CastorRecHitMonitor Class Reference

#include <CastorRecHitMonitor.h>

Inheritance diagram for CastorRecHitMonitor:

Public Member Functions
	CastorRecHitMonitor ()
void	processEvent (const CastorRecHitCollection &castorHits)
void	reset ()
void	setup (const edm::ParameterSet &ps, DQMStore *dbe)
	~CastorRecHitMonitor ()
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
float	allEnergyModule [14]
float	allEnergySector [16]
struct {
MonitorElement *   meCastorRecHitsOccupancy
std::map< HcalCastorDetId, MonitorElement * >   meRECHIT_E
MonitorElement *   meRECHIT_E_all
MonitorElement *   meRECHIT_E_modules
MonitorElement *   meRECHIT_E_relative_modules
MonitorElement *   meRECHIT_E_relative_sectors
MonitorElement *   meRECHIT_E_sectors
MonitorElement *   meRECHIT_MAP_CHAN_E
MonitorElement *   meRECHIT_N_event
MonitorElement *   meRECHIT_N_modules
MonitorElement *   meRECHIT_N_sectors
std::map< HcalCastorDetId, MonitorElement * >   meRECHIT_T
MonitorElement *   meRECHIT_T_all
}	castorHists
float	channel
bool	doPerChannel_
float	energy
float	energyInEachChannel [14][16]
int	ievt_
MonitorElement *	meEVT_
int	module
int	sector
float	time
float	totEnergy
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 CastorRecHitMonitor.h.

Constructor & Destructor Documentation

CastorRecHitMonitor::CastorRecHitMonitor

(

)

Definition at line 16 of file CastorRecHitMonitor.cc.

References doPerChannel_, and ievt_.

                                         {
  doPerChannel_ = true;
  //  occThresh_ = 1;
  ievt_=0; 
}

CastorRecHitMonitor::~CastorRecHitMonitor

(

)

Definition at line 25 of file CastorRecHitMonitor.cc.

                                         {
}

Member Function Documentation

void CastorRecHitMonitor::processEvent

(

const CastorRecHitCollection &

castorHits

)

Definition at line 172 of file CastorRecHitMonitor.cc.

References allEnergyModule, allEnergySector, CastorBaseMonitor::baseFolder_, edm::SortedCollection< T, SORT >::begin(), castorHists, channel, gather_cfg::cout, CastorBaseMonitor::cpu_timer, edm::CPUTimer::cpuTime(), doPerChannel_, edm::SortedCollection< T, SORT >::end(), energy, energyInEachChannel, MonitorElement::Fill(), CastorBaseMonitor::fVerbosity, errorMatrix2Lands_multiChannel::id, ievt_, CastorBaseMonitor::m_dbe, meEVT_, text2workspace::mod, module, edm::CPUTimer::reset(), sector, CastorBaseMonitor::showTiming, edm::SortedCollection< T, SORT >::size(), edm::CPUTimer::start(), edm::CPUTimer::stop(), time, and totEnergy.

Referenced by CastorMonitorModule::analyze().

                                                                               {

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

  ievt_++; totEnergy=0.;

   meEVT_->Fill(ievt_);



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

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

  //castorHists.meRECHIT_N_event->Fill(castorHits.size());
   int iHit=0;

     if(castorHits.size()>0)
    {    
       if(fVerbosity>0) std::cout << "==>CastorRecHitMonitor::processEvent: castorHits.size()>0 !!!" << std::endl; 

      for (CASTORiter=castorHits.begin(); CASTORiter!=castorHits.end(); ++CASTORiter) { 
  
      energy = CASTORiter->energy();    
      time = CASTORiter->time();
      
      HcalCastorDetId id(CASTORiter->detid().rawId());
      //float zside  = id.zside(); 
      module = (int)id.module(); //-- get module
      sector = (int)id.sector(); //-- get sector 
      channel = 16*(module-1)+sector; //-- define channel

      if (energy>0.) { 
      castorHists.meRECHIT_E_all->Fill(energy);
      castorHists.meRECHIT_T_all->Fill(time);
      castorHists.meRECHIT_MAP_CHAN_E->Fill(channel,energy);
      castorHists.meRECHIT_E_modules->Fill(module-1, energy);
      castorHists.meRECHIT_E_sectors->Fill(sector-1, energy);
      castorHists.meRECHIT_N_modules->Fill(module-1);
      castorHists.meRECHIT_N_sectors->Fill(sector-1);     
      iHit++;
     }

      if(energy<0) energy=0;

      energyInEachChannel[module-1][sector-1] += energy; 
     
      castorHists.meCastorRecHitsOccupancy->Fill(module-1,sector-1, energy); 

        castorHists.meRECHIT_N_event->Fill(iHit);

      if( doPerChannel_) 
         CastorRecHitPerChan::perChanHists<CastorRecHit>(*CASTORiter, castorHists.meRECHIT_E, castorHists.meRECHIT_T, m_dbe, baseFolder_); 
     }

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

       for(int mod=0; mod<14;mod++)
       allEnergyModule[mod]= energyInEachChannel[mod][0]+energyInEachChannel[mod][1]+energyInEachChannel[mod][2]+energyInEachChannel[mod][3]+
                          energyInEachChannel[mod][4]+energyInEachChannel[mod][5]+energyInEachChannel[mod][6]+energyInEachChannel[mod][7]+
                          energyInEachChannel[mod][8]+energyInEachChannel[mod][9]+energyInEachChannel[mod][10]+energyInEachChannel[mod][11]+
                           energyInEachChannel[mod][12]+energyInEachChannel[mod][13]+energyInEachChannel[mod][14]+energyInEachChannel[mod][15];
                         
       for(int sec=0; sec<16;sec++)
       allEnergySector[sec]= energyInEachChannel[0][sec]+energyInEachChannel[1][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];


       for(int mod=0; mod<14;mod++)
      castorHists.meRECHIT_E_relative_modules->getTH1F()->SetBinContent(mod+1,allEnergyModule[mod]/totEnergy);
      for(int sec=0; sec<16;sec++)
    castorHists.meRECHIT_E_relative_sectors->getTH1F()->SetBinContent(sec+1,allEnergySector[sec]/totEnergy); 

  

   }

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

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

void CastorRecHitMonitor::reset

(

void

)

Definition at line 28 of file CastorRecHitMonitor.cc.

Referenced by CastorMonitorModule::reset().

                               {
}

void CastorRecHitMonitor::setup ( const edm::ParameterSet &  ps, DQMStore *  dbe  )

virtual

Reimplemented from CastorBaseMonitor.

Definition at line 36 of file CastorRecHitMonitor.cc.

References allEnergyModule, allEnergySector, CastorBaseMonitor::baseFolder_, DQMStore::book1D(), DQMStore::book2D(), DQMStore::bookInt(), castorHists, gather_cfg::cout, doPerChannel_, energyInEachChannel, CastorBaseMonitor::fVerbosity, edm::ParameterSet::getUntrackedParameter(), ievt_, CastorBaseMonitor::m_dbe, meEVT_, text2workspace::mod, NULL, CastorBaseMonitor::rootFolder_, sector, DQMStore::setCurrentFolder(), CastorBaseMonitor::setup(), totEnergy, and zside.

Referenced by CastorMonitorModule::CastorMonitorModule().

                                                                       {
  
  CastorBaseMonitor::setup(ps,dbe);
  baseFolder_ = rootFolder_+"CastorRecHitMonitor";

   if(fVerbosity>0) std::cout << "CastorRecHitMonitor::setup (start)" << std::endl;
  
  if ( ps.getUntrackedParameter<bool>("RecHitsPerChannel", false) ){
    doPerChannel_ = true;
  }
    
  ievt_=0; module=0; sector=0; zside=0; totEnergy=0.;

  
   for (int mod=0; mod<14; mod++){
     for (int sec=0; sec<16; sec++){
          energyInEachChannel[mod][sec] = 0.;
          allEnergyModule[mod]=0;
          allEnergySector[sec]=0;
      }
    }
  
  if ( m_dbe !=NULL ) {    
 m_dbe->setCurrentFolder(baseFolder_);
meEVT_ = m_dbe->bookInt("RecHit Event Number"); // meEVT_->Fill(ievt_);
castorHists.meRECHIT_E_all = m_dbe->book1D("CastorRecHit Energies- above threshold on RecHitEnergy","CastorRecHit Energies- above threshold on RecHitEnergy",150,0,150);
castorHists.meRECHIT_T_all = m_dbe->book1D("CastorRecHit Times- above threshold on RecHitEnergy","CastorRecHit Times- above threshold on RecHitEnergy",300,-100,100);    
castorHists.meRECHIT_MAP_CHAN_E = m_dbe->book1D("CastorRecHit Energy in each channel- above threshold","CastorRecHit Energy in each channel- above threshold",224,0,224);
castorHists.meRECHIT_E_modules = m_dbe->book1D("CastorRecHit Energy in modules- above threshold","CastorRecHit Energy in modules- above threshold", 14, 0, 14);
castorHists.meRECHIT_E_sectors = m_dbe->book1D("CastorRecHit Energy in sectors- above threshold","CastorRecHit Energy in sectors- above threshold", 16, 0, 16);

castorHists.meRECHIT_N_modules = m_dbe->book1D("Number of CastorRecHits in modules- above threshold","Number of CastorRecHits in modules- above threshold", 14, 0, 14);
castorHists.meRECHIT_N_sectors = m_dbe->book1D("Number of CastorRecHits in sectors- above threshold","Number of CastorRecHits in sectors- above threshold", 16, 0, 16);
castorHists.meCastorRecHitsOccupancy = m_dbe->book2D("CastorRecHits Occupancy Map", "CastorRecHits Occupancy Map", 14, 0,14, 16, 0,16);
castorHists.meRECHIT_N_event = m_dbe->book1D("Number of CASTOR RecHits per event- above threshold","Number of CASTOR RecHits per event- above threshold", 23, 0, 230);

 m_dbe->setCurrentFolder(baseFolder_+"/EnergyFraction");
castorHists.meRECHIT_E_relative_modules = m_dbe->book1D("Fraction of the total energy in CASTOR modules","Fraction of the total energy in CASTOR modules", 14, 0, 14);
castorHists.meRECHIT_E_relative_sectors = m_dbe->book1D("Fraction of the total energy in CASTOR sectors","Fraction of the total energy in CASTOR sectors", 16, 0, 16);
/*
castorHists.meRECHIT_E_relative_modules->getTH1F()->GetYaxis()->SetTitle("fraction of the total energy");
castorHists.meRECHIT_E_relative_sectors->getTH1F()->GetYaxis()->SetTitle("fraction of the total energy");
 
   char ibin1[1024];
    for(int i=0; i<14; i++){
     sprintf(ibin1,"%i", i+1);
     castorHists.meRECHIT_E_relative_modules->getTH1F()->GetXaxis()->SetBinLabel(i+1,ibin1);
    }
   char ibin2[1024];
    for(int i=0; i<16; i++){
     sprintf(ibin2,"%i", i+1);
     castorHists.meRECHIT_E_relative_sectors->getTH1F()->GetXaxis()->SetBinLabel(i+1,ibin2);
    }
*/

  } 



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

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

  return;
}

Member Data Documentation

float CastorRecHitMonitor::allEnergyModule[14]

private

Definition at line 37 of file CastorRecHitMonitor.h.

Referenced by processEvent(), and setup().

float CastorRecHitMonitor::allEnergySector[16]

private

Definition at line 38 of file CastorRecHitMonitor.h.

Referenced by processEvent(), and setup().

struct { ... } CastorRecHitMonitor::castorHists

Referenced by processEvent(), and setup().

float CastorRecHitMonitor::channel

private

Definition at line 28 of file CastorRecHitMonitor.h.

Referenced by processEvent().

bool CastorRecHitMonitor::doPerChannel_

private

Definition at line 20 of file CastorRecHitMonitor.h.

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

float CastorRecHitMonitor::energy

private

Definition at line 31 of file CastorRecHitMonitor.h.

Referenced by processEvent().

float CastorRecHitMonitor::energyInEachChannel[14][16]

private

Definition at line 33 of file CastorRecHitMonitor.h.

Referenced by processEvent(), and setup().

int CastorRecHitMonitor::ievt_

private

Definition at line 22 of file CastorRecHitMonitor.h.

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

MonitorElement* CastorRecHitMonitor::meCastorRecHitsOccupancy

Definition at line 51 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meEVT_

private

Definition at line 56 of file CastorRecHitMonitor.h.

Referenced by processEvent(), and setup().

std::map<HcalCastorDetId, MonitorElement*> CastorRecHitMonitor::meRECHIT_E

Definition at line 53 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_E_all

Definition at line 42 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_E_modules

Definition at line 45 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_E_relative_modules

Definition at line 47 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_E_relative_sectors

Definition at line 48 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_E_sectors

Definition at line 46 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_MAP_CHAN_E

Definition at line 44 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_N_event

Definition at line 52 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_N_modules

Definition at line 49 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_N_sectors

Definition at line 50 of file CastorRecHitMonitor.h.

std::map<HcalCastorDetId, MonitorElement*> CastorRecHitMonitor::meRECHIT_T

Definition at line 53 of file CastorRecHitMonitor.h.

MonitorElement* CastorRecHitMonitor::meRECHIT_T_all

Definition at line 43 of file CastorRecHitMonitor.h.

int CastorRecHitMonitor::module

private

Definition at line 25 of file CastorRecHitMonitor.h.

Referenced by processEvent(), and TreeCrawler.Package::search().

int CastorRecHitMonitor::sector

private

Definition at line 26 of file CastorRecHitMonitor.h.

Referenced by geometryXMLparser.DTAlignable::index(), processEvent(), and setup().

float CastorRecHitMonitor::time

private

Definition at line 32 of file CastorRecHitMonitor.h.

Referenced by processEvent().

float CastorRecHitMonitor::totEnergy

private

Definition at line 34 of file CastorRecHitMonitor.h.

Referenced by processEvent(), and setup().

int CastorRecHitMonitor::zside

private

Definition at line 27 of file CastorRecHitMonitor.h.

Referenced by setup().