#include <EcalSimHitsValidProducer.h>

Inheritance diagram for EcalSimHitsValidProducer:

Public Member Functions
	EcalSimHitsValidProducer (const edm::ParameterSet &)

void	produce (edm::Event &, const edm::EventSetup &)

virtual	~EcalSimHitsValidProducer ()

Public Member Functions inherited from SimProducer
void	registerProducts (edm::EDProducer &iProd)

	SimProducer ()

Public Member Functions inherited from SimWatcher
	SimWatcher ()

virtual	~SimWatcher ()

Public Member Functions inherited from Observer< const BeginOfEvent * >
	Observer ()

void	slotForUpdate (const BeginOfEvent *iT)

virtual	~Observer ()

Public Member Functions inherited from Observer< const G4Step * >
	Observer ()

void	slotForUpdate (const G4Step *iT)

virtual	~Observer ()

Public Member Functions inherited from Observer< const EndOfEvent * >
	Observer ()

void	slotForUpdate (const EndOfEvent *iT)

virtual	~Observer ()

Private Types
typedef std::vector< float >	FloatVector

typedef std::map< uint32_t, float, std::less< uint32_t > >	MapType

Private Member Functions
	EcalSimHitsValidProducer (const EcalSimHitsValidProducer &)

float	eCluster2x2 (MapType &themap)

float	eCluster4x4 (float e33, MapType &themap)

float	energyInEBMatrix (int nCellInX, int nCellInY, int centralX, int centralY, int centralZ, MapType &themap)

float	energyInEEMatrix (int nCellInX, int nCellInY, int centralX, int centralY, int centralZ, MapType &themap)

bool	fillEBMatrix (int nCellInEta, int nCellInPhi, int CentralEta, int CentralPhi, int CentralZ, MapType &fillmap, MapType &themap)

bool	fillEEMatrix (int nCellInEta, int nCellInPhi, int CentralEta, int CentralPhi, int CentralZ, MapType &fillmap, MapType &themap)

void	fillEventInfo (PEcalValidInfo &)

uint32_t	getUnitWithMaxEnergy (MapType &themap)

const EcalSimHitsValidProducer &	operator= (const EcalSimHitsValidProducer &)

void	update (const BeginOfEvent *)
	This routine will be called when the appropriate signal arrives. More...

void	update (const G4Step *)
	This routine will be called when the appropriate signal arrives. More...

void	update (const EndOfEvent *)
	This routine will be called when the appropriate signal arrives. More...

Private Attributes
float	eb1

float	eb16

float	eb25

float	eb4

float	eb9

float	eBX0 [26]

float	ee1

float	ee16

float	ee25

float	ee4

float	ee9

float	eEX0 [26]

FloatVector	eOf1ES

FloatVector	eOf1ESzm

FloatVector	eOf1ESzp

FloatVector	eOf2ES

FloatVector	eOf2ESzm

FloatVector	eOf2ESzp

FloatVector	eOfEBCaloG4Hit

FloatVector	eOfEECaloG4Hit

FloatVector	eOfEEMinusCaloG4Hit

FloatVector	eOfEEPlusCaloG4Hit

FloatVector	eOfESCaloG4Hit

FloatVector	etaOfEBCaloG4Hit

FloatVector	etaOfEECaloG4Hit

FloatVector	etaOfESCaloG4Hit

std::string	label

int	nCrystalInEB

int	nCrystalInEEzm

int	nCrystalInEEzp

int	nHitsIn1ES

int	nHitsIn1ESzm

int	nHitsIn1ESzp

int	nHitsIn2ES

int	nHitsIn2ESzm

int	nHitsIn2ESzp

int	nHitsInEB

int	nHitsInEE

int	nHitsInES

FloatVector	phiOfEBCaloG4Hit

FloatVector	phiOfEECaloG4Hit

FloatVector	phiOfESCaloG4Hit

math::XYZTLorentzVector	theMomentum

int	thePID

math::XYZTLorentzVector	theVertex

FloatVector	tOfEBCaloG4Hit

FloatVector	tOfEECaloG4Hit

FloatVector	tOfESCaloG4Hit

float	totalEInEB

float	totalEInEE

float	totalEInEEzm

float	totalEInEEzp

float	totalEInES

float	totalEInESzm

float	totalEInESzp

int	totalHits

FloatVector	zOfES

Additional Inherited Members
Protected Member Functions inherited from SimProducer
template<class T >
void	produces ()

template<class T >
void	produces (const std::string &instanceName)

Detailed Description

Definition at line 21 of file EcalSimHitsValidProducer.h.

Member Typedef Documentation

typedef std::vector<float> EcalSimHitsValidProducer::FloatVector

private

Definition at line 26 of file EcalSimHitsValidProducer.h.

typedef std::map<uint32_t,float,std::less<uint32_t> > EcalSimHitsValidProducer::MapType

private

Definition at line 27 of file EcalSimHitsValidProducer.h.

Constructor & Destructor Documentation

EcalSimHitsValidProducer::EcalSimHitsValidProducer ( const edm::ParameterSet & iPSet )

Definition at line 20 of file EcalSimHitsValidProducer.cc.

References eBX0, eEX0, i, and label.

                                                                                :
      ee1(0.0),ee4(0.0),ee9(0.0),ee16(0.0),ee25(0.0),
      eb1(0.0),eb4(0.0),eb9(0.0),eb16(0.0),eb25(0.0),
      totalEInEE(0.0),totalEInEB(0),totalEInES(0.0),totalEInEEzp(0.0),totalEInEEzm(0.0),
      totalEInESzp(0.0),totalEInESzm(0.0), 
      totalHits(0),nHitsInEE(0),nHitsInEB(0),nHitsInES(0),nHitsIn1ES(0),nHitsIn2ES(0),
      nCrystalInEB(0),nCrystalInEEzp(0),nCrystalInEEzm(0),
      nHitsIn1ESzp(0),nHitsIn1ESzm(0),nHitsIn2ESzp(0),nHitsIn2ESzm(0),
      thePID(0),
      label(iPSet.getUntrackedParameter<std::string>("instanceLabel","EcalValidInfo") ) 
 {
    produces<PEcalValidInfo>(label);
   
   for ( int i = 0; i<26; i++ ) {
      eBX0[i] = 0.0;
      eEX0[i] = 0.0;
   }
   
 }

EcalSimHitsValidProducer::~EcalSimHitsValidProducer ( )

virtual

Definition at line 41 of file EcalSimHitsValidProducer.cc.

                                                    {
 
 }

EcalSimHitsValidProducer::EcalSimHitsValidProducer ( const EcalSimHitsValidProducer & )

private

Member Function Documentation

float EcalSimHitsValidProducer::eCluster2x2 ( MapType & themap )

private

Definition at line 511 of file EcalSimHitsValidProducer.cc.

Referenced by update().

                                                            {
         float  E22=0.;
         float e012  = themap[0]+themap[1]+themap[2];
         float e036  = themap[0]+themap[3]+themap[6];
         float e678  = themap[6]+themap[7]+themap[8];
         float e258  = themap[2]+themap[5]+themap[8];
 
     if ( (e012>e678 || e012==e678) && (e036>e258  || e036==e258))
             return     E22=themap[0]+themap[1]+themap[3]+themap[4];
     else if ( (e012>e678 || e012==e678)  && (e036<e258 || e036==e258) )
             return    E22=themap[1]+themap[2]+themap[4]+themap[5];
     else if ( (e012<e678 || e012==e678) && (e036>e258 || e036==e258))
             return     E22=themap[3]+themap[4]+themap[6]+themap[7];
     else if ( (e012<e678|| e012==e678)  && (e036<e258|| e036==e258) )
             return    E22=themap[4]+themap[5]+themap[7]+themap[8];
     else {
             return E22;
     }
 }

float EcalSimHitsValidProducer::eCluster4x4	(	float	e33,
		MapType &	themap
	)

private

Definition at line 531 of file EcalSimHitsValidProducer.cc.

Referenced by update().

                                                                        {
         float E44=0.;
         float e0_4   = themap[0]+themap[1]+themap[2]+themap[3]+themap[4];
         float e0_20  = themap[0]+themap[5]+themap[10]+themap[15]+themap[20];
         float e4_24  = themap[4]+themap[9]+themap[14]+themap[19]+themap[24];
         float e0_24  = themap[20]+themap[21]+themap[22]+themap[23]+themap[24];
 
    if ((e0_4>e0_24 || e0_4==e0_24) && (e0_20>e4_24|| e0_20==e4_24))
            return E44=e33+themap[0]+themap[1]+themap[2]+themap[3]+themap[5]+themap[10]+themap[15];
    else if ((e0_4>e0_24 || e0_4==e0_24)  && (e0_20<e4_24 || e0_20==e4_24))
            return E44=e33+themap[1]+themap[2]+themap[3]+themap[4]+themap[9]+themap[14]+themap[19];
    else if ((e0_4<e0_24|| e0_4==e0_24) && (e0_20>e4_24 || e0_20==e4_24))
            return E44=e33+themap[5]+themap[10]+themap[15]+themap[20]+themap[21]+themap[22]+themap[23];
    else if ((e0_4<e0_24|| e0_4==e0_24) && (e0_20<e4_24 || e0_20==e4_24))
            return E44=e33+themap[21]+themap[22]+themap[23]+themap[24]+themap[9]+themap[14]+themap[19];
    else{
            return E44;
    }
 }

float EcalSimHitsValidProducer::energyInEBMatrix	(	int	nCellInX,
		int	nCellInY,
		int	centralX,
		int	centralY,
		int	centralZ,
		MapType &	themap
	)

private

Definition at line 591 of file EcalSimHitsValidProducer.cc.

References abs, getHLTprescales::index, LogDebug, and DetId::rawId().

Referenced by update().

                                                                       {
 
   int   ncristals   = 0;
   float totalEnergy = 0.;
 
   int goBackInEta = nCellInEta/2;
   int goBackInPhi = nCellInPhi/2;
   int startEta    = centralZ*centralEta-goBackInEta;
   int startPhi    = centralPhi-goBackInPhi;
 
   for (int ieta=startEta; ieta<startEta+nCellInEta; ieta++) {
     for (int iphi=startPhi; iphi<startPhi+nCellInPhi; iphi++) {
 
       uint32_t index ;
       if (abs(ieta) > 85 || abs(ieta)<1 ) { continue; }
       if (iphi< 1)      { index = EBDetId(ieta,iphi+360).rawId(); }
       else if(iphi>360) { index = EBDetId(ieta,iphi-360).rawId(); }
       else              { index = EBDetId(ieta,iphi).rawId();     }
 
       totalEnergy   += themap[index];
       ncristals     += 1;
 
       LogDebug("EcalSimHitsValidProducer")
       << " EnergyInEBMatrix: ieta - iphi - E = " << ieta
       << "  " << iphi << " "  << themap[index];
 
     }
   }
 
     LogDebug("EcalSimHitsValidProducer")
     << " EnergyInEBMatrix: energy in " << nCellInEta
     << " cells in eta times " << nCellInPhi
     << " cells in phi matrix = " << totalEnergy
     << " for " << ncristals << " crystals";
 
   return totalEnergy;
 
 }

float EcalSimHitsValidProducer::energyInEEMatrix	(	int	nCellInX,
		int	nCellInY,
		int	centralX,
		int	centralY,
		int	centralZ,
		MapType &	themap
	)

private

Definition at line 551 of file EcalSimHitsValidProducer.cc.

References getHLTprescales::index, LogDebug, DetId::rawId(), and EEDetId::validDetId().

Referenced by update().

                                                                       {
 
   int   ncristals   = 0;
   float totalEnergy = 0.;
 
   int goBackInX = nCellInX/2;
   int goBackInY = nCellInY/2;
   int startX    = centralX-goBackInX;
   int startY    = centralY-goBackInY;
 
   for (int ix=startX; ix<startX+nCellInX; ix++) {
     for (int iy=startY; iy<startY+nCellInY; iy++) {
 
       uint32_t index ;
       if (EEDetId::validDetId(ix, iy,centralZ)) {
         index = EEDetId(ix,iy,centralZ).rawId();
       } else { continue; }
 
       totalEnergy   += themap[index];
       ncristals     += 1;
 
       LogDebug("EcalSimHitsValidProducer")   
       << " EnergyInEEMatrix: ix - iy - E = " << ix
       << "  " << iy << " "  << themap[index] ;
     
     }
   }
 
     LogDebug("EcalSimHitsValidProducer")
     << " EnergyInEEMatrix: energy in " << nCellInX
     << " cells in x times " << nCellInY
     << " cells in y matrix = " << totalEnergy
     << " for " << ncristals << " crystals";
 
   return totalEnergy;
 
 }

bool EcalSimHitsValidProducer::fillEBMatrix	(	int	nCellInEta,
		int	nCellInPhi,
		int	CentralEta,
		int	CentralPhi,
		int	CentralZ,
		MapType &	fillmap,
		MapType &	themap
	)

private

Definition at line 480 of file EcalSimHitsValidProducer.cc.

References abs, getUnitWithMaxEnergy(), i, getHLTprescales::index, and DetId::rawId().

Referenced by update().

 {
    int goBackInEta = nCellInEta/2;
    int goBackInPhi = nCellInPhi/2;
 
    int startEta  =  CentralZ*CentralEta - goBackInEta;
    int startPhi  =  CentralPhi - goBackInPhi;
 
    int i = 0 ;
    for ( int ieta = startEta; ieta < startEta+nCellInEta; ieta ++ ) {
       for( int iphi = startPhi; iphi < startPhi + nCellInPhi; iphi++ ) {
           uint32_t  index;
           if (abs(ieta) > 85 || abs(ieta)<1 ) { continue; }
           if (iphi< 1)      { index = EBDetId(ieta,iphi+360).rawId(); }
           else if(iphi>360) { index = EBDetId(ieta,iphi-360).rawId(); }
           else              { index = EBDetId(ieta,iphi).rawId();     }
           fillmap[i++] = themap[index];
       }
    }
 
    uint32_t  ebcenterid = getUnitWithMaxEnergy(themap);
 
    if ( fillmap[i/2] == themap[ebcenterid] )
         return true;
    else
         return false;
 }

bool EcalSimHitsValidProducer::fillEEMatrix	(	int	nCellInEta,
		int	nCellInPhi,
		int	CentralEta,
		int	CentralPhi,
		int	CentralZ,
		MapType &	fillmap,
		MapType &	themap
	)

private

Definition at line 449 of file EcalSimHitsValidProducer.cc.

References getUnitWithMaxEnergy(), i, getHLTprescales::index, DetId::rawId(), and EEDetId::validDetId().

Referenced by update().

 {
    int goBackInEta = nCellInEta/2;
    int goBackInPhi = nCellInPhi/2;
 
    int startEta  =  CentralEta - goBackInEta;
    int startPhi  =  CentralPhi - goBackInPhi;
 
    int i = 0 ;
    for ( int ieta = startEta; ieta < startEta+nCellInEta; ieta ++ ) {
 
       for( int iphi = startPhi; iphi < startPhi + nCellInPhi; iphi++ ) {
         uint32_t index;
 
     if (EEDetId::validDetId(ieta, iphi,CentralZ)) {
           index = EEDetId( ieta, iphi,CentralZ).rawId();
         } else { continue; }
     
     fillmap[i++] = themap[index];
       }
    }
    uint32_t  centerid = getUnitWithMaxEnergy(themap);
 
    if ( fillmap[i/2] == themap[centerid] ) 
         return true;
    else
         return false;
 }

void EcalSimHitsValidProducer::fillEventInfo ( PEcalValidInfo & product )

private

Definition at line 54 of file EcalSimHitsValidProducer.cc.

Referenced by produce().

 {
  if( ee1 != 0 ){
    product.ee1 = ee1;
    product.ee4 = ee4;
    product.ee9 = ee9;
    product.ee16 = ee16;
    product.ee25 = ee25;
    for ( int i = 0; i<26; i++ ) {
       product.eEX0.push_back( eEX0[i]);
    }
  } 
 
  if( eb1 != 0 ){
    product.eb1 = eb1;
    product.eb4 = eb4;
    product.eb9 = eb9;
    product.eb16 = eb16;
    product.eb25 = eb25;
    for ( int i = 0; i<26; i++ ) {
       product.eBX0.push_back( eBX0[i]);
    }
  }
 
    product.totalEInEE  = totalEInEE;
    product.totalEInEB  = totalEInEB;
    product.totalEInES  = totalEInES;
 
    product.totalEInEEzp  = totalEInEEzp;
    product.totalEInEEzm  = totalEInEEzm;
 
    product.totalEInESzp  = totalEInESzp;
    product.totalEInESzm  = totalEInESzm;
 
    product.totalHits  = totalHits;
    product.nHitsInEE  = nHitsInEE;
    product.nHitsInEB  = nHitsInEB;
    product.nHitsInES  = nHitsInES;
    product.nHitsIn1ES = nHitsIn1ES;
    product.nHitsIn2ES = nHitsIn2ES;
    product.nCrystalInEB   = nCrystalInEB;
    product.nCrystalInEEzp = nCrystalInEEzp;
    product.nCrystalInEEzm = nCrystalInEEzm; 
 
    product.nHitsIn1ESzp = nHitsIn1ESzp;
    product.nHitsIn1ESzm = nHitsIn1ESzm;
    product.nHitsIn2ESzp = nHitsIn2ESzp;
    product.nHitsIn2ESzm = nHitsIn2ESzm;
 
 
    product.eOf1ES = eOf1ES;
    product.eOf2ES = eOf2ES;
    product.zOfES  = zOfES;
 
    product.eOf1ESzp = eOf1ESzp;
    product.eOf1ESzm = eOf1ESzm;
    product.eOf2ESzp = eOf2ESzp;
    product.eOf2ESzm = eOf2ESzm;
 
 
    product.phiOfEECaloG4Hit = phiOfEECaloG4Hit;
    product.etaOfEECaloG4Hit = etaOfEECaloG4Hit;
    product.eOfEECaloG4Hit   = eOfEECaloG4Hit;
    product.eOfEEPlusCaloG4Hit    = eOfEEPlusCaloG4Hit;
    product.eOfEEMinusCaloG4Hit   = eOfEEMinusCaloG4Hit;
    product.tOfEECaloG4Hit        = tOfEECaloG4Hit;
 
    product.phiOfESCaloG4Hit = phiOfESCaloG4Hit;
    product.etaOfESCaloG4Hit = etaOfESCaloG4Hit;
    product.eOfESCaloG4Hit   = eOfESCaloG4Hit;
    product.tOfESCaloG4Hit   = tOfESCaloG4Hit;
 
    product.phiOfEBCaloG4Hit = phiOfEBCaloG4Hit;
    product.etaOfEBCaloG4Hit = etaOfEBCaloG4Hit;
    product.eOfEBCaloG4Hit   = eOfEBCaloG4Hit;
    product.tOfEBCaloG4Hit   = tOfEBCaloG4Hit;
 
 
    product.theMomentum = theMomentum;
    product.theVertex   = theVertex;
    product.thePID      = thePID;
 }

uint32_t EcalSimHitsValidProducer::getUnitWithMaxEnergy ( MapType & themap )

private

Definition at line 632 of file EcalSimHitsValidProducer.cc.

References LogDebug.

Referenced by fillEBMatrix(), fillEEMatrix(), and update().

                                                                        {
 
   uint32_t unitWithMaxEnergy = 0;
   float    maxEnergy = 0.;
 
   MapType::iterator iter;
   for (iter = themap.begin(); iter != themap.end(); iter++) {
 
     if (maxEnergy < (*iter).second) {
       maxEnergy = (*iter).second;
       unitWithMaxEnergy = (*iter).first;
     }
   }
 
   
    LogDebug("EcalSimHitsValidProducer")
    << " Max energy of " << maxEnergy
    << " MeV was found in Unit id 0x" << std::hex
     << unitWithMaxEnergy << std::dec; 
 
   return unitWithMaxEnergy;
 }

const EcalSimHitsValidProducer& EcalSimHitsValidProducer::operator= ( const EcalSimHitsValidProducer & )

private

void EcalSimHitsValidProducer::produce	(	edm::Event &	e,
		const edm::EventSetup &
	)

virtual

Implements SimProducer.

Definition at line 46 of file EcalSimHitsValidProducer.cc.

References fillEventInfo(), label, and edm::Event::put().

 {
    std::auto_ptr<PEcalValidInfo> product(new PEcalValidInfo );
    fillEventInfo(*product);
    e.put(product,label);
 }

void EcalSimHitsValidProducer::update ( const BeginOfEvent * )

privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const BeginOfEvent * >.

Definition at line 138 of file EcalSimHitsValidProducer.cc.

References eb1, eb16, eb25, eb4, eb9, eBX0, ee1, ee16, ee25, ee4, ee9, eEX0, eOf1ES, eOf1ESzm, eOf1ESzp, eOf2ES, eOf2ESzm, eOf2ESzp, eOfEBCaloG4Hit, eOfEECaloG4Hit, eOfEEMinusCaloG4Hit, eOfEEPlusCaloG4Hit, eOfESCaloG4Hit, etaOfEBCaloG4Hit, etaOfEECaloG4Hit, etaOfESCaloG4Hit, i, nCrystalInEB, nCrystalInEEzm, nCrystalInEEzp, nHitsIn1ES, nHitsIn1ESzm, nHitsIn1ESzp, nHitsIn2ES, nHitsIn2ESzm, nHitsIn2ESzp, nHitsInEB, nHitsInEE, nHitsInES, phiOfEBCaloG4Hit, phiOfEECaloG4Hit, phiOfESCaloG4Hit, tOfEBCaloG4Hit, tOfEECaloG4Hit, tOfESCaloG4Hit, totalEInEB, totalEInEE, totalEInEEzm, totalEInEEzp, totalEInES, totalEInESzm, totalEInESzp, totalHits, and zOfES.

                                                    {
   ee1  = 0.0;
   ee4  = 0.0;
   ee9  = 0.0;
   ee16 = 0.0;
   ee25 = 0.0;
 
   eb1  = 0.0;
   eb4  = 0.0;
   eb9  = 0.0;
   eb16 = 0.0;
   eb25 = 0.0;
 
   totalEInEE = 0.0 ;
   totalEInEB = 0.0 ;
   totalEInES = 0.0 ;
   
   totalEInEEzp = 0.0 ;
   totalEInEEzm = 0.0 ;
   totalEInESzp = 0.0 ;
   totalEInESzm = 0.0 ;
 
   totalHits  = 0 ;
   nHitsInEE  = 0 ;
   nHitsInEB  = 0 ;
   nHitsInES  = 0 ;
   nHitsIn1ES = 0 ;
   nHitsIn2ES = 0 ;
   nCrystalInEB   = 0;
   nCrystalInEEzp = 0;
   nCrystalInEEzm = 0;
  
 
   nHitsIn1ESzp = 0 ;
   nHitsIn1ESzm = 0 ;
   nHitsIn2ESzp = 0 ;
   nHitsIn2ESzm = 0 ;
  
   for ( int i = 0; i<26; i++ ) {
      eBX0[i] = 0.0;
      eEX0[i] = 0.0;
   }
 
   eOf1ES.clear();
   eOf2ES.clear();
   zOfES.clear();
 
   eOf1ESzp.clear();
   eOf1ESzm.clear();
   eOf2ESzp.clear();
   eOf2ESzm.clear();
 
   phiOfEECaloG4Hit.clear();
   etaOfEECaloG4Hit.clear();
   tOfEECaloG4Hit.clear();
   eOfEECaloG4Hit.clear();
   eOfEEPlusCaloG4Hit.clear();
   eOfEEMinusCaloG4Hit.clear();
 
   phiOfESCaloG4Hit.clear();
   etaOfESCaloG4Hit.clear();
   tOfESCaloG4Hit.clear();
   eOfESCaloG4Hit.clear();
 
   phiOfEBCaloG4Hit.clear();
   etaOfEBCaloG4Hit.clear();
   tOfEBCaloG4Hit.clear();
   eOfEBCaloG4Hit.clear();
 }

void EcalSimHitsValidProducer::update ( const G4Step * )

privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const G4Step * >.

Definition at line 421 of file EcalSimHitsValidProducer.cc.

References eBX0, eEX0, mergeVDriftHistosByStation::name, alignCSCRings::r, mathSSE::sqrt(), vdt::x, detailsBasic3DVector::y, and detailsBasic3DVector::z.

                                                    {
  G4StepPoint* preStepPoint = aStep->GetPreStepPoint();
   G4ThreeVector hitPoint = preStepPoint->GetPosition();
   G4VPhysicalVolume* currentPV  = preStepPoint->GetPhysicalVolume();
   G4String name         = currentPV->GetName();
   std::string crystal;
   crystal.assign(name,0,4);
 
   float Edeposit =  aStep->GetTotalEnergyDeposit();
   if ( crystal == "EFRY"&& Edeposit > 0.0){
           float z = hitPoint.z();
           float detz = fabs(fabs(z)-3200);
           int x0 = (int)floor( detz/8.9 );
           if ( x0< 26){ 
             eEX0[x0] += Edeposit;
           }
   } 
   if(crystal == "EBRY" && Edeposit > 0.0) {
             float x = hitPoint.x();
             float y = hitPoint.y();
             float r = sqrt(x*x +y*y);
             float detr = r -1290;
             int x0 = (int)floor( detr/8.9);
             eBX0[x0] += Edeposit;
   }
    
 }

void EcalSimHitsValidProducer::update ( const EndOfEvent * )

privatevirtual

This routine will be called when the appropriate signal arrives.

Implements Observer< const EndOfEvent * >.

Definition at line 209 of file EcalSimHitsValidProducer.cc.

References eb1, eb16, eb25, eb4, eb9, eCluster2x2(), eCluster4x4(), ee1, ee16, ee25, ee4, ee9, energyInEBMatrix(), energyInEEMatrix(), eOf1ESzm, eOf1ESzp, eOf2ESzm, eOf2ESzp, eOfEBCaloG4Hit, eOfEECaloG4Hit, eOfEEMinusCaloG4Hit, eOfEEPlusCaloG4Hit, etaOfEBCaloG4Hit, etaOfEECaloG4Hit, fillEBMatrix(), fillEEMatrix(), CaloG4Hit::getEnergyDeposit(), CaloG4Hit::getEntry(), CaloG4Hit::getTimeSlice(), CaloG4Hit::getUnitID(), getUnitWithMaxEnergy(), i, EBDetId::ietaAbs(), EBDetId::iphi(), EEDetId::ix(), EEDetId::iy(), j, create_public_lumi_plots::log, nCrystalInEB, nCrystalInEEzm, nCrystalInEEzp, nHitsIn1ESzm, nHitsIn1ESzp, nHitsIn2ESzm, nHitsIn2ESzp, nHitsInEB, nHitsInEE, nHitsInES, npart, phiOfEBCaloG4Hit, phiOfEECaloG4Hit, ESDetId::plane(), funct::pow(), mathSSE::sqrt(), funct::tan(), theMomentum, thePID, theVertex, tOfEBCaloG4Hit, tOfEECaloG4Hit, totalEInEB, totalEInEE, totalEInEEzm, totalEInEEzp, totalEInES, totalEInESzm, totalEInESzp, totalHits, ESDetId::zside(), EBDetId::zside(), and EEDetId::zside().

                                                      {
 
   int trackID = 0;
   G4PrimaryParticle * thePrim = 0;
   int nvertex = (*evt)()->GetNumberOfPrimaryVertex();
   if ( nvertex <= 0) {
           edm::LogWarning("EcalSimHitsValidProducer")
                 <<" No Vertex in this Event!";
   }else {
     for ( int i = 0; i< nvertex; i++){
           G4PrimaryVertex * avertex =(*evt)()->GetPrimaryVertex(i);
           if ( avertex == 0 )
                   edm::LogWarning("EcalSimHitsValidProducer")
                   <<" Pointer to vertex is NULL!";
           else {
              float x0 = avertex->GetX0();
              float y0 = avertex->GetY0();
              float z0 = avertex->GetZ0();
              float t0 = avertex->GetT0();
              theVertex.SetCoordinates(x0,y0,z0,t0);
     
              int npart = avertex->GetNumberOfParticle();
              if ( npart == 0)
                 edm::LogWarning("EcalSimHitsValidProducer")
                 <<" No primary particle in this event";
              else {
                  if ( thePrim == 0)
                    thePrim = avertex->GetPrimary(trackID);
              }
           }
      }
 
    // the direction of momentum of primary particles
     double pInit =0; // etaInit =0, phiInit =0, // UNUSED
      if ( thePrim != 0){
           double  px = thePrim -> GetPx();
           double  py = thePrim -> GetPy();
           double  pz = thePrim -> GetPz();
           theMomentum.SetCoordinates(px,py,pz,0.);
 
           pInit =sqrt( pow(px,2.) + pow(py,2.) + pow(pz,2.));
           if ( pInit == 0)
                   edm::LogWarning("EcalSimHitsValidProducer") 
                   <<" Primary has p = 0 ; ";
           else {
                   theMomentum.SetE(pInit);
                   // double costheta  = pz/pInit; // UNUSED
                   // double theta = acos(std::min(std::max(costheta, -1.),1.)); // UNUSED
                   // etaInit = -log(tan(theta/2)); // UNUSED
 
                   // if ( px != 0 || py != 0) phiInit = atan2(py,px); // UNUSED
           }
 
           thePID = thePrim->GetPDGcode();
       }else {
           edm::LogWarning("EcalSimHitsValidProducer")
           <<" Could not find the primary particle!!";
       }
   }
   // hit map for EB for matrices
   G4HCofThisEvent* allHC = (*evt)()->GetHCofThisEvent();
   int EBHCid = G4SDManager::GetSDMpointer()->GetCollectionID("EcalHitsEB");
   int EEHCid = G4SDManager::GetSDMpointer()->GetCollectionID("EcalHitsEE");
   int SEHCid = G4SDManager::GetSDMpointer()->GetCollectionID("EcalHitsES");
  
 
   CaloG4HitCollection* theEBHC = (CaloG4HitCollection*) allHC->GetHC(EBHCid);
   CaloG4HitCollection* theEEHC = (CaloG4HitCollection*) allHC->GetHC(EEHCid);
   CaloG4HitCollection* theSEHC = (CaloG4HitCollection*) allHC->GetHC(SEHCid);
   
   nHitsInEE = theEEHC->entries();
   nHitsInEB = theEBHC->entries();
   nHitsInES = theSEHC->entries();
   totalHits = nHitsInEE + nHitsInEB + nHitsInES;
 
  //   EB Hit collection start
  MapType ebmap;
  for (int j=0; j<theEBHC->entries(); j++) {
    CaloG4Hit* aHit = (*theEBHC)[j];
     totalEInEB += aHit->getEnergyDeposit();
     float he     = aHit->getEnergyDeposit();
     float htime  = aHit->getTimeSlice();
                                                                                                                              
     math::XYZPoint hpos = aHit->getEntry();
     float htheta    = hpos.theta();
     float heta    = -log(tan(htheta * 0.5));
     float hphi    = hpos.phi();
 
     phiOfEBCaloG4Hit.push_back( hphi);
     etaOfEBCaloG4Hit.push_back(heta);
     tOfEBCaloG4Hit.push_back(htime);
     eOfEBCaloG4Hit.push_back(he);
     uint32_t  crystid = aHit->getUnitID();
     ebmap[crystid] += aHit->getEnergyDeposit();
 }
 
     nCrystalInEB = ebmap.size();
 
  //   EE Hit collection start
  MapType eemap,eezpmap,eezmmap;
  
  for (int j=0; j<theEEHC->entries(); j++) {
     CaloG4Hit* aHit = (*theEEHC)[j];
     totalEInEE += aHit->getEnergyDeposit();
     float he     = aHit->getEnergyDeposit();
     float htime  = aHit->getTimeSlice();
 
     math::XYZPoint hpos = aHit->getEntry();
     float htheta    = hpos.theta();
     float heta    = -log(tan(htheta * 0.5));
     float hphi    = hpos.phi();
     phiOfEECaloG4Hit.push_back( hphi);
     etaOfEECaloG4Hit.push_back(heta);
     tOfEECaloG4Hit.push_back(htime);
     eOfEECaloG4Hit.push_back(he);
  
     uint32_t  crystid = aHit->getUnitID();
     EEDetId myEEid(crystid);
     if ( myEEid.zside() == -1 ) {
           totalEInEEzm += aHit->getEnergyDeposit();
           eOfEEMinusCaloG4Hit.push_back(he);
           eezmmap[crystid] += aHit->getEnergyDeposit();
      }
     if ( myEEid.zside() == 1 ) {
           totalEInEEzp += aHit->getEnergyDeposit();
           eOfEEPlusCaloG4Hit.push_back(he);
           eezpmap[crystid] += aHit->getEnergyDeposit();
      }
                
 
     eemap[crystid] += aHit->getEnergyDeposit(); 
  }
 
  nCrystalInEEzm = eezmmap.size();
  nCrystalInEEzp = eezpmap.size(); 
 
  //Hits from ES
  for (int j=0; j<theSEHC->entries(); j++) {
     CaloG4Hit* aHit = (*theSEHC)[j];
     totalEInES += aHit->getEnergyDeposit();
     ESDetId esid = ESDetId( aHit->getUnitID());
 
     if (esid.zside() == -1) {
 
            totalEInESzm +=  aHit->getEnergyDeposit();
 
            if (esid.plane() ==  1) {
                  nHitsIn1ESzm++;
                  eOf1ESzm.push_back(aHit->getEnergyDeposit());
             }else if ( esid.plane() ==  2){
                   nHitsIn2ESzm++;
                   eOf2ESzm.push_back(aHit->getEnergyDeposit());
             }
     } 
     if (esid.zside() == 1) {
 
            totalEInESzp +=  aHit->getEnergyDeposit();
 
            if (esid.plane() ==  1) {
                  nHitsIn1ESzp++;
                  eOf1ESzp.push_back(aHit->getEnergyDeposit());
             }else if ( esid.plane() ==  2){
                   nHitsIn2ESzp++;
                   eOf2ESzp.push_back(aHit->getEnergyDeposit());
             }
     }
 
 
   
   }
   
    uint32_t  eemaxid = getUnitWithMaxEnergy(eemap);
    uint32_t  ebmaxid = getUnitWithMaxEnergy(ebmap); 
    if ( eemap[eemaxid] > ebmap[ebmaxid] ) {
     uint32_t  centerid = getUnitWithMaxEnergy(eemap);
     EEDetId myEEid(centerid);
     int ix = myEEid.ix();
     int iy = myEEid.iy();
     int iz = myEEid.zside();
 
     ee1 =  energyInEEMatrix(1,1,ix,iy,iz,eemap);
     ee9 =  energyInEEMatrix(3,3,ix,iy,iz,eemap);
     ee25=  energyInEEMatrix(5,5,ix,iy,iz,eemap);
     MapType   neweemap;
     if( fillEEMatrix(3,3,ix,iy,iz,neweemap, eemap)) {
           ee4 = eCluster2x2(neweemap);
     }
     if ( fillEEMatrix(5,5,ix,iy,iz,neweemap, eemap)) {
           ee16 = eCluster4x4(ee9,neweemap);
     }
   } else {
     uint32_t  ebcenterid = getUnitWithMaxEnergy(ebmap);
     EBDetId myEBid(ebcenterid);
     int bx = myEBid.ietaAbs();
     int by = myEBid.iphi();
     int bz = myEBid.zside();
     eb1 =  energyInEBMatrix(1,1,bx,by,bz,ebmap);
     eb9 =  energyInEBMatrix(3,3,bx,by,bz,ebmap);
     eb25=  energyInEBMatrix(5,5,bx,by,bz,ebmap);
 
     MapType  newebmap;
     if( fillEBMatrix(3,3,bx,by,bz,newebmap, ebmap)){
           eb4 = eCluster2x2(newebmap);
     }
     if( fillEBMatrix(5,5,bx,by,bz,newebmap, ebmap)){
           eb16 = eCluster4x4(eb9,newebmap);
     }
   } 
 
 }