CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_3_10_patch1/src/SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixStrip.h

Go to the documentation of this file.
00001 #ifndef ECAL_FENIXSTRIP_H
00002 #define ECAL_FENIXSTRIP_H
00003 
00004 #include <SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixLinearizer.h>
00005 #include <SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixAmplitudeFilter.h>
00006 #include <SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixPeakFinder.h>
00007 #include <SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixEtStrip.h>
00008 #include <SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixLinearizer.h>
00009 #include <SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixEtStrip.h>
00010 #include <SimCalorimetry/EcalTrigPrimAlgos/interface/EcalFenixStripFgvbEE.h>
00011 
00012 #include "DataFormats/EcalDetId/interface/EcalTriggerElectronicsId.h"
00013 #include <DataFormats/EcalDigi/interface/EBDataFrame.h>
00014 #include <DataFormats/EcalDigi/interface/EEDataFrame.h>
00015 #include "FWCore/Framework/interface/EventSetup.h"
00016 #include "FWCore/Framework/interface/ESHandle.h"
00017 #include "Geometry/EcalMapping/interface/EcalElectronicsMapping.h"
00018 
00019 class EBDataFrame;
00020 class EcalTriggerPrimitiveSample;
00021 class EcalTPGSlidingWindow;
00022 class EcalTPGFineGrainStripEE;
00023 class EcalFenixStripFgvbEE;
00024 class EcalFenixStripFormatEB;
00025 class EcalFenixStripFormatEE;
00026 class EcalTPGStripStatus;
00027 
00032 class EcalFenixStrip {
00033  public:
00034 
00035   // constructor, destructor
00036   EcalFenixStrip(const edm::EventSetup& setup, const EcalElectronicsMapping* theMapping,bool debug,bool famos,int maxNrSamples, int nbMaxXtals);
00037   virtual ~EcalFenixStrip() ;
00038 
00039  private:
00040  const EcalElectronicsMapping* theMapping_;
00041 
00042   bool debug_;
00043   bool famos_;
00044   int nbMaxXtals_;
00045     
00046   std::vector <EcalFenixLinearizer *> linearizer_; 
00047 
00048   EcalFenixAmplitudeFilter *amplitude_filter_; 
00049 
00050   EcalFenixPeakFinder *peak_finder_; 
00051     
00052   EcalFenixStripFormatEB *fenixFormatterEB_;   
00053     
00054   EcalFenixStripFormatEE *fenixFormatterEE_;
00055     
00056 
00057   EcalFenixEtStrip *adder_;
00058     
00059   EcalFenixStripFgvbEE *fgvbEE_;
00060 
00061   // data formats for each event
00062   std::vector<std::vector<int> > lin_out_;
00063   std::vector<int> add_out_;
00064   std::vector<int> filt_out_;
00065   std::vector<int> peak_out_;
00066   std::vector<int> format_out_;
00067   std::vector<int> fgvb_out_;
00068   std::vector<int> fgvb_out_temp_;
00069 
00070   const EcalTPGPedestals * ecaltpPed_;
00071   const EcalTPGLinearizationConst *ecaltpLin_;
00072   const EcalTPGWeightIdMap *ecaltpgWeightMap_;
00073   const EcalTPGWeightGroup *ecaltpgWeightGroup_;
00074   const EcalTPGSlidingWindow *ecaltpgSlidW_;
00075   const EcalTPGFineGrainStripEE *ecaltpgFgStripEE_;
00076   const EcalTPGCrystalStatus *ecaltpgBadX_;
00077   const EcalTPGStripStatus *ecaltpgStripStatus_;
00078 
00079   bool identif_;
00080 
00081  public:
00082 
00083   void setPointers(  const EcalTPGPedestals * ecaltpPed,
00084                      const EcalTPGLinearizationConst *ecaltpLin,
00085                      const EcalTPGWeightIdMap *ecaltpgWeightMap,
00086                      const EcalTPGWeightGroup *ecaltpgWeightGroup,
00087                      const EcalTPGSlidingWindow *ecaltpgSlidW,
00088                      const EcalTPGFineGrainStripEE *ecaltpgFgStripEE,
00089                      const EcalTPGCrystalStatus *ecaltpgBadX,
00090                      const EcalTPGStripStatus *ecaltpgStripStatus)
00091     {
00092       ecaltpPed_=ecaltpPed;
00093       ecaltpLin_=ecaltpLin;
00094       ecaltpgWeightMap_=ecaltpgWeightMap;
00095       ecaltpgWeightGroup_= ecaltpgWeightGroup;
00096       ecaltpgSlidW_=ecaltpgSlidW;
00097       ecaltpgFgStripEE_=ecaltpgFgStripEE;
00098       ecaltpgBadX_=ecaltpgBadX;
00099       ecaltpgStripStatus_=ecaltpgStripStatus;
00100     }
00101 
00102   // main methods
00103   // process method is splitted in 2 parts:
00104   //   the first one is templated, the same except input
00105   //   the second part is slightly different for barrel/endcap
00106   template <class T> 
00107   void process(const edm::EventSetup&, std::vector<const T> &, int nrxtals, std::vector<int> & out);
00108   void process_part2_barrel(uint32_t stripid,const EcalTPGSlidingWindow * ecaltpgSlidW,const EcalTPGFineGrainStripEE * ecaltpgFgStripEE);
00109 
00110   void process_part2_endcap(uint32_t stripid, const EcalTPGSlidingWindow * ecaltpgSlidW,const EcalTPGFineGrainStripEE * ecaltpgFgStripEE,const EcalTPGStripStatus * ecaltpgStripStatus);
00111 
00112 
00113   // getters for the algorithms  ;
00114 
00115   EcalFenixLinearizer *getLinearizer (int i) const { return linearizer_[i];}
00116   EcalFenixEtStrip *getAdder() const { return  adder_;}
00117   EcalFenixAmplitudeFilter *getFilter() const { return amplitude_filter_;}
00118   EcalFenixPeakFinder *getPeakFinder() const { return peak_finder_;}
00119     
00120   EcalFenixStripFormatEB *getFormatterEB() const { return fenixFormatterEB_;}
00121   EcalFenixStripFormatEE *getFormatterEE() const { return fenixFormatterEE_;}
00122     
00123   EcalFenixStripFgvbEE *getFGVB()      const { return fgvbEE_;}
00124 
00125   void setbadStripMissing(bool flag) { identif_ = flag; } 
00126   bool getbadStripMissing() const {return identif_;}
00127 
00128   // ========================= implementations ==============================================================
00129   void process(const edm::EventSetup &setup, std::vector<EBDataFrame> &samples, int nrXtals,std::vector<int> &out){
00130 
00131     // now call processing
00132     if (samples.size()==0) {
00133       std::cout<<" Warning: 0 size vector found in EcalFenixStripProcess!!!!!"<<std::endl;
00134       return;
00135 
00136     }
00137     const EcalTriggerElectronicsId elId = theMapping_->getTriggerElectronicsId(samples[0].id());
00138     uint32_t stripid=elId.rawId() & 0xfffffff8;   //from Pascal
00139     
00140     identif_ = getFGVB()->getMissedStripFlag();
00141     
00142     process_part1(identif_,samples,nrXtals,stripid,ecaltpPed_,ecaltpLin_,ecaltpgWeightMap_,ecaltpgWeightGroup_,ecaltpgBadX_);//templated part
00143     process_part2_barrel(stripid,ecaltpgSlidW_,ecaltpgFgStripEE_);//part different for barrel/endcap
00144     out=format_out_;
00145   }
00146 
00147  void  process(const edm::EventSetup &setup, std::vector<EEDataFrame> &samples, int nrXtals, std::vector<int> & out){
00148 
00149 // now call processing
00150    if (samples.size()==0) {
00151      std::cout<<" Warning: 0 size vector found in EcalFenixStripProcess!!!!!"<<std::endl;
00152      return;
00153    }
00154    const EcalTriggerElectronicsId elId = theMapping_->getTriggerElectronicsId(samples[0].id());
00155    uint32_t stripid=elId.rawId() & 0xfffffff8;   //from Pascal
00156    
00157    identif_ = getFGVB()->getMissedStripFlag();
00158    
00159    process_part1(identif_,samples,nrXtals,stripid,ecaltpPed_,ecaltpLin_,ecaltpgWeightMap_,ecaltpgWeightGroup_,ecaltpgBadX_); //templated part
00160    process_part2_endcap(stripid,ecaltpgSlidW_,ecaltpgFgStripEE_,ecaltpgStripStatus_);
00161    out=format_out_; //FIXME: timing
00162    return;
00163  }
00164 
00165  template <class T> 
00166  void  process_part1(int identif, std::vector<T> & df,int nrXtals, uint32_t stripid, const EcalTPGPedestals * ecaltpPed, const
00167  EcalTPGLinearizationConst *ecaltpLin,const EcalTPGWeightIdMap * ecaltpgWeightMap,const EcalTPGWeightGroup * ecaltpgWeightGroup, const EcalTPGCrystalStatus * ecaltpBadX)
00168    {
00169   
00170       if(debug_)  std::cout<<"\n\nEcalFenixStrip input is a vector of size: "<<nrXtals<< std::endl;
00171 
00172       //loop over crystals
00173       for (int cryst=0;cryst<nrXtals;cryst++) {
00174         if(debug_){
00175           std::cout<<std::endl;
00176           std::cout <<"cryst= "<<cryst<<" EBDataFrame/EEDataFrame is: "<<std::endl; 
00177           for ( int i = 0; i<df[cryst].size();i++){
00178             std::cout <<" "<<std::dec<<df[cryst][i].adc();
00179           }
00180           std::cout<<std::endl;
00181         }
00182         // call linearizer
00183         this->getLinearizer(cryst)->setParameters(df[cryst].id().rawId(),ecaltpPed,ecaltpLin,ecaltpBadX) ; 
00184         this->getLinearizer(cryst)->process(df[cryst],lin_out_[cryst]);
00185       }
00186 
00187       if(debug_){
00188         std::cout<< "output of linearizer is a vector of size: "
00189               <<std::dec<<lin_out_.size()<<" of which used "<<nrXtals<<std::endl; 
00190         for (int ix=0;ix<nrXtals;ix++){
00191           std::cout<< "cryst: "<<ix<<"  value : "<<std::dec<<std::endl;
00192           std::cout<<" lin_out[ix].size()= "<<std::dec<<lin_out_[ix].size()<<std::endl;
00193           for (unsigned int i =0; i<lin_out_[ix].size();i++){
00194             std::cout <<" "<<std::dec<<(lin_out_[ix])[i];
00195           }
00196           std::cout<<std::endl;
00197         }
00198     
00199         std::cout<<std::endl;
00200       }
00201  
00202       // Now call the sFGVB - this is common between EB and EE!
00203       getFGVB()->setParameters(identif, stripid,ecaltpgFgStripEE_);
00204       getFGVB()->process(lin_out_,fgvb_out_temp_);
00205 
00206       if(debug_)
00207       {
00208         std::cout << "output of strip fgvb is a vector of size: " <<std::dec<<fgvb_out_temp_.size()<<std::endl;
00209         for (unsigned int i =0; i<fgvb_out_temp_.size();i++){
00210           std::cout << " " << std::dec << (fgvb_out_temp_[i]);
00211         }
00212         std::cout<<std::endl;
00213       }
00214  
00215       // call adder
00216       this->getAdder()->process(lin_out_,nrXtals,add_out_);  //add_out is of size SIZEMAX=maxNrSamples
00217  
00218       if(debug_){
00219         std::cout<< "output of adder is a vector of size: "<<std::dec<<add_out_.size()<<std::endl; 
00220         for (unsigned int ix=0;ix<add_out_.size();ix++){
00221           std::cout<< "cryst: "<<ix<<"  value : "<<std::dec<<add_out_[ix]<<std::endl;
00222         }
00223         std::cout<<std::endl;
00224       }
00225  
00226 
00227       if (famos_) {
00228         filt_out_[0]= add_out_[0];
00229         peak_out_[0]= add_out_[0];
00230         return;
00231       }else {
00232         // call amplitudefilter
00233         this->getFilter()->setParameters(stripid,ecaltpgWeightMap,ecaltpgWeightGroup); 
00234         this->getFilter()->process(add_out_,filt_out_,fgvb_out_temp_,fgvb_out_); 
00235 
00236         if(debug_){
00237           std::cout<< "output of filter is a vector of size: "<<std::dec<<filt_out_.size()<<std::endl; 
00238           for (unsigned int ix=0;ix<filt_out_.size();ix++){
00239             std::cout<< "cryst: "<<ix<<"  value : "<<std::dec<<filt_out_[ix]<<std::endl;
00240           }
00241           std::cout<<std::endl;
00242 
00243           std::cout<< "output of sfgvb after filter is a vector of size: "<<std::dec<<fgvb_out_.size()<<std::endl;
00244           for (unsigned int ix=0;ix<fgvb_out_.size();ix++){
00245             std::cout<< "cryst: "<<ix<<"  value : "<<std::dec<<fgvb_out_[ix]<<std::endl;
00246           }
00247           std::cout<<std::endl;
00248         }
00249 
00250         // call peakfinder
00251         this->getPeakFinder()->process(filt_out_,peak_out_);
00252         if(debug_){
00253           std::cout<< "output of peakfinder is a vector of size: "<<peak_out_.size()<<std::endl; 
00254           for (unsigned int ix=0;ix<peak_out_.size();ix++){
00255             std::cout<< "cryst: "<<ix<<"  value : "<<peak_out_[ix]<<std::endl;
00256           }
00257           std::cout<<std::endl;
00258         }
00259         return;
00260       }
00261    }
00262 
00263 };
00264 #endif
00265