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/data/refman/pasoursint/CMSSW_6_1_2_SLHC2/src/TopQuarkAnalysis/TopJetCombination/src/TtHadSimpleBestJetComb.cc

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00001 #include "TopQuarkAnalysis/TopJetCombination/interface/TtHadSimpleBestJetComb.h"
00002 //
00003 // $Id: TtHadSimpleBestJetComb.cc,v 1.3 2008/02/17 11:27:55 rwolf Exp $
00004 // adapted Id: TtSemiSimpleBestJetComb.cc,v 1.2 2007/06/09 01:17:40 lowette Exp 
00005 // for fully hadronic channel
00006 
00020 TtHadSimpleBestJetComb::TtHadSimpleBestJetComb() 
00021 {
00022 }
00023 
00024 TtHadSimpleBestJetComb::~TtHadSimpleBestJetComb() 
00025 {
00026 }
00027 
00028 int TtHadSimpleBestJetComb::operator()(std::vector<TtHadEvtSolution> & sols)
00029 { 
00030   // search the highest probChi^2 value in the among the different jet combination solutions   
00031   double maxProbChi2 = 0.;
00032   for(unsigned int s=0; s<sols.size(); s++){
00033     maxProbChi2 = std::max(maxProbChi2,sols[s].getProbChi2());
00034   }
00035 
00036   //search indices of original solutions with highest probChi2 value and select those solutionsthat are close to the highest Chi^2 
00037   std::vector<unsigned int> indices;
00038   indices.clear();  
00039   for(unsigned int s=0; s<sols.size(); s++){  
00040     if(fabs(sols[s].getProbChi2()-maxProbChi2) < 0.0001) indices.push_back(s); 
00041   } 
00042 
00043   // TtHadSolutionMaker takes light jet combinations into account, but not b-jet ambiguity...
00044   int bestSol = -999;
00045   double prev_W1b = 999.;
00046   double prev_W2b = 999.;
00047   if(maxProbChi2 > 0.){
00048     if(indices.size() == 1) bestSol = indices[0];
00049     if(indices.size() > 1){ //for more than one solution...
00050       for(unsigned int i=0;i!=indices.size();i++){
00051         double DPhi_W1b0 = fabs(sols[indices[i]].getFitHadW_plus().phi()-sols[indices[i]].getFitHadb().phi());
00052         double DPhi_W1b1 = fabs(sols[indices[i]].getFitHadW_plus().phi()-sols[indices[i]].getFitHadbbar().phi());
00053         double DPhi_W2b0 = fabs(sols[indices[i]].getFitHadW_minus().phi()-sols[indices[i]].getFitHadb().phi());
00054         double DPhi_W2b1 = fabs(sols[indices[i]].getFitHadW_minus().phi()-sols[indices[i]].getFitHadbbar().phi());
00055         
00056         if(DPhi_W1b0>3.1415) DPhi_W1b0 = 2.*3.1415-DPhi_W1b0;
00057         if(DPhi_W1b1>3.1415) DPhi_W1b1 = 2.*3.1415-DPhi_W1b1;
00058         if(DPhi_W2b0>3.1415) DPhi_W2b0 = 2.*3.1415-DPhi_W2b0;
00059         if(DPhi_W2b1>3.1415) DPhi_W2b1 = 2.*3.1415-DPhi_W2b1;
00060         // Select as best solution the one which either has both b-jets closer to a particular W-jet
00061         // or the one in which the two angles added together are lower than the other.....FIXME!!!
00062         // W1b0 and W1b1 is a pair, W2b0 and W2b1
00063         if(DPhi_W1b0<DPhi_W2b0 && DPhi_W1b1<DPhi_W2b1){
00064           if(DPhi_W1b0<prev_W1b && DPhi_W1b1<prev_W2b){
00065             bestSol = indices[i];
00066           }
00067         }
00068         if(DPhi_W1b0>DPhi_W2b0 && DPhi_W1b1>DPhi_W2b1){
00069           if(DPhi_W2b0<prev_W1b && DPhi_W2b1<prev_W2b){
00070             bestSol = indices[i];
00071           }
00072         }
00073         if((DPhi_W1b0<DPhi_W2b0 && DPhi_W1b1>DPhi_W2b1)||(DPhi_W1b0>DPhi_W2b0 && DPhi_W1b1<DPhi_W2b1)){
00074           if((DPhi_W1b0+DPhi_W1b1)<(DPhi_W2b0+DPhi_W2b1)){
00075             if(DPhi_W1b0<prev_W1b && DPhi_W1b1<prev_W2b){
00076               bestSol = indices[i];
00077             }  
00078           }else{
00079             if(DPhi_W2b0<prev_W1b && DPhi_W2b1<prev_W2b){
00080               bestSol = indices[i];
00081             }
00082           }
00083         }
00084       }
00085     }
00086   }
00087   return bestSol;
00088 }