CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_3_9_patch3/src/DQM/SiStripMonitorSummary/src/SiStripNoisesDQM.cc

Go to the documentation of this file.
00001 #include "DQM/SiStripMonitorSummary/interface/SiStripNoisesDQM.h"
00002 
00003 
00004 #include "DQMServices/Core/interface/MonitorElement.h"
00005 
00006 #include "TCanvas.h"
00007 
00008 // -----
00009 SiStripNoisesDQM::SiStripNoisesDQM(const edm::EventSetup & eSetup,
00010                                    edm::ParameterSet const& hPSet,
00011                                    edm::ParameterSet const& fPSet):SiStripBaseCondObjDQM(eSetup, hPSet, fPSet){  
00012   gainRenormalisation_ = hPSet_.getParameter<bool>("GainRenormalisation");
00013   if( gainRenormalisation_){ eSetup.get<SiStripApvGainRcd>().get(gainHandle_);}
00014 
00015 
00016   // Build the Histo_TkMap:
00017   if(HistoMaps_On_ ) Tk_HM_ = new TkHistoMap("SiStrip/Histo_Map","MeanNoise_TkMap",0.);
00018 
00019 }
00020 // -----
00021 
00022 // -----
00023 SiStripNoisesDQM::~SiStripNoisesDQM(){}
00024 // -----
00025 
00026 
00027 // -----
00028 void SiStripNoisesDQM::getActiveDetIds(const edm::EventSetup & eSetup){
00029   
00030   getConditionObject(eSetup);
00031   noiseHandle_->getDetIds(activeDetIds);
00032 
00033 }
00034 
00035 // -----
00036 void SiStripNoisesDQM::fillMEsForDet(ModMEs selModME_, uint32_t selDetId_){
00037 
00038   std::vector<uint32_t> DetIds;
00039   noiseHandle_->getDetIds(DetIds);
00040 
00041   SiStripNoises::Range noiseRange = noiseHandle_->getRange(selDetId_);
00042   
00043   int nStrip =  reader->getNumberOfApvsAndStripLength(selDetId_).first*128;
00044 
00045   getModMEs(selModME_,selDetId_);
00046   
00047   float gainFactor;
00048   float stripnoise;
00049 
00050   SiStripApvGain::Range gainRange;
00051   if( gainRenormalisation_ ){
00052     gainRange = gainHandle_->getRange(selDetId_);
00053   }
00054 
00055   for( int istrip=0;istrip<nStrip;++istrip){
00056     if( gainRenormalisation_ )
00057       gainFactor= gainHandle_ ->getStripGain(istrip,gainRange);
00058     else
00059       gainFactor=1;
00060 
00061       stripnoise=noiseHandle_->getNoise(istrip,noiseRange)/gainFactor;
00062     if( CondObj_fillId_ =="onlyProfile" || CondObj_fillId_ =="ProfileAndCumul"){
00063       selModME_.ProfileDistr->Fill(istrip+1,stripnoise);
00064     }
00065     if( CondObj_fillId_ =="onlyCumul" || CondObj_fillId_ =="ProfileAndCumul"){
00066       selModME_.CumulDistr->Fill(stripnoise);
00067     } 
00068   } //istrip
00069 
00070 }
00071   
00072 
00073 // -----
00074 //FIXME too long. factorize this method. 
00075 //FIXME the number of lines of code in the derived classes should be reduced ONLY at what cannot be done in the base class because of the specific implementation
00076 //FIXME of the derived class. Moreover, several loops on the same quantities should be avoided...
00077 
00078 void SiStripNoisesDQM::fillMEsForLayer( /*std::map<uint32_t, ModMEs> selMEsMap_,*/ uint32_t selDetId_){
00079 
00080   // ----
00081   int subdetectorId_ = ((selDetId_>>25)&0x7);
00082   
00083   if( subdetectorId_<3 ||subdetectorId_>6 ){ 
00084     edm::LogError("SiStripNoisesDQM")
00085       << "[SiStripNoisesDQM::fillMEsForLayer] WRONG INPUT : no such subdetector type : "
00086       << subdetectorId_ << " no folder set!" 
00087       << std::endl;
00088     return;
00089   }
00090   // ----
00091   
00092   std::map<uint32_t, ModMEs>::iterator selMEsMapIter_  = SummaryMEsMap_.find(getLayerNameAndId(selDetId_).second);
00093   ModMEs selME_;
00094   if ( selMEsMapIter_ != SummaryMEsMap_.end())
00095     selME_ =selMEsMapIter_->second;
00096   getSummaryMEs(selME_,selDetId_);
00097   
00098   SiStripNoises::Range noiseRange = noiseHandle_->getRange(selDetId_);
00099   int nStrip =  reader->getNumberOfApvsAndStripLength(selDetId_).first*128;
00100 
00101   float stripnoise=-1.;
00102   float meanNoise=0;
00103   int Nbadstrips=0;
00104 
00105   SiStripApvGain::Range gainRange;
00106   if(gainRenormalisation_ ){
00107     gainRange = gainHandle_->getRange(selDetId_);
00108   }
00109   float gainFactor=1;
00110   
00111   SiStripHistoId hidmanager;
00112 
00113   if(hPSet_.getParameter<bool>("FillSummaryProfileAtLayerLevel")){
00114     // --> profile summary    
00115     std::string hSummaryOfProfile_description;
00116     hSummaryOfProfile_description  = hPSet_.getParameter<std::string>("SummaryOfProfile_description");
00117     
00118     std::string hSummaryOfProfile_name; 
00119     hSummaryOfProfile_name = hidmanager.createHistoLayer(hSummaryOfProfile_description, 
00120                                                          "layer", 
00121                                                          getLayerNameAndId(selDetId_).first, 
00122                                                          "") ;
00123   }
00124   if(hPSet_.getParameter<bool>("FillCumulativeSummaryAtLayerLevel")){
00125     std::string hSummaryOfCumul_description;
00126     hSummaryOfCumul_description  = hPSet_.getParameter<std::string>("Cumul_description");
00127     
00128     std::string hSummaryOfCumul_name; 
00129     hSummaryOfCumul_name = hidmanager.createHistoLayer(hSummaryOfCumul_description, "layer", getStringNameAndId(selDetId_).first, "") ;    
00130   }   
00131   if(hPSet_.getParameter<bool>("FillSummaryAtLayerLevel")){
00132     // --> cumul summary    
00133     std::string hSummary_description;
00134     hSummary_description  = hPSet_.getParameter<std::string>("Summary_description");
00135     
00136     std::string hSummary_name; 
00137     hSummary_name = hidmanager.createHistoLayer(hSummary_description, 
00138                                                 "layer", 
00139                                                 getLayerNameAndId(selDetId_).first, 
00140                                                 "") ;
00141   }
00142 
00143 
00144   for( int istrip=0;istrip<nStrip;++istrip){
00145 
00146     if(gainRenormalisation_ ){
00147       gainFactor= gainHandle_ ->getStripGain(istrip,gainRange);
00148     } else{
00149       gainFactor=1.;
00150     }
00151     
00152     stripnoise=noiseHandle_->getNoise(istrip,noiseRange)/gainFactor;
00153     meanNoise+=stripnoise;
00154     if(hPSet_.getParameter<bool>("FillSummaryProfileAtLayerLevel")){
00155       if( CondObj_fillId_ =="onlyProfile" || CondObj_fillId_ =="ProfileAndCumul"){      
00156         selME_.SummaryOfProfileDistr->Fill(istrip+1,stripnoise);
00157       }
00158     }
00159 
00160     if(hPSet_.getParameter<bool>("FillCumulativeSummaryAtLayerLevel")){
00161       if( CondObj_fillId_ =="onlyCumul" || CondObj_fillId_ =="ProfileAndCumul"){
00162         selME_.SummaryOfCumulDistr->Fill(stripnoise);
00163       }
00164     }
00165 
00166     // Fill the TkMap
00167     if(fPSet_.getParameter<bool>("TkMap_On") || hPSet_.getParameter<bool>("TkMap_On")){
00168       fillTkMap(selDetId_, stripnoise);   
00169     }
00170   
00171   } //istrip
00172 
00173 
00174   if(hPSet_.getParameter<bool>("FillSummaryAtLayerLevel")){
00175     
00176     meanNoise = meanNoise/(nStrip-Nbadstrips);
00177     // get detIds belonging to same layer to fill X-axis with detId-number
00178     
00179     std::vector<uint32_t> sameLayerDetIds_;
00180     sameLayerDetIds_=GetSameLayerDetId(activeDetIds,selDetId_);
00181     
00182     std::vector<uint32_t>::const_iterator ibound=lower_bound(sameLayerDetIds_.begin(),sameLayerDetIds_.end(),selDetId_);
00183     if(ibound!=sameLayerDetIds_.end() && *ibound==selDetId_)
00184       selME_.SummaryDistr->Fill(ibound-sameLayerDetIds_.begin()+1,meanNoise);
00185     
00186 
00187     // Fill the Histo_TkMap with the mean Noise:
00188     if(HistoMaps_On_ ){Tk_HM_->fill(selDetId_, meanNoise); }
00189 
00190 
00191     //Check the axis range for tkmap, and in case redefine;
00192     int intNoise = int(meanNoise);
00193     if(intNoise+1 > (int)tkMapScaler.size()){
00194       tkMapScaler.resize(intNoise+1,0);
00195     }
00196     tkMapScaler[intNoise]++;
00197       
00198   } 
00199 
00200 }
00201   
00202 
00203 
00204 
00205