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/data/refman/pasoursint/CMSSW_6_1_2_SLHC4_patch1/src/MuonAnalysis/MomentumScaleCalibration/src/BackgroundHandler.cc

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00001 #ifndef BackgroundHandler_cc
00002 #define BackgroundHandler_cc
00003 
00004 #include "MuonAnalysis/MomentumScaleCalibration/interface/BackgroundHandler.h"
00005 #include <algorithm>
00006 #include <TF1.h>
00007 #include <iostream>
00008 #include <boost/foreach.hpp>
00009 
00010 typedef reco::Particle::LorentzVector lorentzVector;
00011 
00012 BackgroundHandler::BackgroundHandler( const std::vector<int> & identifiers,
00013                                       const std::vector<double> & leftWindowBorders,
00014                                       const std::vector<double> & rightWindowBorders,
00015                                       const double * ResMass,
00016                                       const double * massWindowHalfWidth )
00017 {
00018   // : leftWindowFactors_(leftWindowFactors),
00019   // rightWindowFactors_(rightWindowFactors)
00020 
00021   // Define the correspondence between regions and halfWidth to use
00022   // Defines also the function type to use (but they are checked to be consistent over a region)
00023   regToResHW_[0] = 0; // Region 0 use the one from Z
00024   regToResHW_[1] = 3; // Region 1 use the one from Upsilon1S
00025   regToResHW_[2] = 5; // Region 2 use the one from J/Psi
00026 
00027   // Define the correspondence between resonances and regions
00028   resToReg_[0] = 0; // Z
00029   resToReg_[1] = 1; // Upsilon3S
00030   resToReg_[2] = 1; // Upsilon2S
00031   resToReg_[3] = 1; // Upsilon1S
00032   resToReg_[4] = 2; // Psi2S
00033   resToReg_[5] = 2; // J/Psi
00034 
00035   // Throws cms::Exception("Configuration") in case the parameters are not what is expected
00036   consistencyCheck(identifiers, leftWindowBorders, rightWindowBorders);
00037 
00038   // Build the resonance windows
00039   for( unsigned int i=0; i<6; ++i ) {
00040     double mass = ResMass[i];
00041     double lowerLimit = mass - massWindowHalfWidth[i];
00042     double upperLimit = mass + massWindowHalfWidth[i];
00043     resonanceWindow_.push_back( MassWindow( mass, lowerLimit, upperLimit,
00044                                             std::vector<unsigned int>(1,i),
00045                                             backgroundFunctionService(identifiers[resToReg_[i]],
00046                                                                       lowerLimit,
00047                                                                       upperLimit) ) );
00048   }
00049 
00050   // Build the background windows
00051   // ----------------------------
00052   // Compute the mass center of each region
00053   double resMassForRegion[3];
00054   resMassForRegion[0] = ResMass[0];
00055   resMassForRegion[1] = (ResMass[1]+ResMass[2]+ResMass[3])/3;
00056   resMassForRegion[2] = (ResMass[4]+ResMass[5])/2;
00057 
00058   // Define which resonance is in which background window
00059   std::vector<std::vector<unsigned int> > indexes;
00060   indexes.push_back(std::vector<unsigned int>(1,0));
00061   indexes.push_back(std::vector<unsigned int>());
00062   for( int i=1; i<=3; ++i ) { indexes[1].push_back(i); }
00063   indexes.push_back(std::vector<unsigned int>());
00064   for( int i=4; i<=5; ++i ) { indexes[2].push_back(i); }
00065 
00066   unsigned int i=0;
00067   typedef std::vector<unsigned int> indexVec;
00068   BOOST_FOREACH(const indexVec & index, indexes) {
00069     //     double lowerLimit = resMassForRegion[i] - massWindowHalfWidth[regToResHW_[i]]*leftWindowFactors[i];
00070     //     double upperLimit = resMassForRegion[i] + massWindowHalfWidth[regToResHW_[i]]*rightWindowFactors[i];
00071     //     backgroundWindow_.push_back( MassWindow( resMassForRegion[i], lowerLimit, upperLimit, index,
00072     //                                              backgroundFunctionService(identifiers[i], lowerLimit, upperLimit ) ) );
00073     backgroundWindow_.push_back( MassWindow( resMassForRegion[i], leftWindowBorders[i], rightWindowBorders[i], index,
00074                                              backgroundFunctionService(identifiers[i], leftWindowBorders[i], rightWindowBorders[i] ) ) );
00075     ++i;
00076   }
00077   // Initialize the parNums to be used in the shifts of parval
00078   initializeParNums();
00079 }
00080 
00081 BackgroundHandler::~BackgroundHandler()
00082 {
00083 }
00084 
00085 void BackgroundHandler::initializeParNums()
00086 {
00087   // Initialize the parNums to be used in the shifts of parval
00088   parNumsRegions_[0] = 0;
00089   for( unsigned int i=1; i<backgroundWindow_.size() ; ++i ) {
00090     parNumsRegions_[i] = parNumsRegions_[i-1] + backgroundWindow_[i-1].backgroundFunction()->parNum();
00091   }
00092   parNumsResonances_[0] = parNumsRegions_[2]+backgroundWindow_[2].backgroundFunction()->parNum();
00093   for( unsigned int i=1; i<resonanceWindow_.size() ; ++i ) {
00094     parNumsResonances_[i] = parNumsResonances_[i-1] + resonanceWindow_[i-1].backgroundFunction()->parNum();
00095   }
00096 }
00097 
00098 void BackgroundHandler::setParameters(double* Start, double* Step, double* Mini, double* Maxi, int* ind, TString* parname, const std::vector<double> & parBgr, const std::vector<int> & parBgrOrder, const int muonType)
00099 {
00100   std::vector<double>::const_iterator parBgrIt = parBgr.begin();
00101   std::vector<int>::const_iterator parBgrOrderIt = parBgrOrder.begin();
00102   // Set the parameters for the regions only if this is not a rescaling
00103   for( int iReg = 0; iReg < 3; ++iReg ) {
00104     int shift = parNumsRegions_[iReg];
00105     backgroundWindow_[iReg].backgroundFunction()->setParameters( &(Start[shift]), &(Step[shift]), &(Mini[shift]),
00106         &(Maxi[shift]), &(ind[shift]), &(parname[shift]),
00107         parBgrIt+shift, parBgrOrderIt+shift, muonType );
00108   }
00109   for( int iRes = 0; iRes < 6; ++iRes ) {
00110     // parNumsResonances is already shifted for the regions parameters
00111     int shift = parNumsResonances_[iRes];
00112     resonanceWindow_[iRes].backgroundFunction()->setParameters( &(Start[shift]), &(Step[shift]), &(Mini[shift]),
00113         &(Maxi[shift]), &(ind[shift]), &(parname[shift]),
00114         parBgrIt+shift, parBgrOrderIt+shift, muonType );
00115   }
00116 }
00117 
00118 bool BackgroundHandler::unlockParameter(const std::vector<int> & resfind, const unsigned int ipar)
00119 {
00120   // parNumsRegions_ are shifted: [1] contains the number of parameters for 0 and so on.
00121   if( ipar < unsigned(parNumsRegions_[1]) && resfind[0] > 0 ) {
00122     return true;
00123   }
00124   if( ipar >= unsigned(parNumsRegions_[1]) && ipar < unsigned(parNumsRegions_[2]) && ( resfind[1] > 0 || resfind[2] > 0 || resfind[3] > 0 ) ) {
00125     return true;
00126   }
00127   // The first of parNumsResonances_ has the sum of parNums of the regions.
00128   if( ipar >= unsigned(parNumsRegions_[2]) && ipar < unsigned(parNumsResonances_[0]) && ( resfind[4] > 0 || resfind[5] > 0 ) ) {
00129     return true;
00130   }
00131   return false;
00132 }
00133 
00134 // std::pair<double, double> BackgroundHandler::windowFactors( const bool doBackgroundFit, const int ires )
00135 // {
00136 //   if( doBackgroundFit ) {
00137 //     // Fitting the background: use the regions
00138 //     return std::make_pair(leftWindowFactors_[resToReg_[ires]], rightWindowFactors_[resToReg_[ires]]);
00139 //   }
00140 //   else {
00141 //     // Not fitting the background: use the resonances
00142 //     return std::make_pair(1.,1.);
00143 //   }
00144 // }
00145 
00146 std::pair<double, double> BackgroundHandler::windowBorders( const bool doBackgroundFit, const int ires )
00147 {
00148   if( doBackgroundFit ) {
00149     // Fitting the background: use the regions
00150     return std::make_pair(backgroundWindow_[resToReg_[ires]].lowerBound(), backgroundWindow_[resToReg_[ires]].upperBound());
00151   }
00152   else {
00153     // Not fitting the background: use the resonances
00154     // return std::make_pair(1.,1.);
00155     return std::make_pair(resonanceWindow_[ires].lowerBound(), resonanceWindow_[ires].upperBound());
00156   }
00157 }
00158 
00159 double BackgroundHandler::resMass( const bool doBackgroundFit, const int ires )
00160 {
00161   if( doBackgroundFit ) {
00162     // Fitting the background: use the regions
00163     return backgroundWindow_[resToReg_[ires]].mass();
00164   }
00165   else {
00166     // Not fitting the background: use the resonances
00167     return resonanceWindow_[ires].mass();
00168   }
00169 }
00170 
00171 void BackgroundHandler::rescale( std::vector<double> & parBgr, const double * ResMass, const double * massWindowHalfWidth,
00172                                  const std::vector<std::pair<reco::Particle::LorentzVector,reco::Particle::LorentzVector> > & muonPairs,
00173                                  const double & weight )
00174 {
00175   countEventsInAllWindows(muonPairs, weight);
00176 
00177   // Loop on all regions and on all the resonances of each region and compute the background fraction
00178   // for each resonance window.
00179   unsigned int iRegion = 0;
00180   BOOST_FOREACH(MassWindow & backgroundWindow, backgroundWindow_)
00181   {
00182     // Iterator pointing to the first parameter of this background function in the full set of parameters
00183     std::vector<double>::const_iterator parBgrIt = (parBgr.begin()+parNumsRegions_[iRegion]);
00184     TF1 * backgroundFunctionForIntegral = backgroundWindow.backgroundFunction()->functionForIntegral(parBgrIt);
00185     // WARNING: this expects the background fraction parameter to be parBgr[0] for all the background functions.
00186     double kOld = *parBgrIt;
00187     double Nbw = backgroundWindow.events();
00188     double Ibw = backgroundFunctionForIntegral->Integral(backgroundWindow.lowerBound(),
00189                                                          backgroundWindow.upperBound());
00190 
00191     // index is the index of the resonance in the background window
00192     BOOST_FOREACH( unsigned int index, *(backgroundWindow.indexes()) )
00193     {
00194       // First set all parameters of the resonance window background function to those of the corresponding region
00195       for( int iPar = 0; iPar < resonanceWindow_[index].backgroundFunction()->parNum(); ++iPar ) {
00196         parBgr[parNumsResonances_[index]+iPar] = parBgr[parNumsRegions_[resToReg_[index]]+iPar];
00197       }
00198       // Estimated fraction of events in the resonance window
00199       double Irw = backgroundFunctionForIntegral->Integral(resonanceWindow_[index].lowerBound(),
00200                                                            resonanceWindow_[index].upperBound());
00201       double Nrw = resonanceWindow_[index].events();
00202 
00203       // Ibw is 1 (to avoid effects from approximation errors we set it to 1 and do not include it in the computation).
00204       if( Nrw != 0 ) parBgr[parNumsResonances_[index]] = kOld*Nbw/Nrw*Irw;
00205       else parBgr[parNumsResonances_[index]] = 0.;
00206 
00207       // Protect against fluctuations of number of events which could cause the fraction to go above 1.
00208       if( parBgr[parNumsResonances_[index]] > 1. ) parBgr[parNumsResonances_[index]] = 1.;
00209 
00210       double kNew = parBgr[parNumsResonances_[index]];
00211       std::cout << "For resonance = " << index << std::endl;
00212       std::cout << "backgroundWindow.lowerBound = " << backgroundWindow.lowerBound() << std::endl;
00213       std::cout << "backgroundWindow.upperBound = " << backgroundWindow.upperBound() << std::endl;
00214       std::cout << "parNumsResonances_["<<index<<"] = " << parNumsResonances_[index] << std::endl;
00215       std::cout << "Nbw = " << Nbw << ", Ibw = " << Ibw << std::endl;
00216       std::cout << "Nrw = " << Nrw << ", Irw = " << Irw << std::endl;
00217       std::cout << "k = " << kOld << ", k' = " << parBgr[parNumsResonances_[index]] << std::endl;
00218       std::cout << "background fraction in background window = Nbw*k = " << Nbw*kOld << std::endl;
00219       std::cout << "background fraction in resonance window = Nrw*k' = " << Nrw*kNew << std::endl;
00220     }
00221     ++iRegion;
00222     delete backgroundFunctionForIntegral;
00223   }
00224 }
00225 
00226 std::pair<double, double> BackgroundHandler::backgroundFunction( const bool doBackgroundFit,
00227                                                                  const double * parval, const int resTotNum, const int ires,
00228                                                                  const bool * resConsidered, const double * ResMass, const double ResHalfWidth[],
00229                                                                  const int MuonType, const double & mass,
00230                                                                  const double & eta1, const double & eta2 )
00231 {
00232   if( doBackgroundFit ) {
00233     // Return the values for the region
00234     int iReg = resToReg_[ires];
00235     // return std::make_pair( parval[parNumsRegions_[iReg]] * backgroundWindow_[iReg].backgroundFunction()->fracVsEta(&(parval[parNumsRegions_[iReg]]), resEta),
00236     return std::make_pair( parval[parNumsRegions_[iReg]] * backgroundWindow_[iReg].backgroundFunction()->fracVsEta(&(parval[parNumsRegions_[iReg]]), eta1, eta2 ),
00237                            (*(backgroundWindow_[iReg].backgroundFunction()))( &(parval[parNumsRegions_[iReg]]), mass, eta1, eta2 ) );
00238     // return std::make_pair( backgroundWindow_[iReg].backgroundFunction()->fracVsEta(&(parval[parNumsRegions_[iReg]]), eta1, eta2),
00239     //                     (*(backgroundWindow_[iReg].backgroundFunction()))( &(parval[parNumsRegions_[iReg]]), mass, eta1, eta2 ) );
00240   }
00241   // Return the values for the resonance
00242   // return std::make_pair( parval[parNumsResonances_[ires]] * resonanceWindow_[ires].backgroundFunction()->fracVsEta(&(parval[parNumsResonances_[ires]]), resEta),
00243   //                     (*(resonanceWindow_[ires].backgroundFunction()))( &(parval[parNumsResonances_[ires]]), mass, resEta ) );
00244   return std::make_pair( parval[parNumsResonances_[ires]] * resonanceWindow_[ires].backgroundFunction()->fracVsEta(&(parval[parNumsResonances_[ires]]), eta1, eta2),
00245                          (*(resonanceWindow_[ires].backgroundFunction()))( &(parval[parNumsResonances_[ires]]), mass, eta1, eta2 ) );
00246 }
00247 
00248 void BackgroundHandler::countEventsInAllWindows(const std::vector<std::pair<reco::Particle::LorentzVector,reco::Particle::LorentzVector> > & muonPairs,
00249                                                 const double & weight)
00250 {
00251   // First reset all the counters
00252   BOOST_FOREACH(MassWindow & resonanceWindow, resonanceWindow_) {
00253     resonanceWindow.resetCounter();
00254   }
00255   // Count events in background windows
00256   BOOST_FOREACH(MassWindow & backgroundWindow, backgroundWindow_) {
00257     backgroundWindow.resetCounter();
00258   }
00259 
00260   // Now count the events in each window
00261   std::pair<lorentzVector,lorentzVector> muonPair;
00262   BOOST_FOREACH(muonPair, muonPairs) {
00263     // Count events in resonance windows
00264     BOOST_FOREACH(MassWindow & resonanceWindow, resonanceWindow_) {
00265       resonanceWindow.count((muonPair.first + muonPair.second).mass(), weight);
00266     }
00267     // Count events in background windows
00268     BOOST_FOREACH(MassWindow & backgroundWindow, backgroundWindow_) {
00269       backgroundWindow.count((muonPair.first + muonPair.second).mass(), weight);
00270     }
00271   }
00272 }
00273 
00274 void BackgroundHandler::consistencyCheck(const std::vector<int> & identifiers,
00275                                          const std::vector<double> & leftWindowBorders,
00276                                          const std::vector<double> & rightWindowBorders) const throw(cms::Exception)
00277 {
00278   if( leftWindowBorders.size() != rightWindowBorders.size() ) {
00279     throw cms::Exception("Configuration") << "BackgroundHandler::BackgroundHandler: leftWindowBorders.size() = " << leftWindowBorders.size()
00280                                           << " != rightWindowBorders.size() = " << rightWindowBorders.size() << std::endl;
00281   }
00282   if( leftWindowBorders.size() != 3 ) {
00283     throw cms::Exception("Configuration") << "BackgroundHandler::BackgroundHandler: leftWindowBorders.size() = rightWindowBorders.size() = "
00284                                           << leftWindowBorders.size() << " != 3" << std::endl;
00285   }
00286   if( identifiers.size() != 3 ) {
00287     throw cms::Exception("Configuration") << "BackgroundHandler::BackgroundHandler: identifiers must match the number of regions = 3" << std::endl;
00288   }
00289 }
00290 
00291 #endif // BackgroundHandler_cc