CastorHIMonitor Class Reference

#include <CastorHIMonitor.h>

Inheritance diagram for CastorHIMonitor:

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 ()
Public Member Functions inherited from CastorBaseMonitor
	CastorBaseMonitor ()
virtual void	clearME ()
virtual void	done ()
bool	getDiagnostics () const
int	getVerbosity () const
void	setDiagnostics (bool myval)
void	setVerbosity (int verb)
bool	vetoCell (HcalCastorDetId id)
virtual	~CastorBaseMonitor ()

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_
MonitorElement *	meChargeModule1
MonitorElement *	meChargeModule10
MonitorElement *	meChargeModule11
MonitorElement *	meChargeModule12
MonitorElement *	meChargeModule13
MonitorElement *	meChargeModule14
MonitorElement *	meChargeModule2
MonitorElement *	meChargeModule3
MonitorElement *	meChargeModule4
MonitorElement *	meChargeModule5
MonitorElement *	meChargeModule6
MonitorElement *	meChargeModule7
MonitorElement *	meChargeModule8
MonitorElement *	meChargeModule9
MonitorElement *	meChargeSector1
MonitorElement *	meChargeSector10
MonitorElement *	meChargeSector11
MonitorElement *	meChargeSector12
MonitorElement *	meChargeSector13
MonitorElement *	meChargeSector14
MonitorElement *	meChargeSector15
MonitorElement *	meChargeSector16
MonitorElement *	meChargeSector2
MonitorElement *	meChargeSector3
MonitorElement *	meChargeSector4
MonitorElement *	meChargeSector5
MonitorElement *	meChargeSector6
MonitorElement *	meChargeSector7
MonitorElement *	meChargeSector8
MonitorElement *	meChargeSector9
MonitorElement *	meChargeSectorEM1
MonitorElement *	meChargeSectorEM10
MonitorElement *	meChargeSectorEM11
MonitorElement *	meChargeSectorEM12
MonitorElement *	meChargeSectorEM13
MonitorElement *	meChargeSectorEM14
MonitorElement *	meChargeSectorEM15
MonitorElement *	meChargeSectorEM16
MonitorElement *	meChargeSectorEM2
MonitorElement *	meChargeSectorEM3
MonitorElement *	meChargeSectorEM4
MonitorElement *	meChargeSectorEM5
MonitorElement *	meChargeSectorEM6
MonitorElement *	meChargeSectorEM7
MonitorElement *	meChargeSectorEM8
MonitorElement *	meChargeSectorEM9
MonitorElement *	meChargeSectorEMvsHAD1
MonitorElement *	meChargeSectorEMvsHAD10
MonitorElement *	meChargeSectorEMvsHAD11
MonitorElement *	meChargeSectorEMvsHAD12
MonitorElement *	meChargeSectorEMvsHAD13
MonitorElement *	meChargeSectorEMvsHAD14
MonitorElement *	meChargeSectorEMvsHAD15
MonitorElement *	meChargeSectorEMvsHAD16
MonitorElement *	meChargeSectorEMvsHAD2
MonitorElement *	meChargeSectorEMvsHAD3
MonitorElement *	meChargeSectorEMvsHAD4
MonitorElement *	meChargeSectorEMvsHAD5
MonitorElement *	meChargeSectorEMvsHAD6
MonitorElement *	meChargeSectorEMvsHAD7
MonitorElement *	meChargeSectorEMvsHAD8
MonitorElement *	meChargeSectorEMvsHAD9
MonitorElement *	meChargeSectorHAD1
MonitorElement *	meChargeSectorHAD10
MonitorElement *	meChargeSectorHAD11
MonitorElement *	meChargeSectorHAD12
MonitorElement *	meChargeSectorHAD13
MonitorElement *	meChargeSectorHAD14
MonitorElement *	meChargeSectorHAD15
MonitorElement *	meChargeSectorHAD16
MonitorElement *	meChargeSectorHAD2
MonitorElement *	meChargeSectorHAD3
MonitorElement *	meChargeSectorHAD4
MonitorElement *	meChargeSectorHAD5
MonitorElement *	meChargeSectorHAD6
MonitorElement *	meChargeSectorHAD7
MonitorElement *	meChargeSectorHAD8
MonitorElement *	meChargeSectorHAD9
MonitorElement *	meChargeTotalCASTOR
MonitorElement *	meChargeTotalEM
MonitorElement *	meChargeTotalEMvsHAD
MonitorElement *	meChargeTotalHAD
MonitorElement *	meChargeTotalSectors
MonitorElement *	meEmodule1
MonitorElement *	meEmodule10
MonitorElement *	meEmodule11
MonitorElement *	meEmodule12
MonitorElement *	meEmodule13
MonitorElement *	meEmodule14
MonitorElement *	meEmodule2
MonitorElement *	meEmodule3
MonitorElement *	meEmodule4
MonitorElement *	meEmodule5
MonitorElement *	meEmodule6
MonitorElement *	meEmodule7
MonitorElement *	meEmodule8
MonitorElement *	meEmodule9
MonitorElement *	meEsector1
MonitorElement *	meEsector10
MonitorElement *	meEsector11
MonitorElement *	meEsector12
MonitorElement *	meEsector13
MonitorElement *	meEsector14
MonitorElement *	meEsector15
MonitorElement *	meEsector16
MonitorElement *	meEsector2
MonitorElement *	meEsector3
MonitorElement *	meEsector4
MonitorElement *	meEsector5
MonitorElement *	meEsector6
MonitorElement *	meEsector7
MonitorElement *	meEsector8
MonitorElement *	meEsector9
MonitorElement *	meEsectorEM1
MonitorElement *	meEsectorEM10
MonitorElement *	meEsectorEM11
MonitorElement *	meEsectorEM12
MonitorElement *	meEsectorEM13
MonitorElement *	meEsectorEM14
MonitorElement *	meEsectorEM15
MonitorElement *	meEsectorEM16
MonitorElement *	meEsectorEM2
MonitorElement *	meEsectorEM3
MonitorElement *	meEsectorEM4
MonitorElement *	meEsectorEM5
MonitorElement *	meEsectorEM6
MonitorElement *	meEsectorEM7
MonitorElement *	meEsectorEM8
MonitorElement *	meEsectorEM9
MonitorElement *	meEsectorEMvsHAD1
MonitorElement *	meEsectorEMvsHAD10
MonitorElement *	meEsectorEMvsHAD11
MonitorElement *	meEsectorEMvsHAD12
MonitorElement *	meEsectorEMvsHAD13
MonitorElement *	meEsectorEMvsHAD14
MonitorElement *	meEsectorEMvsHAD15
MonitorElement *	meEsectorEMvsHAD16
MonitorElement *	meEsectorEMvsHAD2
MonitorElement *	meEsectorEMvsHAD3
MonitorElement *	meEsectorEMvsHAD4
MonitorElement *	meEsectorEMvsHAD5
MonitorElement *	meEsectorEMvsHAD6
MonitorElement *	meEsectorEMvsHAD7
MonitorElement *	meEsectorEMvsHAD8
MonitorElement *	meEsectorEMvsHAD9
MonitorElement *	meEsectorHAD1
MonitorElement *	meEsectorHAD10
MonitorElement *	meEsectorHAD11
MonitorElement *	meEsectorHAD12
MonitorElement *	meEsectorHAD13
MonitorElement *	meEsectorHAD14
MonitorElement *	meEsectorHAD15
MonitorElement *	meEsectorHAD16
MonitorElement *	meEsectorHAD2
MonitorElement *	meEsectorHAD3
MonitorElement *	meEsectorHAD4
MonitorElement *	meEsectorHAD5
MonitorElement *	meEsectorHAD6
MonitorElement *	meEsectorHAD7
MonitorElement *	meEsectorHAD8
MonitorElement *	meEsectorHAD9
MonitorElement *	meEtotalCASTOR
MonitorElement *	meEtotalEM
MonitorElement *	meEtotalEMvsHAD
MonitorElement *	meEtotalHAD
MonitorElement *	meEtotalSector
MonitorElement *	meEVT_
int	module
int	sector
float	time
int	zside

Additional Inherited Members
Protected Attributes inherited from CastorBaseMonitor
std::string	baseFolder_
edm::CPUTimer	cpu_timer
int	fVerbosity
DQMStore *	m_dbe
bool	makeDiagnostics
std::string	rootFolder_
bool	showTiming

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_, DQMStore::setCurrentFolder(), and CastorBaseMonitor::setup().

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

bool CastorHIMonitor::doPerChannel_

private

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().

float CastorHIMonitor::energyTotalSector[16]

private

Definition at line 40 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

float CastorHIMonitor::EtotalCASTOR

private

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().

MonitorElement* CastorHIMonitor::meChargeModule1

private

Definition at line 183 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule10

private

Definition at line 192 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule11

private

Definition at line 193 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule12

private

Definition at line 194 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule13

private

Definition at line 195 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule14

private

Definition at line 196 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule2

private

Definition at line 184 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule3

private

Definition at line 185 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule4

private

Definition at line 186 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule5

private

Definition at line 187 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule6

private

Definition at line 188 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule7

private

Definition at line 189 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule8

private

Definition at line 190 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeModule9

private

Definition at line 191 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector1

private

Definition at line 165 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector10

private

Definition at line 174 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector11

private

Definition at line 175 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector12

private

Definition at line 176 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector13

private

Definition at line 177 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector14

private

Definition at line 178 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector15

private

Definition at line 179 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector16

private

Definition at line 180 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector2

private

Definition at line 166 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector3

private

Definition at line 167 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector4

private

Definition at line 168 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector5

private

Definition at line 169 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector6

private

Definition at line 170 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector7

private

Definition at line 171 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector8

private

Definition at line 172 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSector9

private

Definition at line 173 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM1

private

Definition at line 199 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM10

private

Definition at line 208 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM11

private

Definition at line 209 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM12

private

Definition at line 210 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM13

private

Definition at line 211 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM14

private

Definition at line 212 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM15

private

Definition at line 213 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM16

private

Definition at line 214 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM2

private

Definition at line 200 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM3

private

Definition at line 201 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM4

private

Definition at line 202 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM5

private

Definition at line 203 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM6

private

Definition at line 204 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM7

private

Definition at line 205 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM8

private

Definition at line 206 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEM9

private

Definition at line 207 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD1

private

Definition at line 236 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD10

private

Definition at line 245 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD11

private

Definition at line 246 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD12

private

Definition at line 247 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD13

private

Definition at line 248 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD14

private

Definition at line 249 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD15

private

Definition at line 250 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD16

private

Definition at line 251 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD2

private

Definition at line 237 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD3

private

Definition at line 238 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD4

private

Definition at line 239 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD5

private

Definition at line 240 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD6

private

Definition at line 241 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD7

private

Definition at line 242 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD8

private

Definition at line 243 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorEMvsHAD9

private

Definition at line 244 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD1

private

Definition at line 217 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD10

private

Definition at line 226 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD11

private

Definition at line 227 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD12

private

Definition at line 228 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD13

private

Definition at line 229 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD14

private

Definition at line 230 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD15

private

Definition at line 231 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD16

private

Definition at line 232 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD2

private

Definition at line 218 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD3

private

Definition at line 219 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD4

private

Definition at line 220 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD5

private

Definition at line 221 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD6

private

Definition at line 222 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD7

private

Definition at line 223 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD8

private

Definition at line 224 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeSectorHAD9

private

Definition at line 225 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeTotalCASTOR

private

Definition at line 254 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeTotalEM

private

Definition at line 260 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeTotalEMvsHAD

private

Definition at line 264 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeTotalHAD

private

Definition at line 262 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meChargeTotalSectors

private

Definition at line 257 of file CastorHIMonitor.h.

MonitorElement* CastorHIMonitor::meEmodule1

private

Definition at line 78 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule10

private

Definition at line 87 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule11

private

Definition at line 88 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule12

private

Definition at line 89 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule13

private

Definition at line 90 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule14

private

Definition at line 91 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule2

private

Definition at line 79 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule3

private

Definition at line 80 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule4

private

Definition at line 81 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule5

private

Definition at line 82 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule6

private

Definition at line 83 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule7

private

Definition at line 84 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule8

private

Definition at line 85 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEmodule9

private

Definition at line 86 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector1

private

Definition at line 60 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector10

private

Definition at line 69 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector11

private

Definition at line 70 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector12

private

Definition at line 71 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector13

private

Definition at line 72 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector14

private

Definition at line 73 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector15

private

Definition at line 74 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector16

private

Definition at line 75 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector2

private

Definition at line 61 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector3

private

Definition at line 62 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector4

private

Definition at line 63 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector5

private

Definition at line 64 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector6

private

Definition at line 65 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector7

private

Definition at line 66 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector8

private

Definition at line 67 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsector9

private

Definition at line 68 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM1

private

Definition at line 94 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM10

private

Definition at line 103 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM11

private

Definition at line 104 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM12

private

Definition at line 105 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM13

private

Definition at line 106 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM14

private

Definition at line 107 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM15

private

Definition at line 108 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM16

private

Definition at line 109 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM2

private

Definition at line 95 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM3

private

Definition at line 96 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM4

private

Definition at line 97 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM5

private

Definition at line 98 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM6

private

Definition at line 99 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM7

private

Definition at line 100 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM8

private

Definition at line 101 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEM9

private

Definition at line 102 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD1

private

Definition at line 131 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD10

private

Definition at line 140 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD11

private

Definition at line 141 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD12

private

Definition at line 142 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD13

private

Definition at line 143 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD14

private

Definition at line 144 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD15

private

Definition at line 145 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD16

private

Definition at line 146 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD2

private

Definition at line 132 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD3

private

Definition at line 133 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD4

private

Definition at line 134 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD5

private

Definition at line 135 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD6

private

Definition at line 136 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD7

private

Definition at line 137 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD8

private

Definition at line 138 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorEMvsHAD9

private

Definition at line 139 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD1

private

Definition at line 112 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD10

private

Definition at line 121 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD11

private

Definition at line 122 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD12

private

Definition at line 123 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD13

private

Definition at line 124 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD14

private

Definition at line 125 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD15

private

Definition at line 126 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD16

private

Definition at line 127 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD2

private

Definition at line 113 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD3

private

Definition at line 114 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD4

private

Definition at line 115 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD5

private

Definition at line 116 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD6

private

Definition at line 117 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD7

private

Definition at line 118 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD8

private

Definition at line 119 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEsectorHAD9

private

Definition at line 120 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEtotalCASTOR

private

Definition at line 149 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEtotalEM

private

Definition at line 155 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEtotalEMvsHAD

private

Definition at line 159 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEtotalHAD

private

Definition at line 157 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEtotalSector

private

Definition at line 152 of file CastorHIMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* CastorHIMonitor::meEVT_

private

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(), and TreeCrawler.Package::search().

int CastorHIMonitor::sector

private

Definition at line 28 of file CastorHIMonitor.h.

Referenced by CastorHIMonitor(), geometryXMLparser.DTAlignable::index(), 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.