();i++){
                        asol[i] = myKinFitter->addKinFitInfo(&(asol[i]));
                        asol[i].setJetParametrisation(jetParam_);
                      }
                     
                    }else{
                      std::cout<<"Fitting needed to decide on best solution, enable fitting!"<<std::endl;
                    }
                    // these lines calculate the observables to be used in the TtHadSignalSelection LR

                    for(unsigned int i=0;i!=asol.size();i++){ 
                    (*myLRSignalSelObservables)(asol[i]);
                    }
                    // if asked for, calculate with these observable values the LRvalue and 
                    // (depending on the configuration) probability this event is signal
                    if(addLRSignalSel_){
                      for(unsigned int i=0;i!=asol.size();i++){
                        (*myLRSignalSelCalc)(asol[i]);
                      }
                    }
                    
                    // these lines calculate the observables to be used in the TtHadJetCombination LR
                    for(unsigned int i=0;i!=asol.size();i++){
                    (*myLRJetCombObservables)(asol[i]);
                    } 
                    // if asked for, calculate with these observable values the LRvalue and 
                    // (depending on the configuration) probability a jet combination is correct
                    if(addLRJetComb_){
                      for(unsigned int i=0;i!=asol.size();i++){
                        (*myLRJetCombCalc)(asol[i]);
                      }
                    }
                    //std::cout<<"SignalSelLRval = "<<asol.getLRSignalEvtLRval()<<"  JetCombProb = "<<asol.getLRSignalEvtProb()<<std::endl;
                    //std::cout<<"JetCombLRval = "<<asol.getLRJetCombLRval()<<"  JetCombProb = "<<asol.getLRJetCombProb()<<std::endl;
                    
                    // fill solution to vector with all possible solutions 
                    for(unsigned int i=0;i!=asol.size();i++){
                      evtsols->push_back(asol[i]);
                    }
                  }
                }
              }
            }
          }
        }
      }
    }

    
    // add TtHadSimpleBestJetComb to solutions
    int simpleBestJetComb = (*mySimpleBestJetComb)(*evtsols);

    for(size_t s=0; s<evtsols->size(); s++){
      (*evtsols)[s].setSimpleBestJetComb(simpleBestJetComb);    
      // if asked for, match the event solutions to the gen Event
      if(matchToGenEvt_){
        int bestSolution = -999; 
        int bestSolutionChangeW1Q = -999;
        int bestSolutionChangeW2Q = -999;
        edm::Handle<TtGenEvent> genEvt;
        iEvent.getByLabel ("genEvt",genEvt); 
        std::vector<const reco::Candidate*> quarks;
        const reco::Candidate & genp  = *(genEvt->daughterQuarkOfWPlus());
        const reco::Candidate & genq  = *(genEvt->daughterQuarkBarOfWPlus());
        const reco::Candidate & genb  = *(genEvt->b());
        const reco::Candidate & genj  = *(genEvt->daughterQuarkOfWMinus());
        const reco::Candidate & genk  = *(genEvt->daughterQuarkBarOfWMinus());
        const reco::Candidate & genbbar = *(genEvt->bBar());
        quarks.push_back( &genp );       
        quarks.push_back( &genq );   
        quarks.push_back( &genb );
        quarks.push_back( &genj );       
        quarks.push_back( &genk );   
        quarks.push_back( &genbbar );
        std::vector<const reco::Candidate*> jets;         
        for(size_t s=0; s<evtsols->size(); s++) {
          jets.clear();     
          const reco::Candidate & jetp  = (*evtsols)[s].getRecHadp();
          const reco::Candidate & jetq  = (*evtsols)[s].getRecHadq();
          const reco::Candidate & jetbh = (*evtsols)[s].getRecHadb();
          const reco::Candidate & jetj  = (*evtsols)[s].getRecHadj();
          const reco::Candidate & jetk  = (*evtsols)[s].getRecHadk();
          const reco::Candidate & jetbbar = (*evtsols)[s].getRecHadbbar();
          jets.push_back( &jetp );      
          jets.push_back( &jetq );        
          jets.push_back( &jetbh );
          jets.push_back( &jetj );
          jets.push_back( &jetk );
          jets.push_back( &jetbbar );
          JetPartonMatching aMatch(quarks, jets, matchingAlgo_, useMaxDist_, useDeltaR_, maxDist_);  
          (*evtsols)[s].setGenEvt(genEvt);   
          (*evtsols)[s].setMCBestSumAngles(aMatch.getSumDistances());
          (*evtsols)[s].setMCBestAngleHadp(aMatch.getDistanceForParton(0));
          (*evtsols)[s].setMCBestAngleHadq(aMatch.getDistanceForParton(1));
          (*evtsols)[s].setMCBestAngleHadb(aMatch.getDistanceForParton(2));
          (*evtsols)[s].setMCBestAngleHadb(aMatch.getDistanceForParton(2));
          (*evtsols)[s].setMCBestAngleHadj(aMatch.getDistanceForParton(3));
          (*evtsols)[s].setMCBestAngleHadk(aMatch.getDistanceForParton(4));
          (*evtsols)[s].setMCBestAngleHadbbar(aMatch.getDistanceForParton(5));
          
          // Check match - checking if two light quarks are swapped wrt matched gen particle
          if((aMatch.getMatchForParton(2) == 2 && aMatch.getMatchForParton(5) == 5)
             || (aMatch.getMatchForParton(2) == 5 && aMatch.getMatchForParton(5) == 2)){ // check b-jets
            
            if(aMatch.getMatchForParton(3) == 3 && aMatch.getMatchForParton(4) == 4){ //check light jets
              bestSolutionChangeW2Q = 0;
              if(aMatch.getMatchForParton(0) == 0 && aMatch.getMatchForParton(1) == 1) { 
                bestSolution = s;
                bestSolutionChangeW1Q = 0;
              }else{
                if(aMatch.getMatchForParton(0) == 1 && aMatch.getMatchForParton(1) == 0){
                  bestSolution = s;
                  bestSolutionChangeW1Q = 1;
                }
              }
            }else{
              if(aMatch.getMatchForParton(2) == 3 && aMatch.getMatchForParton(3) == 2){ // or check if swapped 
                bestSolutionChangeW2Q = 1;
                if(aMatch.getMatchForParton(0) == 1 && aMatch.getMatchForParton(1) == 0){
                  bestSolution = s;
                  bestSolutionChangeW1Q = 1;
                }else{
                  if(aMatch.getMatchForParton(0) == 0 && aMatch.getMatchForParton(1) == 1) { 
                    bestSolution = s;
                    bestSolutionChangeW1Q = 0;
                  }
                }
              }
              if(aMatch.getMatchForParton(2) == 2 && aMatch.getMatchForParton(3) == 3){
                bestSolutionChangeW2Q = 0;
                if(aMatch.getMatchForParton(0) == 0 && aMatch.getMatchForParton(1) == 1) {
                  bestSolution = s; 
                  bestSolutionChangeW1Q = 0;
                } else if(aMatch.getMatchForParton(0) == 1 && aMatch.getMatchForParton(1) == 0) {
                  bestSolution = s;             
                  bestSolutionChangeW1Q = 1;           
                }
              }
            }
          }
          for(size_t s=0; s<evtsols->size(); s++) {
            (*evtsols)[s].setMCBestJetComb(bestSolution);
            (*evtsols)[s].setMCChangeW1Q(bestSolutionChangeW1Q);
            (*evtsols)[s].setMCChangeW2Q(bestSolutionChangeW2Q);
          }
        }
      } // end matchEvt
    }       
    //store the vector of solutions to the event  
 
    std::auto_ptr<std::vector<TtHadEvtSolution> > pOut(evtsols);
    iEvent.put(pOut);
  }else {     //end loop jet/MET found
    std::cout<<"No calibrated solutions built, because only "<<jets->size()<<" were present";
     
    std::auto_ptr<std::vector<TtHadEvtSolution> > pOut(evtsols);
    iEvent.put(pOut);
  }
}  

Member Data Documentation

Definition at line 42 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 42 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

std::vector<unsigned int> TtHadEvtSolutionMaker::constraints_ [private]

Definition at line 50 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

Definition at line 42 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 40 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().

Definition at line 48 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().

Definition at line 39 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().

Definition at line 41 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

std::vector<int> TtHadEvtSolutionMaker::lrJetCombObs_ [private]

Definition at line 49 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

Definition at line 41 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

std::vector<int> TtHadEvtSolutionMaker::lrSignalSelObs_ [private]

Definition at line 49 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

Definition at line 43 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().

Definition at line 42 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().

Definition at line 47 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

Definition at line 45 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().

double TtHadEvtSolutionMaker::maxF_ [private]

Definition at line 47 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

Definition at line 46 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker().

Definition at line 52 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 55 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 54 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 57 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 56 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 53 of file TtHadEvtSolutionMaker.h.

Referenced by TtHadEvtSolutionMaker(), and ~TtHadEvtSolutionMaker().

Definition at line 44 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().

Definition at line 44 of file TtHadEvtSolutionMaker.h.

Referenced by produce(), and TtHadEvtSolutionMaker().