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00001 #include "DQM/CastorMonitor/interface/CastorChannelQualityMonitor.h"
00002 #include "DQMServices/Core/interface/DQMStore.h"
00003 #include "DQMServices/Core/interface/MonitorElement.h"
00004 
00005 //***************************************************//
00006 //********** CastorChannelQualityMonitor *******************//
00007 //********** Author: Dmytro Volyanskyy   ************//
00008 //********** Date  : 04.03.2010 (first version) ******// 
00009 //***************************************************//
00013 
00014 //==================================================================//
00015 //======================= Constructor ==============================//
00016 //==================================================================//
00017 CastorChannelQualityMonitor::CastorChannelQualityMonitor(){
00018  ievt_=0;
00019  counter1=0;
00020  counter2=0;
00021 }
00022 
00023 //==================================================================//
00024 //======================= Destructor ==============================//
00025 //==================================================================//
00026 
00027 CastorChannelQualityMonitor::~CastorChannelQualityMonitor(){
00028 }
00029 
00030 
00031 void CastorChannelQualityMonitor::reset(){
00032 }
00033 
00034 
00035 //==========================================================//
00036 //========================= setup ==========================//
00037 //==========================================================//
00038 
00039 void CastorChannelQualityMonitor::setup(const edm::ParameterSet& ps, DQMStore* dbe){
00040 
00041   CastorBaseMonitor::setup(ps,dbe);
00042    averageEnergyMethod_ = ps.getUntrackedParameter<bool>("averageEnergyMethod", true); 
00043    offline_             = ps.getUntrackedParameter<bool>("OfflineMode", false); 
00044    nThreshold_          = ps.getUntrackedParameter<double>("nThreshold", 0);
00045    dThreshold_          = ps.getUntrackedParameter<double>("dThreshold", 0);
00046 
00047   if ( m_dbe !=NULL ) {    
00049     m_dbe->setCurrentFolder(rootFolder_+"CastorChannelQuality");
00050     reportSummary    = m_dbe->bookFloat("RecHit Energy based reportSummary");
00051     reportSummaryMap = m_dbe->book2D("RecHitEnergyBasedSummaryMap","RecHitEnergyBasedSummaryMap",14,0.0,14.0,16,0.0,16.0);
00052     if(offline_){
00053       h_reportSummaryMap =reportSummaryMap->getTH2F();
00054       h_reportSummaryMap->SetOption("textcolz");
00055       h_reportSummaryMap->GetXaxis()->SetTitle("module");
00056       h_reportSummaryMap->GetYaxis()->SetTitle("sector");
00057     }
00058     
00059     overallStatus = m_dbe->bookFloat("RecHit Energy based fraction of good channels");
00060    } 
00061 
00062   else{
00063   if(fVerbosity>0) std::cout << "CastorChannelQualityMonitor::setup - NO DQMStore service" << std::endl; 
00064  }
00065 
00066   // baseFolder_ = rootFolder_+"CastorChannelQualityMonitor";
00067 
00068   if(fVerbosity>0) std::cout << "CastorChannelQualityMonitor::setup (start)" << std::endl;
00069 
00071   for (int row=0; row<14; row++) {
00072     for (int col=0; col<16; col++){
00073         aboveNoisyThreshold[row][col] = 0;
00074         belowDThreshold[row][col]     = 0;
00075         energyArray[row][col]         = 0;
00076         aboveThr[row][col]         = 0;
00077     }
00078   }
00079 
00081   ievt_=0; counter1=0; counter2=0;  wcounter1=0.; wcounter2=0.; 
00083   fraction=0.; 
00084   overallStatus->Fill(fraction); reportSummary->Fill(fraction); 
00086   status = -99; numOK = 0; 
00088   iRecHit=false;
00090   averageEnergy=0.;
00091 
00092   if(fVerbosity>0) std::cout << "CastorChannelQualityMonitor::setup (end)" << std::endl;
00093 
00094   return;
00095 }
00096 
00097 
00098 
00099 
00100 //==========================================================//
00101 //================== processEvent ==========================//
00102 //==========================================================//
00103 void CastorChannelQualityMonitor::processEvent(const CastorRecHitCollection& castorHits){
00104 
00105   if(fVerbosity>0) std::cout << "CastorChannelQualityMonitor::processEvent !!!" << std::endl;
00106 
00107   if(!m_dbe) { 
00108     if(fVerbosity>0) std::cout <<"CastorChannelQualityMonitor::processEvent => DQMStore is not instantiated !!!"<<std::endl;  
00109     return; 
00110   }
00111 
00112   if(fVerbosity>0){
00113      std::cout << "CastorChannelQualityMonitor: Noisy Threshold is set to: "<< nThreshold_ << std::endl;
00114      std::cout << "CastorChannelQualityMonitor: Dead Threshold is set to: " << dThreshold_ << std::endl;
00115     }
00116 
00117   castorModule = -1;  castorSector = -1; castorEnergy = -1.; 
00118   
00119   if (castorHits.size()>0) iRecHit=true;
00120   else iRecHit=false;
00121  
00122  
00124  for(CastorRecHitCollection::const_iterator recHit = castorHits.begin(); recHit != castorHits.end(); ++recHit){
00125 
00126     HcalCastorDetId CastorID = HcalCastorDetId(recHit->id());
00127     if(fVerbosity>0) std::cout << "Castor ID = " << CastorID << std::endl;
00128     CastorRecHitCollection::const_iterator rh = castorHits.find(CastorID);
00130     castorModule = CastorID.module();
00131     castorSector = CastorID.sector();
00132     castorEnergy = rh->energy();
00133     //if(ievt_ % 1000 == 0) std::cout << "==> module=" << module << " sector=" << sector << " energy= "<< energy << std::endl;
00134     iRecHit=true; 
00135    
00138     if(castorEnergy > nThreshold_) ++aboveNoisyThreshold[castorModule-1][castorSector-1];
00139     if(castorEnergy < dThreshold_) ++belowDThreshold[castorModule-1][castorSector-1];
00141     if(castorEnergy>1) { //if(castorEnergy>0) {
00142       ++aboveThr[castorModule-1][castorSector-1]; 
00143       energyArray[castorModule-1][castorSector-1]=energyArray[castorModule-1][castorSector-1]+castorEnergy;
00144     }
00145 
00146    }
00147 
00148 
00149 
00150 
00152   ievt_++;
00153 
00154 
00158 
00159   // if( (ievt_ == 25 || ievt_ % 500 == 0) && iRecHit ) {
00160   // no particular event selection done 
00161    if( iRecHit ) {
00162    
00163    status = -99;  numOK = 0; 
00164 
00166     // if(offline_) reportSummaryMap->Reset();
00167 
00168 
00170  for (int sector=0; sector<16; sector++){
00171   for (int module=0; module<14; module++){
00172   
00173 
00174    if(averageEnergyMethod_){
00175 
00176      if(aboveThr[module][sector] >0)
00177      averageEnergy= energyArray[module][sector]/double(aboveThr[module][sector]); // calculate the average energy in each channel
00178      else averageEnergy=0;
00179  
00181      if( averageEnergy >  nThreshold_ )  status= 0;   
00182      if( averageEnergy < dThreshold_  ) { status= -1;  
00183           if(fVerbosity>0) std::cout << "!!! dChannels ===> module="<< module+1 << " sector="<< sector+1 << std::endl;
00184           }
00185      if( averageEnergy <  nThreshold_ && averageEnergy > dThreshold_ )  status= 1; 
00186 
00187      if(fVerbosity>0)
00188       std::cout << "===> module="<< module+1 << " sector="<< sector+1 <<" *** average Energy=" 
00189            << averageEnergy << " => energy=" << energyArray[module][sector] << " events="
00190            << ievt_ << " aboveThr="<< double(aboveThr[module][sector]) <<std::endl;
00191     }
00192 
00193 
00194    else{
00195       //-- look at the arrays
00196       counter1= aboveNoisyThreshold[module][sector]; //counter1 defines how many times the energy was above a noisythreshold
00197       counter2= belowDThreshold[module][sector];  //counter2 defines how many times the energy was below a dthreshold
00198       wcounter1= double(counter1)/double(ievt_);
00199       wcounter2= double(counter2)/double(ievt_);
00201       if( wcounter1 > 0.85 )  status= 0; 
00202       if( wcounter2 > 0.85 ) {status= -1;  
00203          if(fVerbosity>0) std::cout << "!!! dChannels ===> module="<< module+1 << " sector="<< sector+1 << std::endl; 
00204         }
00205       if( wcounter1 < 0.85 && wcounter2 <  0.85 ) status= 1; 
00206 
00207       if(fVerbosity>0)
00208         std::cout << "===> module="<< module+1 << " sector="<< sector+1 <<" *** counter1=" 
00209         << counter1 << " => counter2=" << counter2 << " events="<< ievt_ 
00210         << " wcounter1=" << wcounter1  << " wcounter2=" <<  wcounter2
00211         << " *** ==> STATUS=" << status <<std::endl;      
00212     }
00213 
00215    // reportSummaryMap->Fill(module,sector,status);
00216    reportSummaryMap->getTH2F()->SetBinContent(module+1,sector+1,double(status));
00217    if (status == 1) numOK++;
00218 
00219       }
00220     }
00222   fraction=double(numOK)/224;
00223   overallStatus->Fill(fraction); reportSummary->Fill(fraction); 
00224   }
00225   
00226   
00227    return;
00228 } 
00229