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Public Member Functions | Private Attributes

CastorHIMonitor Class Reference

#include <CastorHIMonitor.h>

Inheritance diagram for CastorHIMonitor:
CastorBaseMonitor

List of all members.

Public Member Functions

 CastorHIMonitor ()
void processEvent (const CastorRecHitCollection &castorHits, const CastorDigiCollection &cast, const CastorDbService &cond)
void reset ()
void setup (const edm::ParameterSet &ps, DQMStore *dbe)
 ~CastorHIMonitor ()

Private Attributes

bool doPerChannel_
float energy
float energyHADsector [16]
float energyInEachChannel [14][16]
float energySectors [16]
float energyTotalChannel [14][16]
float energyTotalSector [16]
float EtotalCASTOR
float EtotalEM
float EtotalHAD
int ievt_
MonitorElementmeChargeModule1
MonitorElementmeChargeModule10
MonitorElementmeChargeModule11
MonitorElementmeChargeModule12
MonitorElementmeChargeModule13
MonitorElementmeChargeModule14
MonitorElementmeChargeModule2
MonitorElementmeChargeModule3
MonitorElementmeChargeModule4
MonitorElementmeChargeModule5
MonitorElementmeChargeModule6
MonitorElementmeChargeModule7
MonitorElementmeChargeModule8
MonitorElementmeChargeModule9
MonitorElementmeChargeSector1
MonitorElementmeChargeSector10
MonitorElementmeChargeSector11
MonitorElementmeChargeSector12
MonitorElementmeChargeSector13
MonitorElementmeChargeSector14
MonitorElementmeChargeSector15
MonitorElementmeChargeSector16
MonitorElementmeChargeSector2
MonitorElementmeChargeSector3
MonitorElementmeChargeSector4
MonitorElementmeChargeSector5
MonitorElementmeChargeSector6
MonitorElementmeChargeSector7
MonitorElementmeChargeSector8
MonitorElementmeChargeSector9
MonitorElementmeChargeSectorEM1
MonitorElementmeChargeSectorEM10
MonitorElementmeChargeSectorEM11
MonitorElementmeChargeSectorEM12
MonitorElementmeChargeSectorEM13
MonitorElementmeChargeSectorEM14
MonitorElementmeChargeSectorEM15
MonitorElementmeChargeSectorEM16
MonitorElementmeChargeSectorEM2
MonitorElementmeChargeSectorEM3
MonitorElementmeChargeSectorEM4
MonitorElementmeChargeSectorEM5
MonitorElementmeChargeSectorEM6
MonitorElementmeChargeSectorEM7
MonitorElementmeChargeSectorEM8
MonitorElementmeChargeSectorEM9
MonitorElementmeChargeSectorEMvsHAD1
MonitorElementmeChargeSectorEMvsHAD10
MonitorElementmeChargeSectorEMvsHAD11
MonitorElementmeChargeSectorEMvsHAD12
MonitorElementmeChargeSectorEMvsHAD13
MonitorElementmeChargeSectorEMvsHAD14
MonitorElementmeChargeSectorEMvsHAD15
MonitorElementmeChargeSectorEMvsHAD16
MonitorElementmeChargeSectorEMvsHAD2
MonitorElementmeChargeSectorEMvsHAD3
MonitorElementmeChargeSectorEMvsHAD4
MonitorElementmeChargeSectorEMvsHAD5
MonitorElementmeChargeSectorEMvsHAD6
MonitorElementmeChargeSectorEMvsHAD7
MonitorElementmeChargeSectorEMvsHAD8
MonitorElementmeChargeSectorEMvsHAD9
MonitorElementmeChargeSectorHAD1
MonitorElementmeChargeSectorHAD10
MonitorElementmeChargeSectorHAD11
MonitorElementmeChargeSectorHAD12
MonitorElementmeChargeSectorHAD13
MonitorElementmeChargeSectorHAD14
MonitorElementmeChargeSectorHAD15
MonitorElementmeChargeSectorHAD16
MonitorElementmeChargeSectorHAD2
MonitorElementmeChargeSectorHAD3
MonitorElementmeChargeSectorHAD4
MonitorElementmeChargeSectorHAD5
MonitorElementmeChargeSectorHAD6
MonitorElementmeChargeSectorHAD7
MonitorElementmeChargeSectorHAD8
MonitorElementmeChargeSectorHAD9
MonitorElementmeChargeTotalCASTOR
MonitorElementmeChargeTotalEM
MonitorElementmeChargeTotalEMvsHAD
MonitorElementmeChargeTotalHAD
MonitorElementmeChargeTotalSectors
MonitorElementmeEmodule1
MonitorElementmeEmodule10
MonitorElementmeEmodule11
MonitorElementmeEmodule12
MonitorElementmeEmodule13
MonitorElementmeEmodule14
MonitorElementmeEmodule2
MonitorElementmeEmodule3
MonitorElementmeEmodule4
MonitorElementmeEmodule5
MonitorElementmeEmodule6
MonitorElementmeEmodule7
MonitorElementmeEmodule8
MonitorElementmeEmodule9
MonitorElementmeEsector1
MonitorElementmeEsector10
MonitorElementmeEsector11
MonitorElementmeEsector12
MonitorElementmeEsector13
MonitorElementmeEsector14
MonitorElementmeEsector15
MonitorElementmeEsector16
MonitorElementmeEsector2
MonitorElementmeEsector3
MonitorElementmeEsector4
MonitorElementmeEsector5
MonitorElementmeEsector6
MonitorElementmeEsector7
MonitorElementmeEsector8
MonitorElementmeEsector9
MonitorElementmeEsectorEM1
MonitorElementmeEsectorEM10
MonitorElementmeEsectorEM11
MonitorElementmeEsectorEM12
MonitorElementmeEsectorEM13
MonitorElementmeEsectorEM14
MonitorElementmeEsectorEM15
MonitorElementmeEsectorEM16
MonitorElementmeEsectorEM2
MonitorElementmeEsectorEM3
MonitorElementmeEsectorEM4
MonitorElementmeEsectorEM5
MonitorElementmeEsectorEM6
MonitorElementmeEsectorEM7
MonitorElementmeEsectorEM8
MonitorElementmeEsectorEM9
MonitorElementmeEsectorEMvsHAD1
MonitorElementmeEsectorEMvsHAD10
MonitorElementmeEsectorEMvsHAD11
MonitorElementmeEsectorEMvsHAD12
MonitorElementmeEsectorEMvsHAD13
MonitorElementmeEsectorEMvsHAD14
MonitorElementmeEsectorEMvsHAD15
MonitorElementmeEsectorEMvsHAD16
MonitorElementmeEsectorEMvsHAD2
MonitorElementmeEsectorEMvsHAD3
MonitorElementmeEsectorEMvsHAD4
MonitorElementmeEsectorEMvsHAD5
MonitorElementmeEsectorEMvsHAD6
MonitorElementmeEsectorEMvsHAD7
MonitorElementmeEsectorEMvsHAD8
MonitorElementmeEsectorEMvsHAD9
MonitorElementmeEsectorHAD1
MonitorElementmeEsectorHAD10
MonitorElementmeEsectorHAD11
MonitorElementmeEsectorHAD12
MonitorElementmeEsectorHAD13
MonitorElementmeEsectorHAD14
MonitorElementmeEsectorHAD15
MonitorElementmeEsectorHAD16
MonitorElementmeEsectorHAD2
MonitorElementmeEsectorHAD3
MonitorElementmeEsectorHAD4
MonitorElementmeEsectorHAD5
MonitorElementmeEsectorHAD6
MonitorElementmeEsectorHAD7
MonitorElementmeEsectorHAD8
MonitorElementmeEsectorHAD9
MonitorElementmeEtotalCASTOR
MonitorElementmeEtotalEM
MonitorElementmeEtotalEMvsHAD
MonitorElementmeEtotalHAD
MonitorElementmeEtotalSector
MonitorElementmeEVT_
int module
int sector
float time
int zside

Detailed Description

Definition at line 9 of file CastorHIMonitor.h.


Constructor & Destructor Documentation

CastorHIMonitor::CastorHIMonitor ( )

Definition at line 16 of file CastorHIMonitor.cc.

References doPerChannel_, energy, EtotalCASTOR, EtotalEM, EtotalHAD, ievt_, sector, and time.

                                 {
  doPerChannel_ = true;
  //  occThresh_ = 1;
  ievt_  =   0;
  module = -99;
  sector = -99;
  energy = -99;
  time   = -99;
  EtotalEM =-99;
  EtotalHAD =-99;
  EtotalCASTOR =-99;

}
CastorHIMonitor::~CastorHIMonitor ( )

Definition at line 33 of file CastorHIMonitor.cc.

                                 {
}

Member Function Documentation

void CastorHIMonitor::processEvent ( const CastorRecHitCollection castorHits,
const CastorDigiCollection cast,
const CastorDbService cond 
)

Definition at line 349 of file CastorHIMonitor.cc.

References edm::SortedCollection< T, SORT >::begin(), gather_cfg::cout, CastorBaseMonitor::cpu_timer, edm::CPUTimer::cpuTime(), edm::SortedCollection< T, SORT >::end(), energy, energyHADsector, energyInEachChannel, energyTotalChannel, energyTotalSector, EtotalCASTOR, EtotalEM, EtotalHAD, MonitorElement::Fill(), CastorBaseMonitor::fVerbosity, errorMatrix2Lands_multiChannel::id, ievt_, CastorBaseMonitor::m_dbe, meEmodule1, meEmodule10, meEmodule11, meEmodule12, meEmodule13, meEmodule14, meEmodule2, meEmodule3, meEmodule4, meEmodule5, meEmodule6, meEmodule7, meEmodule8, meEmodule9, meEsector1, meEsector10, meEsector11, meEsector12, meEsector13, meEsector14, meEsector15, meEsector16, meEsector2, meEsector3, meEsector4, meEsector5, meEsector6, meEsector7, meEsector8, meEsector9, meEsectorEM1, meEsectorEM10, meEsectorEM11, meEsectorEM12, meEsectorEM13, meEsectorEM14, meEsectorEM15, meEsectorEM16, meEsectorEM2, meEsectorEM3, meEsectorEM4, meEsectorEM5, meEsectorEM6, meEsectorEM7, meEsectorEM8, meEsectorEM9, meEsectorEMvsHAD1, meEsectorEMvsHAD10, meEsectorEMvsHAD11, meEsectorEMvsHAD12, meEsectorEMvsHAD13, meEsectorEMvsHAD14, meEsectorEMvsHAD15, meEsectorEMvsHAD16, meEsectorEMvsHAD2, meEsectorEMvsHAD3, meEsectorEMvsHAD4, meEsectorEMvsHAD5, meEsectorEMvsHAD6, meEsectorEMvsHAD7, meEsectorEMvsHAD8, meEsectorEMvsHAD9, meEsectorHAD1, meEsectorHAD10, meEsectorHAD11, meEsectorHAD12, meEsectorHAD13, meEsectorHAD14, meEsectorHAD15, meEsectorHAD16, meEsectorHAD2, meEsectorHAD3, meEsectorHAD4, meEsectorHAD5, meEsectorHAD6, meEsectorHAD7, meEsectorHAD8, meEsectorHAD9, meEtotalCASTOR, meEtotalEM, meEtotalEMvsHAD, meEtotalHAD, meEtotalSector, meEVT_, text2workspace::mod, module, edm::CPUTimer::reset(), sector, CastorBaseMonitor::showTiming, edm::SortedCollection< T, SORT >::size(), edm::CPUTimer::start(), edm::CPUTimer::stop(), and time.

Referenced by CastorMonitorModule::analyze().

                                                                                                                                                 {  

  if(fVerbosity>0) std::cout << "==>CastorHIMonitor::processEvent !!!"<< std::endl;

  if(!m_dbe) { 
    if(fVerbosity>0) std::cout <<"CastorHIMonitor::processEvent => DQMStore is not instantiated !!!"<<std::endl;  
    return; 
  }

  meEVT_->Fill(ievt_);

  EtotalEM =0; EtotalHAD =0; EtotalCASTOR =0;

       for (int mod=0; mod<14; mod++) {
        for (int sec=0; sec<16; sec++) {
          energyInEachChannel[mod][sec] = 0;
       }
     }

       for (int sec=0; sec<16; sec++)
     energyHADsector[sec] = 0;
   


  CastorRecHitCollection::const_iterator CASTORiter;
  if (showTiming)  { cpu_timer.reset(); cpu_timer.start(); } 

  //********************************************************//
  //************ working with RecHits *********************//
  //*******************************************************//
 
  if(castorHits.size()>0)
  {    
 
     if(fVerbosity>0) std::cout << "==>CastorHIMonitor::processEvent: castorHits.size()>0 !!!" << std::endl; 

    for (CASTORiter=castorHits.begin(); CASTORiter!=castorHits.end(); ++CASTORiter) { 
        
      HcalCastorDetId id(CASTORiter->detid().rawId());
      module = (int)id.module(); 
      sector = (int)id.sector(); 
      //zside  = (int)id.zside(); 
      energy = CASTORiter->energy();    
      time   = CASTORiter->time();
      
      if(fVerbosity>0) 
      std::cout<<"CastorHIMonitor==> module:"<< module << " sector:"<< sector << " energy:" << energy<<std::endl;

      if (energy<0) energy=0;

      energyInEachChannel[module-1][sector-1] = energy; 
   
      energyTotalChannel[module-1][sector-1] += energy; 


      }
      //-- end of the loop over all hits
      

      //-----------------------------------//
      //------- fill energy in sectors ----//
      //-- energy distribution in depth --//
      //----------------------------------//
      for (int mod=0; mod<14;mod++){
       meEsector1->Fill(mod,energyInEachChannel[mod][0]);
       meEsector2->Fill(mod,energyInEachChannel[mod][1]);
       meEsector3->Fill(mod,energyInEachChannel[mod][2]);
       meEsector4->Fill(mod,energyInEachChannel[mod][3]);
       meEsector5->Fill(mod,energyInEachChannel[mod][4]);
       meEsector6->Fill(mod,energyInEachChannel[mod][5]);
       meEsector7->Fill(mod,energyInEachChannel[mod][6]);
       meEsector8->Fill(mod,energyInEachChannel[mod][7]);
       meEsector9->Fill(mod,energyInEachChannel[mod][8]);
       meEsector10->Fill(mod,energyInEachChannel[mod][9]);
       meEsector11->Fill(mod,energyInEachChannel[mod][10]);
       meEsector12->Fill(mod,energyInEachChannel[mod][11]);
       meEsector13->Fill(mod,energyInEachChannel[mod][12]);
       meEsector14->Fill(mod,energyInEachChannel[mod][13]);
       meEsector15->Fill(mod,energyInEachChannel[mod][14]);
       meEsector16->Fill(mod,energyInEachChannel[mod][15]);
      }


      //------------------------------------------//
      //-- fill energy in modules    --//
      //-- energy distribution in each of the rings vs phi-sector --//
      //---------------------------//
      for (int sec=0; sec<16;sec++){
       meEmodule1->Fill(sec,energyInEachChannel[0][sec]);
       meEmodule2->Fill(sec,energyInEachChannel[1][sec]);
       meEmodule3->Fill(sec,energyInEachChannel[2][sec]);
       meEmodule4->Fill(sec,energyInEachChannel[3][sec]);
       meEmodule5->Fill(sec,energyInEachChannel[4][sec]);
       meEmodule6->Fill(sec,energyInEachChannel[5][sec]);
       meEmodule7->Fill(sec,energyInEachChannel[6][sec]);
       meEmodule8->Fill(sec,energyInEachChannel[7][sec]);
       meEmodule9->Fill(sec,energyInEachChannel[8][sec]);
       meEmodule10->Fill(sec,energyInEachChannel[9][sec]);
       meEmodule11->Fill(sec,energyInEachChannel[10][sec]);
       meEmodule12->Fill(sec,energyInEachChannel[11][sec]);
       meEmodule13->Fill(sec,energyInEachChannel[12][sec]);
       meEmodule14->Fill(sec,energyInEachChannel[13][sec]);
      }



      //-------------------------------//
      //-- fill energy in EM sectors --//
      //-------------------------------//
      meEsectorEM1->Fill(energyInEachChannel[0][0]+energyInEachChannel[1][0]);
      meEsectorEM2->Fill(energyInEachChannel[0][1]+energyInEachChannel[1][1]); 
      meEsectorEM3->Fill(energyInEachChannel[0][2]+energyInEachChannel[1][2]);
      meEsectorEM4->Fill(energyInEachChannel[0][3]+energyInEachChannel[1][3]);
      meEsectorEM5->Fill(energyInEachChannel[0][4]+energyInEachChannel[1][4]);
      meEsectorEM6->Fill(energyInEachChannel[0][5]+energyInEachChannel[1][5]);
      meEsectorEM7->Fill(energyInEachChannel[0][6]+energyInEachChannel[1][6]);
      meEsectorEM8->Fill(energyInEachChannel[0][7]+energyInEachChannel[1][7]);
      meEsectorEM9->Fill(energyInEachChannel[0][8]+energyInEachChannel[1][8]);
      meEsectorEM10->Fill(energyInEachChannel[0][9]+energyInEachChannel[1][9]);
      meEsectorEM11->Fill(energyInEachChannel[0][10]+energyInEachChannel[1][10]);
      meEsectorEM12->Fill(energyInEachChannel[0][11]+energyInEachChannel[1][11]);
      meEsectorEM13->Fill(energyInEachChannel[0][12]+energyInEachChannel[1][12]);
      meEsectorEM14->Fill(energyInEachChannel[0][13]+energyInEachChannel[1][13]);
      meEsectorEM15->Fill(energyInEachChannel[0][14]+energyInEachChannel[1][14]);
      meEsectorEM16->Fill(energyInEachChannel[0][15]+energyInEachChannel[1][15]);



      //-------------------------------//
      //-- fill energy in HAD sectors --//
      //-------------------------------//

       for(int sec=0; sec<16;sec++){
      
      energyHADsector[sec]= energyInEachChannel[2][sec]+energyInEachChannel[3][sec]+energyInEachChannel[4][sec]+
                          energyInEachChannel[5][sec]+energyInEachChannel[6][sec]+energyInEachChannel[7][sec]+
                          energyInEachChannel[8][sec]+energyInEachChannel[9][sec]+energyInEachChannel[10][sec]+
                          energyInEachChannel[11][sec]+energyInEachChannel[12][sec]+energyInEachChannel[13][sec];
      }

      meEsectorHAD1->Fill(energyHADsector[0]);
      meEsectorHAD2->Fill(energyHADsector[1]);
      meEsectorHAD3->Fill(energyHADsector[2]);
      meEsectorHAD4->Fill(energyHADsector[3]);
      meEsectorHAD5->Fill(energyHADsector[4]);
      meEsectorHAD6->Fill(energyHADsector[5]);
      meEsectorHAD7->Fill(energyHADsector[6]);
      meEsectorHAD8->Fill(energyHADsector[7]);
      meEsectorHAD9->Fill(energyHADsector[8]);
      meEsectorHAD10->Fill(energyHADsector[9]);
      meEsectorHAD11->Fill(energyHADsector[10]);
      meEsectorHAD12->Fill(energyHADsector[11]);
      meEsectorHAD13->Fill(energyHADsector[12]);
      meEsectorHAD14->Fill(energyHADsector[13]);
      meEsectorHAD15->Fill(energyHADsector[14]);
      meEsectorHAD16->Fill(energyHADsector[15]);

       //-----------------------------------------//
      //-- fill energy ratio EM/HAD in sectors  --//
      //------------------------------------------//
      if(energyHADsector[0]!=0) meEsectorEMvsHAD1->Fill((energyInEachChannel[0][0]+energyInEachChannel[1][0])/energyHADsector[0]);
      if(energyHADsector[1]!=0) meEsectorEMvsHAD2->Fill((energyInEachChannel[0][1]+energyInEachChannel[1][1])/energyHADsector[1]);
      if(energyHADsector[2]!=0) meEsectorEMvsHAD3->Fill((energyInEachChannel[0][2]+energyInEachChannel[1][2])/energyHADsector[2]);
      if(energyHADsector[3]!=0) meEsectorEMvsHAD4->Fill((energyInEachChannel[0][3]+energyInEachChannel[1][3])/energyHADsector[3]);
      if(energyHADsector[4]!=0) meEsectorEMvsHAD5->Fill((energyInEachChannel[0][4]+energyInEachChannel[1][4])/energyHADsector[4]);
      if(energyHADsector[5]!=0) meEsectorEMvsHAD6->Fill((energyInEachChannel[0][5]+energyInEachChannel[1][5])/energyHADsector[5]);
      if(energyHADsector[6]!=0) meEsectorEMvsHAD7->Fill((energyInEachChannel[0][6]+energyInEachChannel[1][6])/energyHADsector[6]);
      if(energyHADsector[7]!=0) meEsectorEMvsHAD8->Fill((energyInEachChannel[0][7]+energyInEachChannel[1][7])/energyHADsector[7]);
      if(energyHADsector[8]!=0) meEsectorEMvsHAD9->Fill((energyInEachChannel[0][8]+energyInEachChannel[1][8])/energyHADsector[8]);
      if(energyHADsector[9]!=0) meEsectorEMvsHAD10->Fill((energyInEachChannel[0][9]+energyInEachChannel[1][9])/energyHADsector[9]);
      if(energyHADsector[10]!=0) meEsectorEMvsHAD11->Fill((energyInEachChannel[0][10]+energyInEachChannel[1][10])/energyHADsector[10]);
      if(energyHADsector[11]!=0) meEsectorEMvsHAD12->Fill((energyInEachChannel[0][11]+energyInEachChannel[1][11])/energyHADsector[11]);
      if(energyHADsector[12]!=0) meEsectorEMvsHAD13->Fill((energyInEachChannel[0][12]+energyInEachChannel[1][12])/energyHADsector[12]);
      if(energyHADsector[13]!=0) meEsectorEMvsHAD14->Fill((energyInEachChannel[0][13]+energyInEachChannel[1][13])/energyHADsector[13]);
      if(energyHADsector[14]!=0) meEsectorEMvsHAD15->Fill((energyInEachChannel[0][14]+energyInEachChannel[1][14])/energyHADsector[14]);
      if(energyHADsector[15]!=0) meEsectorEMvsHAD16->Fill((energyInEachChannel[0][15]+energyInEachChannel[1][15])/energyHADsector[15]);


      //------------------------------------------//
      //--    fill the total EM energy per event --//
      //------------------------------------------//
 
     for(int mod=0; mod<2;mod++)
       for(int sec=0; sec<16;sec++)
         EtotalEM += energyInEachChannel[mod][sec];
         

       meEtotalEM->Fill(EtotalEM);

      //--------------------------------------------//
      //--    fill the total HAD energy per event --//
      //-------------------------------------------//
 
     for(int mod=2; mod<14;mod++)
       for(int sec=0; sec<16;sec++)
         EtotalHAD += energyInEachChannel[mod][sec];
         

       meEtotalHAD->Fill(EtotalHAD);

      //----------------------------------------------------//
      //--  fill the total energy ratio EM/HAD per event  --//
      //----------------------------------------------------//
 
      if(EtotalHAD!=0) meEtotalEMvsHAD->Fill(EtotalEM/EtotalHAD);

      //----------------------------------------------------//
      //--  fill the total energy in CASTOR per event     --//
      //----------------------------------------------------//
      for(int mod=0; mod<14;mod++)
        for(int sec=0; sec<16;sec++)
          EtotalCASTOR += energyInEachChannel[mod][sec];         

      meEtotalCASTOR->Fill(EtotalCASTOR);
 

      //-------------------------------------------------------//
      //--  fill the total energy in CASTOR sectors per run --//
      //------------------------------------------------------//
  
     for(int sec=0; sec<16;sec++){

      energyTotalSector[sec] =  energyTotalChannel[0][sec]+energyTotalChannel[1][sec]+energyTotalChannel[2][sec]+
                                energyTotalChannel[3][sec]+energyTotalChannel[4][sec]+energyTotalChannel[5][sec]+
                                energyTotalChannel[6][sec]+energyTotalChannel[7][sec]+energyTotalChannel[8][sec]+
                                energyTotalChannel[9][sec]+energyTotalChannel[10][sec]+energyTotalChannel[11][sec]+
                                energyTotalChannel[12][sec]+energyTotalChannel[13][sec];
      }

      for(int sec=0; sec<16;sec++)
        meEtotalSector->Fill(sec,energyTotalSector[sec]);
 

        
  } //-- end of working with RecHits

    else { if(fVerbosity>0) std::cout<<"CastorHIMonitor::processEvent NO Castor RecHits !!!"<<std::endl; }



  //********************************************************//
  //************ working with Digis ***********************//
  //*******************************************************//



  if(castorDigis.size()>0) {


  }





  else { if(fVerbosity>0) std::cout<<"CastorHIMonitor::processEvent NO Castor Digis !!!"<<std::endl; }


  if (showTiming) { 
      cpu_timer.stop(); std::cout << " TIMER::CastorRecHit -> " << cpu_timer.cpuTime() << std::endl; 
      cpu_timer.reset(); cpu_timer.start();  
    }
  
  ievt_++; 

  return;

}
void CastorHIMonitor::reset ( void  )

Definition at line 36 of file CastorHIMonitor.cc.

Referenced by CastorMonitorModule::reset().

                           {
}
void CastorHIMonitor::setup ( const edm::ParameterSet ps,
DQMStore dbe 
) [virtual]

---- initialize the array energyHADsector, energySectors

Reimplemented from CastorBaseMonitor.

Definition at line 44 of file CastorHIMonitor.cc.

References CastorBaseMonitor::baseFolder_, DQMStore::book1D(), DQMStore::bookInt(), gather_cfg::cout, doPerChannel_, energyHADsector, energyInEachChannel, energySectors, energyTotalChannel, energyTotalSector, EtotalCASTOR, EtotalEM, EtotalHAD, CastorBaseMonitor::fVerbosity, edm::ParameterSet::getUntrackedParameter(), ievt_, CastorBaseMonitor::m_dbe, meEmodule1, meEmodule10, meEmodule11, meEmodule12, meEmodule13, meEmodule14, meEmodule2, meEmodule3, meEmodule4, meEmodule5, meEmodule6, meEmodule7, meEmodule8, meEmodule9, meEsector1, meEsector10, meEsector11, meEsector12, meEsector13, meEsector14, meEsector15, meEsector16, meEsector2, meEsector3, meEsector4, meEsector5, meEsector6, meEsector7, meEsector8, meEsector9, meEsectorEM1, meEsectorEM10, meEsectorEM11, meEsectorEM12, meEsectorEM13, meEsectorEM14, meEsectorEM15, meEsectorEM16, meEsectorEM2, meEsectorEM3, meEsectorEM4, meEsectorEM5, meEsectorEM6, meEsectorEM7, meEsectorEM8, meEsectorEM9, meEsectorEMvsHAD1, meEsectorEMvsHAD10, meEsectorEMvsHAD11, meEsectorEMvsHAD12, meEsectorEMvsHAD13, meEsectorEMvsHAD14, meEsectorEMvsHAD15, meEsectorEMvsHAD16, meEsectorEMvsHAD2, meEsectorEMvsHAD3, meEsectorEMvsHAD4, meEsectorEMvsHAD5, meEsectorEMvsHAD6, meEsectorEMvsHAD7, meEsectorEMvsHAD8, meEsectorEMvsHAD9, meEsectorHAD1, meEsectorHAD10, meEsectorHAD11, meEsectorHAD12, meEsectorHAD13, meEsectorHAD14, meEsectorHAD15, meEsectorHAD16, meEsectorHAD2, meEsectorHAD3, meEsectorHAD4, meEsectorHAD5, meEsectorHAD6, meEsectorHAD7, meEsectorHAD8, meEsectorHAD9, meEtotalCASTOR, meEtotalEM, meEtotalEMvsHAD, meEtotalHAD, meEtotalSector, meEVT_, text2workspace::mod, NULL, CastorBaseMonitor::rootFolder_, and DQMStore::setCurrentFolder().

Referenced by CastorMonitorModule::CastorMonitorModule().

                                                                   {
  
  CastorBaseMonitor::setup(ps,dbe);
  baseFolder_ = rootFolder_+"CastorHIMonitor/EnergyUnits";

   if(fVerbosity>0) std::cout << "CastorHIMonitor::setup (start)" << std::endl;
  
  if ( ps.getUntrackedParameter<bool>("RecHitsPerChannel", false) ){
    doPerChannel_ = true;
  }
    
  ievt_=0; EtotalEM =0; EtotalHAD =0; EtotalCASTOR =0; 
 
 
  for (int mod=0; mod<14; mod++) {
    for (int sec=0; sec<16; sec++){
        energyInEachChannel[mod][sec] = 0;
        energyTotalChannel[mod][sec] = 0;
    }
  }
  
  for (int sec=0; sec<16; sec++){
        energyHADsector[sec] = 0;
        energySectors[sec] = 0;
        energyTotalSector[sec] =0;
      }
 
  if ( m_dbe !=NULL ) {    
 m_dbe->setCurrentFolder(baseFolder_);
 

 


 meEtotalCASTOR  =  m_dbe->book1D("CASTOR Absolute RecHit Energy per event","CASTOR Absolute RecHit Energy per event",400,0,2000);

 meEtotalSector  = m_dbe->book1D("CASTOR Total RecHit Energy in phi-sectors per run","Total RecHit Energy in phi-sectors per run",16,0,16);

 meEtotalEM  =  m_dbe->book1D("CASTOR Total EM RecHit Energy per event","Total EM RecHit Energy per event",300,0,1500);

 meEtotalHAD  =  m_dbe->book1D("CASTOR Total HAD RecHit Energy per event","Total HAD RecHit Energy per event",300,0,1500);

 meEtotalEMvsHAD  =  m_dbe->book1D("CASTOR Total Energy ratio EM to HAD per event","Total Energy ratio EM to HAD per event",50,0,5);


meEsector1  =  m_dbe->book1D("RecHit Energy in phi-sector1 vs z-module","RecHit Energy in phi-sector1 vs z-module",14,0,14);
meEsector2  =  m_dbe->book1D("RecHit Energy in phi-sector2 vs z-module","RecHit Energy in phi-sector2 vs z-module",14,0,14);
meEsector3  =  m_dbe->book1D("RecHit Energy in phi-sector3 vs z-module","RecHit Energy in phi-sector3 vs z-module",14,0,14);
meEsector4  =  m_dbe->book1D("RecHit Energy in phi-sector4 vs z-module","RecHit Energy in phi-sector4 vs z-module",14,0,14);
meEsector5  =  m_dbe->book1D("RecHit Energy in phi-sector5 vs z-module","RecHit Energy in phi-sector5 vs z-module",14,0,14);
meEsector6  =  m_dbe->book1D("RecHit Energy in phi-sector6 vs z-module","RecHit Energy in phi-sector6 vs z-module",14,0,14);
meEsector7  =  m_dbe->book1D("RecHit Energy in phi-sector7 vs z-module","RecHit Energy in phi-sector7 vs z-module",14,0,14);
meEsector8  =  m_dbe->book1D("RecHit Energy in phi-sector8 vs z-module","RecHit Energy in phi-sector8 vs z-module",14,0,14);
meEsector9  =  m_dbe->book1D("RecHit Energy in phi-sector9 vs z-module","RecHit Energy in phi-sector9 vs z-module",14,0,14);
meEsector10 =  m_dbe->book1D("RecHit Energy in phi-sector10 vs z-module","RecHit Energy in phi-sector10 vs z-module",14,0,14);
meEsector11 =  m_dbe->book1D("RecHit Energy in phi-sector11 vs z-module","RecHit Energy in phi-sector11 vs z-module",14,0,14);
meEsector12 =  m_dbe->book1D("RecHit Energy in phi-sector12 vs z-module","RecHit Energy in phi-sector12 vs z-module",14,0,14);
meEsector13 =  m_dbe->book1D("RecHit Energy in phi-sector13 vs z-module","RecHit Energy in phi-sector13 vs z-module",14,0,14);
meEsector14 =  m_dbe->book1D("RecHit Energy in phi-sector14 vs z-module","RecHit Energy in phi-sector14 vs z-module",14,0,14);
meEsector15 =  m_dbe->book1D("RecHit Energy in phi-sector15 vs z-module","RecHit Energy in phi-sector15 vs z-module",14,0,14);
meEsector16 =  m_dbe->book1D("RecHit Energy in phi-sector16 vs z-module","RecHit Energy in phi-sector16 vs z-module",14,0,14);



 m_dbe->setCurrentFolder(baseFolder_+"/furtherPlots");

meEVT_ = m_dbe->bookInt("HI Event Number");

meEmodule1  =  m_dbe->book1D("RecHit Energy in z-module1 vs phi-sector","RecHit Energy in z-module1 vs phi-sector",16,0,16);
meEmodule2  =  m_dbe->book1D("RecHit Energy in z-module2 vs phi-sector","RecHit Energy in z-module2 vs phi-sector",16,0,16);
meEmodule3  =  m_dbe->book1D("RecHit Energy in z-module3 vs phi-sector","RecHit Energy in z-module3 vs phi-sector",16,0,16);
meEmodule4  =  m_dbe->book1D("RecHit Energy in z-module4 vs phi-sector","RecHit Energy in z-module4 vs phi-sector",16,0,16);
meEmodule5  =  m_dbe->book1D("RecHit Energy in z-module5 vs phi-sector","RecHit Energy in z-module5 vs phi-sector",16,0,16);
meEmodule6  =  m_dbe->book1D("RecHit Energy in z-module6 vs phi-sector","RecHit Energy in z-module6 vs phi-sector",16,0,16);
meEmodule7  =  m_dbe->book1D("RecHit Energy in z-module7 vs phi-sector","RecHit Energy in z-module7 vs phi-sector",16,0,16);
meEmodule8  =  m_dbe->book1D("RecHit Energy in z-module8 vs phi-sector","RecHit Energy in z-module8 vs phi-sector",16,0,16);
meEmodule9  =  m_dbe->book1D("RecHit Energy in z-module9 vs phi-sector","RecHit Energy in z-module9 vs phi-sector",16,0,16);
meEmodule10 =  m_dbe->book1D("RecHit Energy in z-module10 vs phi-sector","RecHit Energy in z-module10 vs phi-sector",16,0,16);
meEmodule11 =  m_dbe->book1D("RecHit Energy in z-module11 vs phi-sector","RecHit Energy in z-module11 vs phi-sector",16,0,16);
meEmodule12 =  m_dbe->book1D("RecHit Energy in z-module12 vs phi-sector","RecHit Energy in z-module12 vs phi-sector",16,0,16);
meEmodule13 =  m_dbe->book1D("RecHit Energy in z-module13 vs phi-sector","RecHit Energy in z-module13 vs phi-sector",16,0,16);
meEmodule14 =  m_dbe->book1D("RecHit Energy in z-module14 vs phi-sector","RecHit Energy in z-module14 vs phi-sector",16,0,16);

 double EmaxSector=800;
 double NbinsSector=200;

meEsectorEM1  =  m_dbe->book1D("RecHit Energy in EM phi-sector1","RecHit Energy in EM phi-sector1",NbinsSector,0,EmaxSector);
meEsectorEM2  =  m_dbe->book1D("RecHit Energy in EM phi-sector2","RecHit Energy in EM phi-sector2",NbinsSector,0,EmaxSector);
meEsectorEM3  =  m_dbe->book1D("RecHit Energy in EM phi-sector3","RecHit Energy in EM phi-sector3",NbinsSector,0,EmaxSector);
meEsectorEM4  =  m_dbe->book1D("RecHit Energy in EM phi-sector4","RecHit Energy in EM phi-sector4",NbinsSector,0,EmaxSector);
meEsectorEM5  =  m_dbe->book1D("RecHit Energy in EM phi-sector5","RecHit Energy in EM phi-sector5",NbinsSector,0,EmaxSector);
meEsectorEM6  =  m_dbe->book1D("RecHit Energy in EM phi-sector6","RecHit Energy in EM phi-sector6",NbinsSector,0,EmaxSector);
meEsectorEM7  =  m_dbe->book1D("RecHit Energy in EM phi-sector7","RecHit Energy in EM phi-sector7",NbinsSector,0,EmaxSector);
meEsectorEM8  =  m_dbe->book1D("RecHit Energy in EM phi-sector8","RecHit Energy in EM phi-sector8",NbinsSector,0,EmaxSector);
meEsectorEM9  =  m_dbe->book1D("RecHit Energy in EM phi-sector9","RecHit Energy in EM phi-sector9",NbinsSector,0,EmaxSector);
meEsectorEM10  =  m_dbe->book1D("RecHit Energy in EM phi-sector10","RecHit Energy in EM phi-sector10",NbinsSector,0,EmaxSector);
meEsectorEM11  =  m_dbe->book1D("RecHit Energy in EM phi-sector11","RecHit Energy in EM phi-sector11",NbinsSector,0,EmaxSector);
meEsectorEM12  =  m_dbe->book1D("RecHit Energy in EM phi-sector12","RecHit Energy in EM phi-sector12",NbinsSector,0,EmaxSector);
meEsectorEM13  =  m_dbe->book1D("RecHit Energy in EM phi-sector13","RecHit Energy in EM phi-sector13",NbinsSector,0,EmaxSector);
meEsectorEM14  =  m_dbe->book1D("RecHit Energy in EM phi-sector14","RecHit Energy in EM phi-sector14",NbinsSector,0,EmaxSector);
meEsectorEM15  =  m_dbe->book1D("RecHit Energy in EM phi-sector15","RecHit Energy in EM phi-sector15",NbinsSector,0,EmaxSector);
meEsectorEM16  =  m_dbe->book1D("RecHit Energy in EM phi-sector16","RecHit Energy in EM phi-sector16",NbinsSector,0,EmaxSector);

meEsectorHAD1  =  m_dbe->book1D("RecHit Energy in HAD phi-sector1","RecHit Energy in HAD phi-sector1",NbinsSector,0,EmaxSector);
meEsectorHAD2  =  m_dbe->book1D("RecHit Energy in HAD phi-sector2","RecHit Energy in HAD phi-sector2",NbinsSector,0,EmaxSector);
meEsectorHAD3  =  m_dbe->book1D("RecHit Energy in HAD phi-sector3","RecHit Energy in HAD phi-sector3",NbinsSector,0,EmaxSector);
meEsectorHAD4  =  m_dbe->book1D("RecHit Energy in HAD phi-sector4","RecHit Energy in HAD phi-sector4",NbinsSector,0,EmaxSector);
meEsectorHAD5  =  m_dbe->book1D("RecHit Energy in HAD phi-sector5","RecHit Energy in HAD phi-sector5",NbinsSector,0,EmaxSector);
meEsectorHAD6  =  m_dbe->book1D("RecHit Energy in HAD phi-sector6","RecHit Energy in HAD phi-sector6",NbinsSector,0,EmaxSector);
meEsectorHAD7  =  m_dbe->book1D("RecHit Energy in HAD phi-sector7","RecHit Energy in HAD phi-sector7",NbinsSector,0,EmaxSector);
meEsectorHAD8  =  m_dbe->book1D("RecHit Energy in HAD phi-sector8","RecHit Energy in HAD phi-sector8",NbinsSector,0,EmaxSector);
meEsectorHAD9  =  m_dbe->book1D("RecHit Energy in HAD phi-sector9","RecHit Energy in HAD phi-sector9",NbinsSector,0,EmaxSector);
meEsectorHAD10  =  m_dbe->book1D("RecHit Energy in HAD phi-sector10","RecHit Energy in HAD phi-sector10",NbinsSector,0,EmaxSector);
meEsectorHAD11  =  m_dbe->book1D("RecHit Energy in HAD phi-sector11","RecHit Energy in HAD phi-sector11",NbinsSector,0,EmaxSector);
meEsectorHAD12  =  m_dbe->book1D("RecHit Energy in HAD phi-sector12","RecHit Energy in HAD phi-sector12",NbinsSector,0,EmaxSector);
meEsectorHAD13  =  m_dbe->book1D("RecHit Energy in HAD phi-sector13","RecHit Energy in HAD phi-sector13",NbinsSector,0,EmaxSector);
meEsectorHAD14  =  m_dbe->book1D("RecHit Energy in HAD phi-sector14","RecHit Energy in HAD phi-sector14",NbinsSector,0,EmaxSector);
meEsectorHAD15  =  m_dbe->book1D("RecHit Energy in HAD phi-sector15","RecHit Energy in HAD phi-sector15",NbinsSector,0,EmaxSector);
meEsectorHAD16  =  m_dbe->book1D("RecHit Energy in HAD phi-sector16","RecHit Energy in HAD phi-sector16",NbinsSector,0,EmaxSector);


meEsectorEMvsHAD1  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector1","Ratio E_EM to E_HAD phi-sector1",50,0,5);
meEsectorEMvsHAD2  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector2","Ratio E_EM to E_HAD phi-sector2",50,0,5);
meEsectorEMvsHAD3  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector3","Ratio E_EM to E_HAD phi-sector3",50,0,5);
meEsectorEMvsHAD4  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector4","Ratio E_EM to E_HAD phi-sector4",50,0,5);
meEsectorEMvsHAD5  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector5","Ratio E_EM to E_HAD phi-sector5",50,0,5);
meEsectorEMvsHAD6  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector6","Ratio E_EM to E_HAD phi-sector6",50,0,5);
meEsectorEMvsHAD7  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector7","Ratio E_EM to E_HAD phi-sector7",50,0,5);
meEsectorEMvsHAD8  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector8","Ratio E_EM to E_HAD phi-sector8",50,0,5);
meEsectorEMvsHAD9  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector9","Ratio E_EM to E_HAD phi-sector9",50,0,5);
meEsectorEMvsHAD10  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector10","Ratio E_EM to E_HAD phi-sector10",50,0,5);
meEsectorEMvsHAD11  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector11","Ratio E_EM to E_HAD phi-sector11",50,0,5);
meEsectorEMvsHAD12  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector12","Ratio E_EM to E_HAD phi-sector12",50,0,5);
meEsectorEMvsHAD13  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector13","Ratio E_EM to E_HAD phi-sector13",50,0,5);
meEsectorEMvsHAD14  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector14","Ratio E_EM to E_HAD phi-sector14",50,0,5);
meEsectorEMvsHAD15  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector15","Ratio E_EM to E_HAD phi-sector15",50,0,5);
meEsectorEMvsHAD16  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector16","Ratio E_EM to E_HAD phi-sector16",50,0,5);




 /*


 m_dbe->setCurrentFolder(rootFolder_+"CastorHIMonitor/Charge_fC");

 meChargeTotalCASTOR  =  m_dbe->book1D("CASTOR Total Charge per event","CASTOR Total Charge per event",100,0,400);

 meChargeTotalSector  = m_dbe->book1D("Total Charge in phi-sectors per event","Total Charge in phi-sectors per event",16,0,16);

 meChargeTotalEM  =  m_dbe->book1D("Total EM Charge per event","Total EM Charge per event",100,0,400);

 meChargeTotalHAD  =  m_dbe->book1D("Total HAD Charge per event","Total HAD Charge per event",100,0,400);

 meChargeTotalEMvsHAD  =  m_dbe->book1D("Total Charge ratio EM to HAD per event","Total Charge ratio EM to HAD per event",50,0,5);

meChargeSector1  =  m_dbe->book1D("Charge in phi-sector1 vs z-module","Charge in phi-sector1 vs z-module",14,0,14);
meChargeSector2  =  m_dbe->book1D("Charge in phi-sector2 vs z-module","Charge in phi-sector2 vs z-module",14,0,14);
meChargeSector3  =  m_dbe->book1D("Charge in phi-sector3 vs z-module","Charge in phi-sector3 vs z-module",14,0,14);
meChargeSector4  =  m_dbe->book1D("Charge in phi-sector4 vs z-module","Charge in phi-sector4 vs z-module",14,0,14);
meChargeSector5  =  m_dbe->book1D("Charge in phi-sector5 vs z-module","Charge in phi-sector5 vs z-module",14,0,14);
meChargeSector6  =  m_dbe->book1D("Charge in phi-sector6 vs z-module","Charge in phi-sector6 vs z-module",14,0,14);
meChargeSector7  =  m_dbe->book1D("Charge in phi-sector7 vs z-module","Charge in phi-sector7 vs z-module",14,0,14);
meChargeSector8  =  m_dbe->book1D("Charge in phi-sector8 vs z-module","Charge in phi-sector8 vs z-module",14,0,14);
meChargeSector9  =  m_dbe->book1D("Charge in phi-sector9 vs z-module","Charge in phi-sector9 vs z-module",14,0,14);
meChargeSector10 =  m_dbe->book1D("Charge in phi-sector10 vs z-module","Charge in phi-sector10 vs z-module",14,0,14);
meChargeSector11 =  m_dbe->book1D("Charge in phi-sector11 vs z-module","Charge in phi-sector11 vs z-module",14,0,14);
meChargeSector12 =  m_dbe->book1D("Charge in phi-sector12 vs z-module","Charge in phi-sector12 vs z-module",14,0,14);
meChargeSector13 =  m_dbe->book1D("Charge in phi-sector13 vs z-module","Charge in phi-sector13 vs z-module",14,0,14);
meChargeSector14 =  m_dbe->book1D("Charge in phi-sector14 vs z-module","Charge in phi-sector14 vs z-module",14,0,14);
meChargeSector15 =  m_dbe->book1D("Charge in phi-sector15 vs z-module","Charge in phi-sector15 vs z-module",14,0,14);
meChargeSector16 =  m_dbe->book1D("Charge in phi-sector16 vs z-module","Charge in phi-sector16 vs z-module",14,0,14);

 m_dbe->setCurrentFolder(rootFolder_+"CastorHIMonitor/Charge_fC/furtherPlots");

meChargeModule1  =  m_dbe->book1D("Charge in z-module1 vs phi-sector","Charge in z-module1 vs phi-sector",16,0,16);
meChargeModule2  =  m_dbe->book1D("Charge in z-module2 vs phi-sector","Charge in z-module2 vs phi-sector",16,0,16);
meChargeModule3  =  m_dbe->book1D("Charge in z-module3 vs phi-sector","Charge in z-module3 vs phi-sector",16,0,16);
meChargeModule4  =  m_dbe->book1D("Charge in z-module4 vs phi-sector","Charge in z-module4 vs phi-sector",16,0,16);
meChargeModule5  =  m_dbe->book1D("Charge in z-module5 vs phi-sector","Charge in z-module5 vs phi-sector",16,0,16);
meChargeModule6  =  m_dbe->book1D("Charge in z-module6 vs phi-sector","Charge in z-module6 vs phi-sector",16,0,16);
meChargeModule7  =  m_dbe->book1D("Charge in z-module7 vs phi-sector","Charge in z-module7 vs phi-sector",16,0,16);
meChargeModule8  =  m_dbe->book1D("Charge in z-module8 vs phi-sector","Charge in z-module8 vs phi-sector",16,0,16);
meChargeModule9  =  m_dbe->book1D("Charge in z-module9 vs phi-sector","Charge in z-module9 vs phi-sector",16,0,16);
meChargeModule10 =  m_dbe->book1D("Charge in z-module10 vs phi-sector","Charge in z-module10 vs phi-sector",16,0,16);
meChargeModule11 =  m_dbe->book1D("Charge in z-module11 vs phi-sector","Charge in z-module11 vs phi-sector",16,0,16);
meChargeModule12 =  m_dbe->book1D("Charge in z-module12 vs phi-sector","Charge in z-module12 vs phi-sector",16,0,16);
meChargeModule13 =  m_dbe->book1D("Charge in z-module13 vs phi-sector","Charge in z-module13 vs phi-sector",16,0,16);
meChargeModule14 =  m_dbe->book1D("Charge in z-module14 vs phi-sector","Charge in z-module14 vs phi-sector",16,0,16);


meChargeSectorEM1  =  m_dbe->book1D("Charge in EM phi-sector1","Charge in EM phi-sector1",50,0,200);
meChargeSectorEM2  =  m_dbe->book1D("Charge in EM phi-sector2","Charge in EM phi-sector2",50,0,200);
meChargeSectorEM3  =  m_dbe->book1D("Charge in EM phi-sector3","Charge in EM phi-sector3",50,0,200);
meChargeSectorEM4  =  m_dbe->book1D("Charge in EM phi-sector4","Charge in EM phi-sector4",50,0,200);
meChargeSectorEM5  =  m_dbe->book1D("Charge in EM phi-sector5","Charge in EM phi-sector5",50,0,200);
meChargeSectorEM6  =  m_dbe->book1D("Charge in EM phi-sector6","Charge in EM phi-sector6",50,0,200);
meChargeSectorEM7  =  m_dbe->book1D("Charge in EM phi-sector7","Charge in EM phi-sector7",50,0,200);
meChargeSectorEM8  =  m_dbe->book1D("Charge in EM phi-sector8","Charge in EM phi-sector8",50,0,200);
meChargeSectorEM9  =  m_dbe->book1D("Charge in EM phi-sector9","Charge in EM phi-sector9",50,0,200);
meChargeSectorEM10  =  m_dbe->book1D("Charge in EM phi-sector10","Charge in EM phi-sector10",50,0,200);
meChargeSectorEM11  =  m_dbe->book1D("Charge in EM phi-sector11","Charge in EM phi-sector11",50,0,200);
meChargeSectorEM12  =  m_dbe->book1D("Charge in EM phi-sector12","Charge in EM phi-sector12",50,0,200);
meChargeSectorEM13  =  m_dbe->book1D("Charge in EM phi-sector13","Charge in EM phi-sector13",50,0,200);
meChargeSectorEM14  =  m_dbe->book1D("Charge in EM phi-sector14","Charge in EM phi-sector14",50,0,200);
meChargeSectorEM15  =  m_dbe->book1D("Charge in EM phi-sector15","Charge in EM phi-sector15",50,0,200);
meChargeSectorEM16  =  m_dbe->book1D("Charge in EM phi-sector16","Charge in EM phi-sector16",50,0,200);

meChargeSectorHAD1  =  m_dbe->book1D("Charge in HAD phi-sector1","Charge in HAD phi-sector1",50,0,200);
meChargeSectorHAD2  =  m_dbe->book1D("Charge in HAD phi-sector2","Charge in HAD phi-sector2",50,0,200);
meChargeSectorHAD3  =  m_dbe->book1D("Charge in HAD phi-sector3","Charge in HAD phi-sector3",50,0,200);
meChargeSectorHAD4  =  m_dbe->book1D("Charge in HAD phi-sector4","Charge in HAD phi-sector4",50,0,200);
meChargeSectorHAD5  =  m_dbe->book1D("Charge in HAD phi-sector5","Charge in HAD phi-sector5",50,0,200);
meChargeSectorHAD6  =  m_dbe->book1D("Charge in HAD phi-sector6","Charge in HAD phi-sector6",50,0,200);
meChargeSectorHAD7  =  m_dbe->book1D("Charge in HAD phi-sector7","Charge in HAD phi-sector7",50,0,200);
meChargeSectorHAD8  =  m_dbe->book1D("Charge in HAD phi-sector8","Charge in HAD phi-sector8",50,0,200);
meChargeSectorHAD9  =  m_dbe->book1D("Charge in HAD phi-sector9","Charge in HAD phi-sector9",50,0,200);
meChargeSectorHAD10  =  m_dbe->book1D("Charge in HAD phi-sector10","Charge in HAD phi-sector10",50,0,200);
meChargeSectorHAD11  =  m_dbe->book1D("Charge in HAD phi-sector11","Charge in HAD phi-sector11",50,0,200);
meChargeSectorHAD12  =  m_dbe->book1D("Charge in HAD phi-sector12","Charge in HAD phi-sector12",50,0,200);
meChargeSectorHAD13  =  m_dbe->book1D("Charge in HAD phi-sector13","Charge in HAD phi-sector13",50,0,200);
meChargeSectorHAD14  =  m_dbe->book1D("Charge in HAD phi-sector14","Charge in HAD phi-sector14",50,0,200);
meChargeSectorHAD15  =  m_dbe->book1D("Charge in HAD phi-sector15","Charge in HAD phi-sector15",50,0,200);
meChargeSectorHAD16  =  m_dbe->book1D("Charge in HAD phi-sector16","Charge in HAD phi-sector16",50,0,200);



meChargeSectorEMvsHAD1  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector1","Ratio E_EM to E_HAD phi-sector1",50,0,5);
meChargeSectorEMvsHAD2  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector2","Ratio E_EM to E_HAD phi-sector2",50,0,5);
meChargeSectorEMvsHAD3  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector3","Ratio E_EM to E_HAD phi-sector3",50,0,5);
meChargeSectorEMvsHAD4  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector4","Ratio E_EM to E_HAD phi-sector4",50,0,5);
meChargeSectorEMvsHAD5  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector5","Ratio E_EM to E_HAD phi-sector5",50,0,5);
meChargeSectorEMvsHAD6  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector6","Ratio E_EM to E_HAD phi-sector6",50,0,5);
meChargeSectorEMvsHAD7  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector7","Ratio E_EM to E_HAD phi-sector7",50,0,5);
meChargeSectorEMvsHAD8  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector8","Ratio E_EM to E_HAD phi-sector8",50,0,5);
meChargeSectorEMvsHAD9  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector9","Ratio E_EM to E_HAD phi-sector9",50,0,5);
meChargeSectorEMvsHAD10  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector10","Ratio E_EM to E_HAD phi-sector10",50,0,5);
meChargeSectorEMvsHAD11  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector11","Ratio E_EM to E_HAD phi-sector11",50,0,5);
meChargeSectorEMvsHAD12  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector12","Ratio E_EM to E_HAD phi-sector12",50,0,5);
meChargeSectorEMvsHAD13  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector13","Ratio E_EM to E_HAD phi-sector13",50,0,5);
meChargeSectorEMvsHAD14  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector14","Ratio E_EM to E_HAD phi-sector14",50,0,5);
meChargeSectorEMvsHAD15  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector15","Ratio E_EM to E_HAD phi-sector15",50,0,5);
meChargeSectorEMvsHAD16  =  m_dbe->book1D("Ratio E_EM to E_HAD phi-sector16","Ratio E_EM to E_HAD phi-sector16",50,0,5);



 */







  }//-- end of if

  else{
  if(fVerbosity>0) std::cout << "CastorHIMonitor::setup - NO DQMStore service" << std::endl; 
 }

  if(fVerbosity>0) std::cout << "CastorHIMonitor::setup (end)" << std::endl;

  return;
}

Member Data Documentation

Definition at line 20 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), and setup().

float CastorHIMonitor::energy [private]

Definition at line 32 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), and processEvent().

float CastorHIMonitor::energyHADsector[16] [private]

Definition at line 38 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

float CastorHIMonitor::energyInEachChannel[14][16] [private]

Definition at line 36 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

float CastorHIMonitor::energySectors[16] [private]

Definition at line 39 of file CastorHIMonitor.h.

Referenced by setup().

float CastorHIMonitor::energyTotalChannel[14][16] [private]

Definition at line 37 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

Definition at line 40 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

Definition at line 49 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), processEvent(), and setup().

float CastorHIMonitor::EtotalEM [private]

Definition at line 43 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), processEvent(), and setup().

float CastorHIMonitor::EtotalHAD [private]

Definition at line 46 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), processEvent(), and setup().

int CastorHIMonitor::ievt_ [private]

Definition at line 22 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), processEvent(), and setup().

Definition at line 183 of file CastorHIMonitor.h.

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Definition at line 78 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

Definition at line 87 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

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Definition at line 79 of file CastorHIMonitor.h.

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Referenced by processEvent(), and setup().

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Definition at line 118 of file CastorHIMonitor.h.

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Definition at line 120 of file CastorHIMonitor.h.

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Definition at line 149 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

Definition at line 155 of file CastorHIMonitor.h.

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Definition at line 159 of file CastorHIMonitor.h.

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Definition at line 157 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

Definition at line 152 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

Definition at line 56 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

int CastorHIMonitor::module [private]

Definition at line 27 of file CastorHIMonitor.h.

Referenced by processEvent().

int CastorHIMonitor::sector [private]

Definition at line 28 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), and processEvent().

float CastorHIMonitor::time [private]

Definition at line 33 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), and processEvent().

int CastorHIMonitor::zside [private]

Definition at line 29 of file CastorHIMonitor.h.