EBLaserClient Class Reference

#include <EBLaserClient.h>

Inheritance diagram for EBLaserClient:

List of all members.

Public Member Functions
void	analyze (void)
	Analyze.
void	beginJob (void)
	BeginJob.
void	beginRun (void)
	BeginRun.
void	cleanup (void)
	Cleanup.
	EBLaserClient (const edm::ParameterSet &ps)
	Constructor.
void	endJob (void)
	EndJob.
void	endRun (void)
	EndRun.
int	getEvtPerJob ()
	Get Functions.
int	getEvtPerRun ()
	Returns the number of processed events in this Run.
void	setup (void)
	Setup.
virtual	~EBLaserClient ()
	Destructor.
Private Attributes
float	amplitudeThreshold_
float	amplitudeThresholdPnG01_
float	amplitudeThresholdPnG16_
bool	cloneME_
bool	debug_
DQMStore *	dqmStore_
bool	enableCleanup_
TProfile2D *	h01_ [36]
TProfile2D *	h02_ [36]
TProfile2D *	h03_ [36]
TProfile2D *	h04_ [36]
TProfile2D *	h05_ [36]
TProfile2D *	h06_ [36]
TProfile2D *	h07_ [36]
TProfile2D *	h08_ [36]
TProfile2D *	h09_ [36]
TProfile2D *	h10_ [36]
TProfile2D *	h11_ [36]
TProfile2D *	h12_ [36]
TProfile2D *	hs01_ [36]
TProfile2D *	hs02_ [36]
TProfile2D *	hs03_ [36]
TProfile2D *	hs04_ [36]
TProfile *	i01_ [36]
TProfile *	i02_ [36]
TProfile *	i03_ [36]
TProfile *	i04_ [36]
TProfile *	i05_ [36]
TProfile *	i06_ [36]
TProfile *	i07_ [36]
TProfile *	i08_ [36]
TProfile *	i09_ [36]
TProfile *	i10_ [36]
TProfile *	i11_ [36]
TProfile *	i12_ [36]
TProfile *	i13_ [36]
TProfile *	i14_ [36]
TProfile *	i15_ [36]
TProfile *	i16_ [36]
int	ievt_
int	jevt_
std::vector< int >	laserWavelengths_
MonitorElement *	me_hs01_ [36]
MonitorElement *	me_hs02_ [36]
MonitorElement *	me_hs03_ [36]
MonitorElement *	me_hs04_ [36]
MonitorElement *	me_hs05_ [36]
MonitorElement *	me_hs06_ [36]
MonitorElement *	me_hs07_ [36]
MonitorElement *	me_hs08_ [36]
MonitorElement *	mea01_ [36]
MonitorElement *	mea02_ [36]
MonitorElement *	mea03_ [36]
MonitorElement *	mea04_ [36]
MonitorElement *	meaopn01_ [36]
MonitorElement *	meaopn02_ [36]
MonitorElement *	meaopn03_ [36]
MonitorElement *	meaopn04_ [36]
MonitorElement *	meg01_ [36]
MonitorElement *	meg02_ [36]
MonitorElement *	meg03_ [36]
MonitorElement *	meg04_ [36]
MonitorElement *	meg05_ [36]
MonitorElement *	meg06_ [36]
MonitorElement *	meg07_ [36]
MonitorElement *	meg08_ [36]
MonitorElement *	meg09_ [36]
MonitorElement *	meg10_ [36]
MonitorElement *	meg11_ [36]
MonitorElement *	meg12_ [36]
MonitorElement *	mepnprms01_ [36]
MonitorElement *	mepnprms02_ [36]
MonitorElement *	mepnprms03_ [36]
MonitorElement *	mepnprms04_ [36]
MonitorElement *	mepnprms05_ [36]
MonitorElement *	mepnprms06_ [36]
MonitorElement *	mepnprms07_ [36]
MonitorElement *	mepnprms08_ [36]
MonitorElement *	met01_ [36]
MonitorElement *	met02_ [36]
MonitorElement *	met03_ [36]
MonitorElement *	met04_ [36]
MonitorElement *	metav01_ [36]
MonitorElement *	metav02_ [36]
MonitorElement *	metav03_ [36]
MonitorElement *	metav04_ [36]
MonitorElement *	metrms01_ [36]
MonitorElement *	metrms02_ [36]
MonitorElement *	metrms03_ [36]
MonitorElement *	metrms04_ [36]
float	pedPnDiscrepancyMean_ [2]
float	pedPnExpectedMean_ [2]
float	pedPnRMSThreshold_ [2]
float	percentVariation_
std::string	prefixME_
float	rmsThresholdRelative_
std::vector< int >	superModules_
bool	verbose_
Friends
class	EBSummaryClient

---

Detailed Description

Definition at line 32 of file EBLaserClient.h.

---

Constructor & Destructor Documentation

EBLaserClient::EBLaserClient

(

const edm::ParameterSet &

ps

)

Constructor.

Definition at line 49 of file EBLaserClient.cc.

References amplitudeThreshold_, amplitudeThresholdPnG01_, amplitudeThresholdPnG16_, cloneME_, gather_cfg::cout, debug_, enableCleanup_, edm::ParameterSet::getUntrackedParameter(), h01_, h02_, h03_, h04_, h05_, h06_, h07_, h08_, h09_, h10_, h11_, h12_, hs01_, hs02_, hs03_, hs04_, i, i01_, i02_, i03_, i04_, i05_, i06_, i07_, i08_, i09_, i10_, i11_, i12_, i13_, i14_, i15_, i16_, ecalpyutils::ism(), laserWavelengths_, me_hs01_, me_hs02_, me_hs03_, me_hs04_, mea01_, mea02_, mea03_, mea04_, meaopn01_, meaopn02_, meaopn03_, meaopn04_, meg01_, meg02_, meg03_, meg04_, meg05_, meg06_, meg07_, meg08_, meg09_, meg10_, meg11_, meg12_, mepnprms01_, mepnprms02_, mepnprms03_, mepnprms04_, mepnprms05_, mepnprms06_, mepnprms07_, mepnprms08_, met01_, met02_, met03_, met04_, metav01_, metav02_, metav03_, metav04_, metrms01_, metrms02_, metrms03_, metrms04_, pedPnDiscrepancyMean_, pedPnExpectedMean_, pedPnRMSThreshold_, percentVariation_, prefixME_, rmsThresholdRelative_, superModules_, and verbose_.

                                                      {

  // cloneME switch
  cloneME_ = ps.getUntrackedParameter<bool>("cloneME", true);

  // verbose switch
  verbose_ = ps.getUntrackedParameter<bool>("verbose", true);

  // debug switch
  debug_ = ps.getUntrackedParameter<bool>("debug", false);

  // prefixME path
  prefixME_ = ps.getUntrackedParameter<std::string>("prefixME", "");

  // enableCleanup_ switch
  enableCleanup_ = ps.getUntrackedParameter<bool>("enableCleanup", false);

  // vector of selected Super Modules (Defaults to all 36).
  superModules_.reserve(36);
  for ( unsigned int i = 1; i <= 36; i++ ) superModules_.push_back(i);
  superModules_ = ps.getUntrackedParameter<std::vector<int> >("superModules", superModules_);

  laserWavelengths_.reserve(4);
  for ( unsigned int i = 1; i <= 4; i++ ) laserWavelengths_.push_back(i);
  laserWavelengths_ = ps.getUntrackedParameter<std::vector<int> >("laserWavelengths", laserWavelengths_);

  if ( verbose_ ) {
    std::cout << " Laser wavelengths:" << std::endl;
    for ( unsigned int i = 0; i < laserWavelengths_.size(); i++ ) {
      std::cout << " " << laserWavelengths_[i];
    }
    std::cout << std::endl;
  }

  for ( unsigned int i=0; i<superModules_.size(); i++ ) {

    int ism = superModules_[i];

    h01_[ism-1] = 0;
    h02_[ism-1] = 0;
    h03_[ism-1] = 0;
    h04_[ism-1] = 0;
    h05_[ism-1] = 0;
    h06_[ism-1] = 0;
    h07_[ism-1] = 0;
    h08_[ism-1] = 0;

    h09_[ism-1] = 0;
    h10_[ism-1] = 0;
    h11_[ism-1] = 0;
    h12_[ism-1] = 0;

    hs01_[ism-1] = 0;
    hs02_[ism-1] = 0;
    hs03_[ism-1] = 0;
    hs04_[ism-1] = 0;

    i01_[ism-1] = 0;
    i02_[ism-1] = 0;
    i03_[ism-1] = 0;
    i04_[ism-1] = 0;
    i05_[ism-1] = 0;
    i06_[ism-1] = 0;
    i07_[ism-1] = 0;
    i08_[ism-1] = 0;

    i09_[ism-1] = 0;
    i10_[ism-1] = 0;
    i11_[ism-1] = 0;
    i12_[ism-1] = 0;
    i13_[ism-1] = 0;
    i14_[ism-1] = 0;
    i15_[ism-1] = 0;
    i16_[ism-1] = 0;

  }

  for ( unsigned int i=0; i<superModules_.size(); i++ ) {

    int ism = superModules_[i];

    meg01_[ism-1] = 0;
    meg02_[ism-1] = 0;
    meg03_[ism-1] = 0;
    meg04_[ism-1] = 0;

    meg05_[ism-1] = 0;
    meg06_[ism-1] = 0;
    meg07_[ism-1] = 0;
    meg08_[ism-1] = 0;
    meg09_[ism-1] = 0;
    meg10_[ism-1] = 0;
    meg11_[ism-1] = 0;
    meg12_[ism-1] = 0;

    mea01_[ism-1] = 0;
    mea02_[ism-1] = 0;
    mea03_[ism-1] = 0;
    mea04_[ism-1] = 0;

    met01_[ism-1] = 0;
    met02_[ism-1] = 0;
    met03_[ism-1] = 0;
    met04_[ism-1] = 0;

    metav01_[ism-1] = 0;
    metav02_[ism-1] = 0;
    metav03_[ism-1] = 0;
    metav04_[ism-1] = 0;

    metrms01_[ism-1] = 0;
    metrms02_[ism-1] = 0;
    metrms03_[ism-1] = 0;
    metrms04_[ism-1] = 0;

    meaopn01_[ism-1] = 0;
    meaopn02_[ism-1] = 0;
    meaopn03_[ism-1] = 0;
    meaopn04_[ism-1] = 0;

    mepnprms01_[ism-1] = 0;
    mepnprms02_[ism-1] = 0;
    mepnprms03_[ism-1] = 0;
    mepnprms04_[ism-1] = 0;
    mepnprms05_[ism-1] = 0;
    mepnprms06_[ism-1] = 0;
    mepnprms07_[ism-1] = 0;
    mepnprms08_[ism-1] = 0;

    me_hs01_[ism-1] = 0;
    me_hs02_[ism-1] = 0;
    me_hs03_[ism-1] = 0;
    me_hs04_[ism-1] = 0;

  }

  percentVariation_ = 0.4;

  amplitudeThreshold_ = 100.;

  rmsThresholdRelative_ = 0.3;

  amplitudeThresholdPnG01_ = 100.;
  amplitudeThresholdPnG16_ = 100.;

  pedPnExpectedMean_[0] = 750.0;
  pedPnExpectedMean_[1] = 750.0;

  pedPnDiscrepancyMean_[0] = 100.0;
  pedPnDiscrepancyMean_[1] = 100.0;

  pedPnRMSThreshold_[0] = 999.;
  pedPnRMSThreshold_[1] = 999.;

}

EBLaserClient::~EBLaserClient

(

)

[virtual]

Destructor.

Definition at line 205 of file EBLaserClient.cc.

                              {

}

---

Member Function Documentation

void EBLaserClient::analyze

(

void

)

[virtual]

Analyze.

Implements EBClient.

Definition at line 1524 of file EBLaserClient.cc.

References abs, amplitudeThresholdPnG01_, amplitudeThresholdPnG16_, cloneME_, gather_cfg::cout, debug_, dqmStore_, EcalBarrel, MonitorElement::Fill(), spr::find(), DQMStore::get(), UtilsClient::getBinStatistics(), UtilsClient::getFirstNonEmptyChannel(), h01_, h02_, h03_, h04_, h05_, h06_, h07_, h08_, h09_, h10_, h11_, h12_, hs01_, hs02_, hs03_, hs04_, i, i01_, i02_, i03_, i04_, i05_, i06_, i07_, i08_, i09_, i10_, i11_, i12_, i13_, i14_, i15_, i16_, Numbers::icEB(), ievt_, jevt_, EcalDQMStatusHelper::LASER_MEAN_ERROR, EcalDQMStatusHelper::LASER_RMS_ERROR, EcalDQMStatusHelper::LASER_TIMING_MEAN_ERROR, EcalDQMStatusHelper::LASER_TIMING_RMS_ERROR, laserWavelengths_, UtilsClient::maskBinContent(), Masks::maskChannel(), Masks::maskPn(), me_hs01_, me_hs02_, me_hs03_, me_hs04_, mea01_, mea02_, mea03_, mea04_, meaopn01_, meaopn02_, meaopn03_, meaopn04_, meg01_, meg02_, meg03_, meg04_, meg05_, meg06_, meg07_, meg08_, meg09_, meg10_, meg11_, meg12_, mepnprms01_, mepnprms02_, mepnprms03_, mepnprms04_, mepnprms05_, mepnprms06_, mepnprms07_, mepnprms08_, met01_, met02_, met03_, met04_, metav01_, metav02_, metav03_, metav04_, metrms01_, metrms02_, metrms03_, metrms04_, EcalDQMStatusHelper::PEDESTAL_HIGH_GAIN_MEAN_ERROR, EcalDQMStatusHelper::PEDESTAL_HIGH_GAIN_RMS_ERROR, EcalDQMStatusHelper::PEDESTAL_LOW_GAIN_MEAN_ERROR, EcalDQMStatusHelper::PEDESTAL_LOW_GAIN_RMS_ERROR, pedPnDiscrepancyMean_, pedPnExpectedMean_, pedPnRMSThreshold_, percentVariation_, prefixME_, MonitorElement::Reset(), rmsThresholdRelative_, Numbers::sEB(), MonitorElement::setBinContent(), MonitorElement::setBinError(), MonitorElement::setEntries(), and superModules_.

                                {

  ievt_++;
  jevt_++;
  if ( ievt_ % 10 == 0 ) {
    if ( debug_ ) std::cout << "EBLaserClient: ievt/jevt = " << ievt_ << "/" << jevt_ << std::endl;
  }

  uint32_t bits01 = 0;
  bits01 |= 1 << EcalDQMStatusHelper::LASER_MEAN_ERROR;
  bits01 |= 1 << EcalDQMStatusHelper::LASER_RMS_ERROR;

  uint32_t bits02 = 0;
  bits02 |= 1 << EcalDQMStatusHelper::LASER_TIMING_MEAN_ERROR;
  bits02 |= 1 << EcalDQMStatusHelper::LASER_TIMING_RMS_ERROR;

  uint32_t bits03 = 0;
  bits03 |= 1 << EcalDQMStatusHelper::PEDESTAL_LOW_GAIN_MEAN_ERROR;
  bits03 |= 1 << EcalDQMStatusHelper::PEDESTAL_LOW_GAIN_RMS_ERROR;

  uint32_t bits04 = 0;
  bits04 |= 1 << EcalDQMStatusHelper::PEDESTAL_HIGH_GAIN_MEAN_ERROR;
  bits04 |= 1 << EcalDQMStatusHelper::PEDESTAL_HIGH_GAIN_RMS_ERROR;

  MonitorElement* me;

  for ( unsigned int i=0; i<superModules_.size(); i++ ) {

    int ism = superModules_[i];

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/EBLT amplitude " + Numbers::sEB(ism) + " L1");
      h01_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h01_[ism-1] );

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/EBLT amplitude over PN " + Numbers::sEB(ism) + " L1");
      h02_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h02_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/EBLT amplitude " + Numbers::sEB(ism) + " L2");
      h03_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h03_[ism-1] );

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/EBLT amplitude over PN " + Numbers::sEB(ism) + " L2");
      h04_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h04_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/EBLT amplitude " + Numbers::sEB(ism) + " L3");
      h05_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h05_[ism-1] );

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/EBLT amplitude over PN " + Numbers::sEB(ism) + " L3");
      h06_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h06_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/EBLT amplitude " + Numbers::sEB(ism) + " L4");
      h07_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h07_[ism-1] );

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/EBLT amplitude over PN " + Numbers::sEB(ism) + " L4");
      h08_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h08_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/EBLT timing " + Numbers::sEB(ism) + " L1");
      h09_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h09_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/EBLT timing " + Numbers::sEB(ism) + " L2");
      h10_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h10_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/EBLT timing " + Numbers::sEB(ism) + " L3");
      h11_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h11_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/EBLT timing " + Numbers::sEB(ism) + " L4");
      h12_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, h12_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/EBLT shape " + Numbers::sEB(ism) + " L1");
      hs01_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, hs01_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/EBLT shape " + Numbers::sEB(ism) + " L2");
      hs02_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, hs02_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/EBLT shape " + Numbers::sEB(ism) + " L3");
      hs03_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, hs03_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/EBLT shape " + Numbers::sEB(ism) + " L4");
      hs04_[ism-1] = UtilsClient::getHisto<TProfile2D*>( me, cloneME_, hs04_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/PN/Gain01/EBLT PNs amplitude " + Numbers::sEB(ism) + " G01 L1");
      i01_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i01_[ism-1] );

    }


    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/PN/Gain01/EBLT PNs amplitude " + Numbers::sEB(ism) + " G01 L2");
      i02_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i02_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/PN/Gain01/EBLT PNs amplitude " + Numbers::sEB(ism) + " G01 L3");
      i03_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i03_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/PN/Gain01/EBLT PNs amplitude " + Numbers::sEB(ism) + " G01 L4");
      i04_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i04_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/PN/Gain01/EBLT PNs pedestal " + Numbers::sEB(ism) + " G01 L1");
      i05_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i05_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/PN/Gain01/EBLT PNs pedestal " + Numbers::sEB(ism) + " G01 L2");
      i06_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i06_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/PN/Gain01/EBLT PNs pedestal " + Numbers::sEB(ism) + " G01 L3");
      i07_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i07_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/PN/Gain01/EBLT PNs pedestal " + Numbers::sEB(ism) + " G01 L4");
      i08_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i08_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/PN/Gain16/EBLT PNs amplitude " + Numbers::sEB(ism) + " G16 L1");
      i09_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i09_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/PN/Gain16/EBLT PNs amplitude " + Numbers::sEB(ism) + " G16 L2");
      i10_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i10_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/PN/Gain16/EBLT PNs amplitude " + Numbers::sEB(ism) + " G16 L3");
      i11_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i11_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/PN/Gain16/EBLT PNs amplitude " + Numbers::sEB(ism) + " G16 L4");
      i12_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i12_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser1/PN/Gain16/EBLT PNs pedestal " + Numbers::sEB(ism) + " G16 L1");
      i13_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i13_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser2/PN/Gain16/EBLT PNs pedestal " + Numbers::sEB(ism) + " G16 L2");
      i14_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i14_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser3/PN/Gain16/EBLT PNs pedestal " + Numbers::sEB(ism) + " G16 L3");
      i15_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i15_[ism-1] );

    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {

      me = dqmStore_->get( prefixME_ + "/EBLaserTask/Laser4/PN/Gain16/EBLT PNs pedestal " + Numbers::sEB(ism) + " G16 L4");
      i16_[ism-1] = UtilsClient::getHisto<TProfile*>( me, cloneME_, i16_[ism-1] );

    }

    if ( meg01_[ism-1] ) meg01_[ism-1]->Reset();
    if ( meg02_[ism-1] ) meg02_[ism-1]->Reset();
    if ( meg03_[ism-1] ) meg03_[ism-1]->Reset();
    if ( meg04_[ism-1] ) meg04_[ism-1]->Reset();

    if ( meg05_[ism-1] ) meg05_[ism-1]->Reset();
    if ( meg06_[ism-1] ) meg06_[ism-1]->Reset();
    if ( meg07_[ism-1] ) meg07_[ism-1]->Reset();
    if ( meg08_[ism-1] ) meg08_[ism-1]->Reset();
    if ( meg09_[ism-1] ) meg09_[ism-1]->Reset();
    if ( meg10_[ism-1] ) meg10_[ism-1]->Reset();
    if ( meg11_[ism-1] ) meg11_[ism-1]->Reset();
    if ( meg12_[ism-1] ) meg12_[ism-1]->Reset();

    if ( mea01_[ism-1] ) mea01_[ism-1]->Reset();
    if ( mea02_[ism-1] ) mea02_[ism-1]->Reset();
    if ( mea03_[ism-1] ) mea03_[ism-1]->Reset();
    if ( mea04_[ism-1] ) mea04_[ism-1]->Reset();

    if ( met01_[ism-1] ) met01_[ism-1]->Reset();
    if ( met02_[ism-1] ) met02_[ism-1]->Reset();
    if ( met03_[ism-1] ) met03_[ism-1]->Reset();
    if ( met04_[ism-1] ) met04_[ism-1]->Reset();

    if ( metav01_[ism-1] ) metav01_[ism-1]->Reset();
    if ( metav02_[ism-1] ) metav02_[ism-1]->Reset();
    if ( metav03_[ism-1] ) metav03_[ism-1]->Reset();
    if ( metav04_[ism-1] ) metav04_[ism-1]->Reset();

    if ( metrms01_[ism-1] ) metrms01_[ism-1]->Reset();
    if ( metrms02_[ism-1] ) metrms02_[ism-1]->Reset();
    if ( metrms03_[ism-1] ) metrms03_[ism-1]->Reset();
    if ( metrms04_[ism-1] ) metrms04_[ism-1]->Reset();

    if ( meaopn01_[ism-1] ) meaopn01_[ism-1]->Reset();
    if ( meaopn02_[ism-1] ) meaopn02_[ism-1]->Reset();
    if ( meaopn03_[ism-1] ) meaopn03_[ism-1]->Reset();
    if ( meaopn04_[ism-1] ) meaopn04_[ism-1]->Reset();

    if ( mepnprms01_[ism-1] ) mepnprms01_[ism-1]->Reset();
    if ( mepnprms02_[ism-1] ) mepnprms02_[ism-1]->Reset();
    if ( mepnprms03_[ism-1] ) mepnprms03_[ism-1]->Reset();
    if ( mepnprms04_[ism-1] ) mepnprms04_[ism-1]->Reset();
    if ( mepnprms05_[ism-1] ) mepnprms05_[ism-1]->Reset();
    if ( mepnprms06_[ism-1] ) mepnprms06_[ism-1]->Reset();
    if ( mepnprms07_[ism-1] ) mepnprms07_[ism-1]->Reset();
    if ( mepnprms08_[ism-1] ) mepnprms08_[ism-1]->Reset();

    if ( me_hs01_[ism-1] ) me_hs01_[ism-1]->Reset();
    if ( me_hs02_[ism-1] ) me_hs02_[ism-1]->Reset();
    if ( me_hs03_[ism-1] ) me_hs03_[ism-1]->Reset();
    if ( me_hs04_[ism-1] ) me_hs04_[ism-1]->Reset();

    float meanAmplL1, meanAmplL2, meanAmplL3, meanAmplL4;

    int nCryL1, nCryL2, nCryL3, nCryL4;

    meanAmplL1 = meanAmplL2 = meanAmplL3 = meanAmplL4 = 0.;

    nCryL1 = nCryL2 = nCryL3 = nCryL4 = 0;

    for ( int ie = 1; ie <= 85; ie++ ) {
      for ( int ip = 1; ip <= 20; ip++ ) {

        bool update01;
        bool update02;
        bool update03;
        bool update04;

        float num01, num02, num03, num04;
        float mean01, mean02, mean03, mean04;
        float rms01, rms02, rms03, rms04;

        update01 = UtilsClient::getBinStatistics(h01_[ism-1], ie, ip, num01, mean01, rms01);
        update02 = UtilsClient::getBinStatistics(h03_[ism-1], ie, ip, num02, mean02, rms02);
        update03 = UtilsClient::getBinStatistics(h05_[ism-1], ie, ip, num03, mean03, rms03);
        update04 = UtilsClient::getBinStatistics(h07_[ism-1], ie, ip, num04, mean04, rms04);

        float xmean01 = mean01;
        float xmean02 = mean02;
        float xmean03 = mean03;
        float xmean04 = mean04;

        // special correction for EB+04
        if ( ism == 22 && ie <= 5 ) {
          xmean01 = xmean01 * 1.5;
          xmean02 = xmean02 * 1.5;
          xmean03 = xmean03 * 1.5;
          xmean04 = xmean04 * 1.5;
        }

        // special correction for EB+09
        if ( ism == 27 && ie > 5 && ip <= 10 ) {
          xmean01 = xmean01 * 1.5;
          xmean02 = xmean02 * 1.5;
          xmean03 = xmean03 * 1.5;
          xmean04 = xmean04 * 1.5;
        }

        // special correction for EB+18
        if ( ism == 36 && ie > 5 && ip <= 10 ) {
          xmean01 = xmean01 * 1.0;
          xmean02 = xmean02 * 1.0;
          xmean03 = xmean03 * 1.0;
          xmean04 = xmean04 * 2.0;
        }

        if ( update01 ) {
          meanAmplL1 += xmean01;
          nCryL1++;
        }

        if ( update02 ) {
          meanAmplL2 += xmean02;
          nCryL2++;
        }

        if ( update03 ) {
          meanAmplL3 += xmean03;
          nCryL3++;
        }

        if ( update04 ) {
          meanAmplL4 += xmean04;
          nCryL4++;
        }

      }
    }

    if ( nCryL1 > 0 ) meanAmplL1 /= float (nCryL1);
    if ( nCryL2 > 0 ) meanAmplL2 /= float (nCryL2);
    if ( nCryL3 > 0 ) meanAmplL3 /= float (nCryL3);
    if ( nCryL4 > 0 ) meanAmplL4 /= float (nCryL4);

    bool l1Data(false), l2Data(false), l3Data(false), l4Data(false);

    for ( int ie = 1; ie <= 85; ie++ ) {
      for ( int ip = 1; ip <= 20; ip++ ) {

        if ( meg01_[ism-1] ) meg01_[ism-1]->setBinContent( ie, ip, 2.);
        if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, 2.);
        if ( meg03_[ism-1] ) meg03_[ism-1]->setBinContent( ie, ip, 2.);
        if ( meg04_[ism-1] ) meg04_[ism-1]->setBinContent( ie, ip, 2.);

        bool update01;
        bool update02;
        bool update03;
        bool update04;
        bool update05;
        bool update06;
        bool update07;
        bool update08;
        bool update09;
        bool update10;
        bool update11;
        bool update12;

        float num01, num02, num03, num04, num05, num06, num07, num08;
        float num09, num10, num11, num12;
        float mean01, mean02, mean03, mean04, mean05, mean06, mean07, mean08;
        float mean09, mean10, mean11, mean12;
        float rms01, rms02, rms03, rms04, rms05, rms06, rms07, rms08;
        float rms09, rms10, rms11, rms12;

        update01 = UtilsClient::getBinStatistics(h01_[ism-1], ie, ip, num01, mean01, rms01);
        update02 = UtilsClient::getBinStatistics(h02_[ism-1], ie, ip, num02, mean02, rms02);
        update03 = UtilsClient::getBinStatistics(h03_[ism-1], ie, ip, num03, mean03, rms03);
        update04 = UtilsClient::getBinStatistics(h04_[ism-1], ie, ip, num04, mean04, rms04);
        update05 = UtilsClient::getBinStatistics(h05_[ism-1], ie, ip, num05, mean05, rms05);
        update06 = UtilsClient::getBinStatistics(h06_[ism-1], ie, ip, num06, mean06, rms06);
        update07 = UtilsClient::getBinStatistics(h07_[ism-1], ie, ip, num07, mean07, rms07);
        update08 = UtilsClient::getBinStatistics(h08_[ism-1], ie, ip, num08, mean08, rms08);
        update09 = UtilsClient::getBinStatistics(h09_[ism-1], ie, ip, num09, mean09, rms09);
        update10 = UtilsClient::getBinStatistics(h10_[ism-1], ie, ip, num10, mean10, rms10);
        update11 = UtilsClient::getBinStatistics(h11_[ism-1], ie, ip, num11, mean11, rms11);
        update12 = UtilsClient::getBinStatistics(h12_[ism-1], ie, ip, num12, mean12, rms12);

        if(update01) l1Data = true;
        if(update03) l2Data = true;
        if(update05) l3Data = true;
        if(update07) l4Data = true;

        float xmean01 = mean01;
        float xmean03 = mean03;
        float xmean05 = mean05;
        float xmean07 = mean07;

        // special correction for EB+04
        if ( ism == 22 && ie <= 5 ) {
          xmean01 = xmean01 * 1.5;
          xmean03 = xmean03 * 1.5;
          xmean05 = xmean05 * 1.5;
          xmean07 = xmean07 * 1.5;
        }

        // special correction for EB+09
        if ( ism == 27 && ie > 5 && ip <= 10 ) {
          xmean01 = xmean01 * 1.5;
          xmean03 = xmean03 * 1.5;
          xmean05 = xmean05 * 1.5;
          xmean07 = xmean07 * 1.5;
        }

        // special correction for EB+18
        if ( ism == 36 && ie > 5 && ip <= 10 ) {
          xmean01 = xmean01 * 1.0;
          xmean03 = xmean03 * 1.0;
          xmean05 = xmean05 * 1.0;
          xmean07 = xmean07 * 2.0;
        }

        if ( update01 ) {

          float val;

          val = 1.;
          if ( std::abs(xmean01 - meanAmplL1) > std::abs(percentVariation_ * meanAmplL1) || xmean01 < amplitudeThreshold_ || rms01 > rmsThresholdRelative_ * mean01 )
            val = 0.;
          if ( meg01_[ism-1] ) meg01_[ism-1]->setBinContent( ie, ip, val );

          int ic = Numbers::icEB(ism, ie, ip);

          if ( mea01_[ism-1] ) {
            if ( mean01 > 0. ) {
              mea01_[ism-1]->setBinContent( ic, mean01 );
              mea01_[ism-1]->setBinError( ic, rms01 );
            } else {
              mea01_[ism-1]->setEntries( 1.+mea01_[ism-1]->getEntries() );
            }
          }

        }

        if ( update03 ) {

          float val;

          val = 1.;
          if ( std::abs(xmean03 - meanAmplL2) > std::abs(percentVariation_ * meanAmplL2) || xmean03 < amplitudeThreshold_ || rms03 > rmsThresholdRelative_ * mean03 )
            val = 0.;
          if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, val );

          int ic = Numbers::icEB(ism, ie, ip);

          if ( mea02_[ism-1] ) {
            if ( mean03 > 0. ) {
              mea02_[ism-1]->setBinContent( ic, mean03 );
              mea02_[ism-1]->setBinError( ic, rms03 );
            } else {
              mea02_[ism-1]->setEntries( 1.+mea02_[ism-1]->getEntries() );
            }
          }

        }

        if ( update05 ) {

          float val;

          val = 1.;
          if ( std::abs(xmean05 - meanAmplL3) > std::abs(percentVariation_ * meanAmplL3) || xmean05 < amplitudeThreshold_ || rms05 > rmsThresholdRelative_ * mean05 )
            val = 0.;
          if ( meg03_[ism-1] ) meg03_[ism-1]->setBinContent( ie, ip, val );

          int ic = Numbers::icEB(ism, ie, ip);

          if ( mea03_[ism-1] ) {
            if ( mean05 > 0. ) {
              mea03_[ism-1]->setBinContent( ic, mean05 );
              mea03_[ism-1]->setBinError( ic, rms05 );
            } else {
              mea03_[ism-1]->setEntries( 1.+mea03_[ism-1]->getEntries() );
            }
          }

        }

        if ( update07 ) {

          float val;

          val = 1.;
          if ( std::abs(xmean07 - meanAmplL4) > std::abs(percentVariation_ * meanAmplL4) || xmean07 < amplitudeThreshold_ || rms07 > rmsThresholdRelative_ * mean07 )
            val = 0.;
          if ( meg04_[ism-1] ) meg04_[ism-1]->setBinContent( ie, ip, val );

          int ic = Numbers::icEB(ism, ie, ip);

          if ( mea04_[ism-1] ) {
            if ( mean07 > 0. ) {
              mea04_[ism-1]->setBinContent( ic, mean07 );
              mea04_[ism-1]->setBinError( ic, rms07 );
            } else {
              mea04_[ism-1]->setEntries( 1.+mea04_[ism-1]->getEntries() );
            }
          }

        }

        if ( Masks::maskChannel(ism, ie, ip, bits01, EcalBarrel) ) {
          UtilsClient::maskBinContent( meg01_[ism-1], ie, ip );
          UtilsClient::maskBinContent( meg02_[ism-1], ie, ip );
          UtilsClient::maskBinContent( meg03_[ism-1], ie, ip );
          UtilsClient::maskBinContent( meg04_[ism-1], ie, ip );
        }

        if ( update02 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( meaopn01_[ism-1] ) {
            if ( mean02 > 0. ) {
              meaopn01_[ism-1]->setBinContent( ic, mean02 );
              meaopn01_[ism-1]->setBinError( ic, rms02 );
            } else {
              meaopn01_[ism-1]->setEntries( 1.+meaopn01_[ism-1]->getEntries() );
            }
          }

        }

        if ( update04 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( meaopn02_[ism-1] ) {
            if ( mean04 > 0. ) {
              meaopn02_[ism-1]->setBinContent( ic, mean04 );
              meaopn02_[ism-1]->setBinError( ic, rms04 );
            } else {
              meaopn02_[ism-1]->setEntries( 1.+meaopn02_[ism-1]->getEntries() );
            }
          }

        }

        if ( update06 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( meaopn03_[ism-1] ) {
            if ( mean06 > 0. ) {
              meaopn03_[ism-1]->setBinContent( ic, mean06 );
              meaopn03_[ism-1]->setBinError( ic, rms06 );
            } else {
              meaopn03_[ism-1]->setEntries( 1.+meaopn03_[ism-1]->getEntries() );
            }
          }

        }

        if ( update08 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( meaopn04_[ism-1] ) {
            if ( mean08 > 0. ) {
              meaopn04_[ism-1]->setBinContent( ic, mean08 );
              meaopn04_[ism-1]->setBinError( ic, rms08 );
            } else {
              meaopn04_[ism-1]->setEntries( 1.+meaopn04_[ism-1]->getEntries() );
            }
          }

        }

        if ( update09 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( met01_[ism-1] ) {
            if ( mean09 > 0. ) {
              met01_[ism-1]->setBinContent( ic, mean09 );
              met01_[ism-1]->setBinError( ic, rms09 );
            } else {
              met01_[ism-1]->setEntries(1.+met01_[ism-1]->getEntries());
            }
          }

          if ( metav01_[ism-1] ) metav01_[ism-1] ->Fill(mean09);
          if ( metrms01_[ism-1] ) metrms01_[ism-1]->Fill(rms09);

        }

        if ( update10 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( met02_[ism-1] ) {
            if ( mean10 > 0. ) {
              met02_[ism-1]->setBinContent( ic, mean10 );
              met02_[ism-1]->setBinError( ic, rms10 );
            } else {
              met02_[ism-1]->setEntries(1.+met02_[ism-1]->getEntries());
            }
          }

          if ( metav02_[ism-1] ) metav02_[ism-1] ->Fill(mean10);
          if ( metrms02_[ism-1] ) metrms02_[ism-1]->Fill(rms10);

        }

        if ( update11 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( met03_[ism-1] ) {
            if ( mean11 > 0. ) {
              met03_[ism-1]->setBinContent( ic, mean11 );
              met03_[ism-1]->setBinError( ic, rms11 );
            } else {
              met03_[ism-1]->setEntries(1.+met03_[ism-1]->getEntries());
            }
          }

          if ( metav03_[ism-1] ) metav03_[ism-1] ->Fill(mean11);
          if ( metrms03_[ism-1] ) metrms03_[ism-1]->Fill(rms11);

        }

        if ( update12 ) {

          int ic = Numbers::icEB(ism, ie, ip);

          if ( met04_[ism-1] ) {
            if ( mean12 > 0. ) {
              met04_[ism-1]->setBinContent( ic, mean12 );
              met04_[ism-1]->setBinError( ic, rms12 );
            } else {
              met04_[ism-1]->setEntries(1.+met04_[ism-1]->getEntries());
            }
          }

          if ( metav04_[ism-1] ) metav04_[ism-1] ->Fill(mean12);
          if ( metrms04_[ism-1] ) metrms04_[ism-1]->Fill(rms12);

        }

      }
    }

    for ( int i = 1; i <= 10; i++ ) {

      if ( meg05_[ism-1] ) meg05_[ism-1]->setBinContent( i, 1, 2. );
      if ( meg06_[ism-1] ) meg06_[ism-1]->setBinContent( i, 1, 2. );
      if ( meg07_[ism-1] ) meg07_[ism-1]->setBinContent( i, 1, 2. );
      if ( meg08_[ism-1] ) meg08_[ism-1]->setBinContent( i, 1, 2. );
      if ( meg09_[ism-1] ) meg09_[ism-1]->setBinContent( i, 1, 2. );
      if ( meg10_[ism-1] ) meg10_[ism-1]->setBinContent( i, 1, 2. );
      if ( meg11_[ism-1] ) meg11_[ism-1]->setBinContent( i, 1, 2. );
      if ( meg12_[ism-1] ) meg12_[ism-1]->setBinContent( i, 1, 2. );

      bool update01;
      bool update02;
      bool update03;
      bool update04;
      bool update05;
      bool update06;
      bool update07;
      bool update08;
      bool update09;
      bool update10;
      bool update11;
      bool update12;
      bool update13;
      bool update14;
      bool update15;
      bool update16;

      float num01, num02, num03, num04, num05, num06, num07, num08;
      float num09, num10, num11, num12, num13, num14, num15, num16;
      float mean01, mean02, mean03, mean04, mean05, mean06, mean07, mean08;
      float mean09, mean10, mean11, mean12, mean13, mean14, mean15, mean16;
      float rms01, rms02, rms03, rms04, rms05, rms06, rms07, rms08;
      float rms09, rms10, rms11, rms12, rms13, rms14, rms15, rms16;

      update01 = UtilsClient::getBinStatistics(i01_[ism-1], i, 0, num01, mean01, rms01);
      update02 = UtilsClient::getBinStatistics(i02_[ism-1], i, 0, num02, mean02, rms02);
      update03 = UtilsClient::getBinStatistics(i03_[ism-1], i, 0, num03, mean03, rms03);
      update04 = UtilsClient::getBinStatistics(i04_[ism-1], i, 0, num04, mean04, rms04);
      update05 = UtilsClient::getBinStatistics(i05_[ism-1], i, 0, num05, mean05, rms05);
      update06 = UtilsClient::getBinStatistics(i06_[ism-1], i, 0, num06, mean06, rms06);
      update07 = UtilsClient::getBinStatistics(i07_[ism-1], i, 0, num07, mean07, rms07);
      update08 = UtilsClient::getBinStatistics(i08_[ism-1], i, 0, num08, mean08, rms08);
      update09 = UtilsClient::getBinStatistics(i09_[ism-1], i, 0, num09, mean09, rms09);
      update10 = UtilsClient::getBinStatistics(i10_[ism-1], i, 0, num10, mean10, rms10);
      update11 = UtilsClient::getBinStatistics(i11_[ism-1], i, 0, num11, mean11, rms11);
      update12 = UtilsClient::getBinStatistics(i12_[ism-1], i, 0, num12, mean12, rms12);
      update13 = UtilsClient::getBinStatistics(i13_[ism-1], i, 0, num13, mean13, rms13);
      update14 = UtilsClient::getBinStatistics(i14_[ism-1], i, 0, num14, mean14, rms14);
      update15 = UtilsClient::getBinStatistics(i15_[ism-1], i, 0, num15, mean15, rms15);
      update16 = UtilsClient::getBinStatistics(i16_[ism-1], i, 0, num16, mean16, rms16);

      if ( update01 && update05 ) {

        float val;

        val = 1.;
        if ( mean01 < amplitudeThresholdPnG01_ )
          val = 0.;
        if ( mean05 <  pedPnExpectedMean_[0] - pedPnDiscrepancyMean_[0] ||
             pedPnExpectedMean_[0] + pedPnDiscrepancyMean_[0] < mean05)
          val = 0.;
        if ( rms05 > pedPnRMSThreshold_[0] )
          val = 0.;

        if ( meg05_[ism-1] )           meg05_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms01_[ism-1] ) mepnprms01_[ism-1]->Fill(rms05);

      }

      if ( update02 && update06 ) {

       float val;

        val = 1.;
        if ( mean02 < amplitudeThresholdPnG01_ )
          val = 0.;
        if ( mean06 <  pedPnExpectedMean_[0] - pedPnDiscrepancyMean_[0] ||
             pedPnExpectedMean_[0] + pedPnDiscrepancyMean_[0] < mean06)
          val = 0.;
        if ( rms06 > pedPnRMSThreshold_[0] )
          val = 0.;

        if ( meg06_[ism-1] )           meg06_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms02_[ism-1] ) mepnprms02_[ism-1]->Fill(rms06);
      }

      if ( update03 && update07 ) {

        float val;

        val = 1.;
        if ( mean03 < amplitudeThresholdPnG01_ )
          val = 0.;
        if ( mean07 <  pedPnExpectedMean_[0] - pedPnDiscrepancyMean_[0] ||
             pedPnExpectedMean_[0] + pedPnDiscrepancyMean_[0] < mean07)
          val = 0.;
        if ( rms07 > pedPnRMSThreshold_[0] )
          val = 0.;

        if ( meg07_[ism-1] )           meg07_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms03_[ism-1] ) mepnprms03_[ism-1]->Fill(rms07);
      }

      if ( update04 && update08 ) {

        float val;

        val = 1.;
        if ( mean04 < amplitudeThresholdPnG01_ )
          val = 0.;
        if ( mean08 <  pedPnExpectedMean_[0] - pedPnDiscrepancyMean_[0] ||
             pedPnExpectedMean_[0] + pedPnDiscrepancyMean_[0] < mean08)
          val = 0.;
        if ( rms08 > pedPnRMSThreshold_[0] )
          val = 0.;

        if ( meg08_[ism-1] )           meg08_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms04_[ism-1] ) mepnprms04_[ism-1]->Fill(rms08);
      }

      if ( update09 && update13 ) {

        float val;

        val = 1.;
        if ( mean09 < amplitudeThresholdPnG16_ )
          val = 0.;
        if ( mean13 <  pedPnExpectedMean_[1] - pedPnDiscrepancyMean_[1] ||
             pedPnExpectedMean_[1] + pedPnDiscrepancyMean_[1] < mean13)
          val = 0.;
        if ( rms13 > pedPnRMSThreshold_[1] )
          val = 0.;

        if ( meg09_[ism-1] )           meg09_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms05_[ism-1] ) mepnprms05_[ism-1]->Fill(rms13);
      }
      else if(l1Data){
        if ( meg09_[ism-1] )           meg09_[ism-1]->setBinContent(i, 1, 0.);
      }

      if ( update10 && update14 ) {

        float val;

        val = 1.;
        if ( mean10 < amplitudeThresholdPnG16_ )
          val = 0.;
        if ( mean14 <  pedPnExpectedMean_[1] - pedPnDiscrepancyMean_[1] ||
             pedPnExpectedMean_[1] + pedPnDiscrepancyMean_[1] < mean14)
          val = 0.;
        if ( rms14 > pedPnRMSThreshold_[1] )
          val = 0.;

        if ( meg10_[ism-1] )           meg10_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms06_[ism-1] ) mepnprms06_[ism-1]->Fill(rms14);
      }
      else if(l2Data){
        if ( meg10_[ism-1] )           meg10_[ism-1]->setBinContent(i, 1, 0.);
      }

      if ( update11 && update15 ) {

        float val;

        val = 1.;
        if ( mean11 < amplitudeThresholdPnG16_ )
          val = 0.;
        if ( mean15 <  pedPnExpectedMean_[1] - pedPnDiscrepancyMean_[1] ||
             pedPnExpectedMean_[1] + pedPnDiscrepancyMean_[1] < mean15)
          val = 0.;
        if ( rms15 > pedPnRMSThreshold_[1] )
          val = 0.;

        if ( meg11_[ism-1] )           meg11_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms07_[ism-1] ) mepnprms07_[ism-1]->Fill(rms15);
      }
      else if(l3Data){
        if ( meg11_[ism-1] )           meg11_[ism-1]->setBinContent(i, 1, 0.);
      }

      if ( update12 && update16 ) {

        float val;

        val = 1.;
        if ( mean12 < amplitudeThresholdPnG16_ )
          val = 0.;
        if ( mean16 <  pedPnExpectedMean_[1] - pedPnDiscrepancyMean_[1] ||
             pedPnExpectedMean_[1] + pedPnDiscrepancyMean_[1] < mean16)
          val = 0.;
        if ( rms16 > pedPnRMSThreshold_[1] )
          val = 0.;

        if ( meg12_[ism-1] )           meg12_[ism-1]->setBinContent(i, 1, val);
        if ( mepnprms08_[ism-1] ) mepnprms08_[ism-1]->Fill(rms16);
      }
      else if(l4Data){
        if ( meg12_[ism-1] )           meg12_[ism-1]->setBinContent(i, 1, 0.);
      }

      if ( Masks::maskPn(ism, i, bits01|bits03, EcalBarrel) ) {
        UtilsClient::maskBinContent( meg05_[ism-1], i, 1 );
        UtilsClient::maskBinContent( meg06_[ism-1], i, 1 );
        UtilsClient::maskBinContent( meg07_[ism-1], i, 1 );
        UtilsClient::maskBinContent( meg08_[ism-1], i, 1 );
      }

      if ( Masks::maskPn(ism, i, bits01|bits04, EcalBarrel) ) {
        UtilsClient::maskBinContent( meg09_[ism-1], i, 1 );
        UtilsClient::maskBinContent( meg10_[ism-1], i, 1 );
        UtilsClient::maskBinContent( meg11_[ism-1], i, 1 );
        UtilsClient::maskBinContent( meg12_[ism-1], i, 1 );
      }

    }

    for ( int i = 1; i <= 10; i++ ) {

      if ( hs01_[ism-1] ) {
        int ic = UtilsClient::getFirstNonEmptyChannel( hs01_[ism-1] );
        if ( me_hs01_[ism-1] ) {
          me_hs01_[ism-1]->setBinContent( i, hs01_[ism-1]->GetBinContent(ic, i) );
          me_hs01_[ism-1]->setBinError( i, hs01_[ism-1]->GetBinError(ic, i) );
        }
      }

      if ( hs02_[ism-1] ) {
        int ic = UtilsClient::getFirstNonEmptyChannel( hs02_[ism-1] );
        if ( me_hs02_[ism-1] ) {
          me_hs02_[ism-1]->setBinContent( i, hs02_[ism-1]->GetBinContent(ic, i) );
          me_hs02_[ism-1]->setBinError( i, hs02_[ism-1]->GetBinError(ic, i) );
        }
      }

      if ( hs03_[ism-1] ) {
        int ic = UtilsClient::getFirstNonEmptyChannel( hs03_[ism-1] );
        if ( me_hs03_[ism-1] ) {
          me_hs03_[ism-1]->setBinContent( i, hs03_[ism-1]->GetBinContent(ic, i) );
          me_hs03_[ism-1]->setBinError( i, hs03_[ism-1]->GetBinError(ic, i) );
        }
      }

      if ( hs04_[ism-1] ) {
        int ic = UtilsClient::getFirstNonEmptyChannel( hs04_[ism-1] );
        if ( me_hs04_[ism-1] ) {
          me_hs04_[ism-1]->setBinContent( i, hs04_[ism-1]->GetBinContent(ic, i) );
          me_hs04_[ism-1]->setBinError( i, hs04_[ism-1]->GetBinError(ic, i) );
        }
      }

    }

  }

}

void EBLaserClient::beginJob

(

void

)

[virtual]

BeginJob.

Implements EBClient.

Definition at line 209 of file EBLaserClient.cc.

References gather_cfg::cout, debug_, dqmStore_, ievt_, jevt_, and cppFunctionSkipper::operator.

                                 {

  dqmStore_ = edm::Service<DQMStore>().operator->();

  if ( debug_ ) std::cout << "EBLaserClient: beginJob" << std::endl;

  ievt_ = 0;
  jevt_ = 0;

}

void EBLaserClient::beginRun

(

void

)

[virtual]

BeginRun.

Implements EBClient.

Definition at line 220 of file EBLaserClient.cc.

References gather_cfg::cout, debug_, jevt_, and setup().

                                 {

  if ( debug_ ) std::cout << "EBLaserClient: beginRun" << std::endl;

  jevt_ = 0;

  this->setup();

}

void EBLaserClient::cleanup

(

void

)

[virtual]

Cleanup.

Implements EBClient.

Definition at line 643 of file EBLaserClient.cc.

References cloneME_, dqmStore_, enableCleanup_, edm::getName(), h01_, h02_, h03_, h04_, h05_, h06_, h07_, h08_, h09_, h10_, h11_, h12_, hs01_, hs02_, hs03_, hs04_, i, i01_, i02_, i03_, i04_, i05_, i06_, i07_, i08_, i09_, i10_, i11_, i12_, i13_, i14_, i15_, i16_, ecalpyutils::ism(), me_hs01_, me_hs02_, me_hs03_, me_hs04_, mea01_, mea02_, mea03_, mea04_, meaopn01_, meaopn02_, meaopn03_, meaopn04_, meg01_, meg02_, meg03_, meg04_, meg05_, meg06_, meg07_, meg08_, meg09_, meg10_, meg11_, meg12_, mepnprms01_, mepnprms02_, mepnprms03_, mepnprms04_, mepnprms05_, mepnprms06_, mepnprms07_, mepnprms08_, met01_, met02_, met03_, met04_, metav01_, metav02_, metav03_, metav04_, metrms01_, metrms02_, metrms03_, metrms04_, prefixME_, DQMStore::removeElement(), DQMStore::setCurrentFolder(), and superModules_.

Referenced by endJob(), and endRun().

                                {

  if ( ! enableCleanup_ ) return;

  for ( unsigned int i=0; i<superModules_.size(); i++ ) {

    int ism = superModules_[i];

    if ( cloneME_ ) {
      if ( h01_[ism-1] ) delete h01_[ism-1];
      if ( h02_[ism-1] ) delete h02_[ism-1];
      if ( h03_[ism-1] ) delete h03_[ism-1];
      if ( h04_[ism-1] ) delete h04_[ism-1];
      if ( h05_[ism-1] ) delete h05_[ism-1];
      if ( h06_[ism-1] ) delete h06_[ism-1];
      if ( h07_[ism-1] ) delete h07_[ism-1];
      if ( h08_[ism-1] ) delete h08_[ism-1];

      if ( h09_[ism-1] ) delete h09_[ism-1];
      if ( h10_[ism-1] ) delete h10_[ism-1];
      if ( h11_[ism-1] ) delete h11_[ism-1];
      if ( h12_[ism-1] ) delete h12_[ism-1];

      if ( hs01_[ism-1] ) delete hs01_[ism-1];
      if ( hs02_[ism-1] ) delete hs02_[ism-1];
      if ( hs03_[ism-1] ) delete hs03_[ism-1];
      if ( hs04_[ism-1] ) delete hs04_[ism-1];

      if ( i01_[ism-1] ) delete i01_[ism-1];
      if ( i02_[ism-1] ) delete i02_[ism-1];
      if ( i03_[ism-1] ) delete i03_[ism-1];
      if ( i04_[ism-1] ) delete i04_[ism-1];
      if ( i05_[ism-1] ) delete i05_[ism-1];
      if ( i06_[ism-1] ) delete i06_[ism-1];
      if ( i07_[ism-1] ) delete i07_[ism-1];
      if ( i08_[ism-1] ) delete i08_[ism-1];

      if ( i09_[ism-1] ) delete i09_[ism-1];
      if ( i10_[ism-1] ) delete i10_[ism-1];
      if ( i11_[ism-1] ) delete i11_[ism-1];
      if ( i12_[ism-1] ) delete i12_[ism-1];
      if ( i13_[ism-1] ) delete i13_[ism-1];
      if ( i14_[ism-1] ) delete i14_[ism-1];
      if ( i15_[ism-1] ) delete i15_[ism-1];
      if ( i16_[ism-1] ) delete i16_[ism-1];
    }

    h01_[ism-1] = 0;
    h02_[ism-1] = 0;
    h03_[ism-1] = 0;
    h04_[ism-1] = 0;
    h05_[ism-1] = 0;
    h06_[ism-1] = 0;
    h07_[ism-1] = 0;
    h08_[ism-1] = 0;

    h09_[ism-1] = 0;
    h10_[ism-1] = 0;
    h11_[ism-1] = 0;
    h12_[ism-1] = 0;

    hs01_[ism-1] = 0;
    hs02_[ism-1] = 0;
    hs03_[ism-1] = 0;
    hs04_[ism-1] = 0;

    i01_[ism-1] = 0;
    i02_[ism-1] = 0;
    i03_[ism-1] = 0;
    i04_[ism-1] = 0;
    i05_[ism-1] = 0;
    i06_[ism-1] = 0;
    i07_[ism-1] = 0;
    i08_[ism-1] = 0;

    i09_[ism-1] = 0;
    i10_[ism-1] = 0;
    i11_[ism-1] = 0;
    i12_[ism-1] = 0;
    i13_[ism-1] = 0;
    i14_[ism-1] = 0;
    i15_[ism-1] = 0;
    i16_[ism-1] = 0;

  }

  for ( unsigned int i=0; i<superModules_.size(); i++ ) {

    int ism = superModules_[i];

    dqmStore_->setCurrentFolder( prefixME_ + "/EBLaserClient" );

    if ( meg01_[ism-1] ) dqmStore_->removeElement( meg01_[ism-1]->getName() );
    meg01_[ism-1] = 0;
    if ( meg02_[ism-1] ) dqmStore_->removeElement( meg02_[ism-1]->getName() );
    meg02_[ism-1] = 0;
    if ( meg03_[ism-1] ) dqmStore_->removeElement( meg03_[ism-1]->getName() );
    meg03_[ism-1] = 0;
    if ( meg04_[ism-1] ) dqmStore_->removeElement( meg04_[ism-1]->getName() );
    meg04_[ism-1] = 0;

    if ( meg05_[ism-1] ) dqmStore_->removeElement( meg05_[ism-1]->getName() );
    meg05_[ism-1] = 0;
    if ( meg06_[ism-1] ) dqmStore_->removeElement( meg06_[ism-1]->getName() );
    meg06_[ism-1] = 0;
    if ( meg07_[ism-1] ) dqmStore_->removeElement( meg07_[ism-1]->getName() );
    meg07_[ism-1] = 0;
    if ( meg08_[ism-1] ) dqmStore_->removeElement( meg08_[ism-1]->getName() );
    meg08_[ism-1] = 0;
    if ( meg09_[ism-1] ) dqmStore_->removeElement( meg09_[ism-1]->getName() );
    meg09_[ism-1] = 0;
    if ( meg10_[ism-1] ) dqmStore_->removeElement( meg10_[ism-1]->getName() );
    meg10_[ism-1] = 0;
    if ( meg11_[ism-1] ) dqmStore_->removeElement( meg11_[ism-1]->getName() );
    meg11_[ism-1] = 0;
    if ( meg12_[ism-1] ) dqmStore_->removeElement( meg12_[ism-1]->getName() );
    meg12_[ism-1] = 0;

    if ( mea01_[ism-1] ) dqmStore_->removeElement( mea01_[ism-1]->getName() );
    mea01_[ism-1] = 0;
    if ( mea02_[ism-1] ) dqmStore_->removeElement( mea02_[ism-1]->getName() );
    mea02_[ism-1] = 0;
    if ( mea03_[ism-1] ) dqmStore_->removeElement( mea03_[ism-1]->getName() );
    mea03_[ism-1] = 0;
    if ( mea04_[ism-1] ) dqmStore_->removeElement( mea04_[ism-1]->getName() );
    mea04_[ism-1] = 0;

    if ( met01_[ism-1] ) dqmStore_->removeElement( met01_[ism-1]->getName() );
    met01_[ism-1] = 0;
    if ( met02_[ism-1] ) dqmStore_->removeElement( met02_[ism-1]->getName() );
    met02_[ism-1] = 0;
    if ( met03_[ism-1] ) dqmStore_->removeElement( met03_[ism-1]->getName() );
    met03_[ism-1] = 0;
    if ( met04_[ism-1] ) dqmStore_->removeElement( met04_[ism-1]->getName() );
    met04_[ism-1] = 0;

    if ( metav01_[ism-1] ) dqmStore_->removeElement( metav01_[ism-1]->getName() );
    metav01_[ism-1] = 0;
    if ( metav02_[ism-1] ) dqmStore_->removeElement( metav02_[ism-1]->getName() );
    metav02_[ism-1] = 0;
    if ( metav03_[ism-1] ) dqmStore_->removeElement( metav03_[ism-1]->getName() );
    metav03_[ism-1] = 0;
    if ( metav04_[ism-1] ) dqmStore_->removeElement( metav04_[ism-1]->getName() );
    metav04_[ism-1] = 0;

    if ( metrms01_[ism-1] ) dqmStore_->removeElement( metrms01_[ism-1]->getName() );
    metrms01_[ism-1] = 0;
    if ( metrms02_[ism-1] ) dqmStore_->removeElement( metrms02_[ism-1]->getName() );
    metrms02_[ism-1] = 0;
    if ( metrms03_[ism-1] ) dqmStore_->removeElement( metrms03_[ism-1]->getName() );
    metrms03_[ism-1] = 0;
    if ( metrms04_[ism-1] ) dqmStore_->removeElement( metrms04_[ism-1]->getName() );
    metrms04_[ism-1] = 0;

    if ( meaopn01_[ism-1] ) dqmStore_->removeElement( meaopn01_[ism-1]->getName() );
    meaopn01_[ism-1] = 0;
    if ( meaopn02_[ism-1] ) dqmStore_->removeElement( meaopn02_[ism-1]->getName() );
    meaopn02_[ism-1] = 0;
    if ( meaopn03_[ism-1] ) dqmStore_->removeElement( meaopn03_[ism-1]->getName() );
    meaopn03_[ism-1] = 0;
    if ( meaopn04_[ism-1] ) dqmStore_->removeElement( meaopn04_[ism-1]->getName() );
    meaopn04_[ism-1] = 0;

    if ( mepnprms01_[ism-1] ) dqmStore_->removeElement( mepnprms01_[ism-1]->getName() );
    mepnprms01_[ism-1] = 0;
    if ( mepnprms02_[ism-1] ) dqmStore_->removeElement( mepnprms02_[ism-1]->getName() );
    mepnprms02_[ism-1] = 0;
    if ( mepnprms03_[ism-1] ) dqmStore_->removeElement( mepnprms03_[ism-1]->getName() );
    mepnprms03_[ism-1] = 0;
    if ( mepnprms04_[ism-1] ) dqmStore_->removeElement( mepnprms04_[ism-1]->getName() );
    mepnprms04_[ism-1] = 0;
    if ( mepnprms05_[ism-1] ) dqmStore_->removeElement( mepnprms05_[ism-1]->getName() );
    mepnprms05_[ism-1] = 0;
    if ( mepnprms06_[ism-1] ) dqmStore_->removeElement( mepnprms06_[ism-1]->getName() );
    mepnprms06_[ism-1] = 0;
    if ( mepnprms07_[ism-1] ) dqmStore_->removeElement( mepnprms07_[ism-1]->getName() );
    mepnprms07_[ism-1] = 0;
    if ( mepnprms08_[ism-1] ) dqmStore_->removeElement( mepnprms08_[ism-1]->getName() );
    mepnprms08_[ism-1] = 0;

    if ( me_hs01_[ism-1] ) dqmStore_->removeElement( me_hs01_[ism-1]->getName() );
    me_hs01_[ism-1] = 0;
    if ( me_hs02_[ism-1] ) dqmStore_->removeElement( me_hs02_[ism-1]->getName() );
    me_hs02_[ism-1] = 0;
    if ( me_hs03_[ism-1] ) dqmStore_->removeElement( me_hs03_[ism-1]->getName() );
    me_hs03_[ism-1] = 0;
    if ( me_hs04_[ism-1] ) dqmStore_->removeElement( me_hs04_[ism-1]->getName() );
    me_hs04_[ism-1] = 0;

  }

}

void EBLaserClient::endJob

(

void

)

[virtual]

EndJob.

Implements EBClient.

Definition at line 230 of file EBLaserClient.cc.

References cleanup(), gather_cfg::cout, debug_, and ievt_.

                               {

  if ( debug_ ) std::cout << "EBLaserClient: endJob, ievt = " << ievt_ << std::endl;

  this->cleanup();

}

void EBLaserClient::endRun

(

void

)

[virtual]

EndRun.

Implements EBClient.

Definition at line 238 of file EBLaserClient.cc.

References cleanup(), gather_cfg::cout, debug_, and jevt_.

                               {

  if ( debug_ ) std::cout << "EBLaserClient: endRun, jevt = " << jevt_ << std::endl;

  this->cleanup();

}

int EBLaserClient::getEvtPerJob

(

void

)

[inline, virtual]

Get Functions.

Implements EBClient.

Definition at line 71 of file EBLaserClient.h.

References ievt_.

{ return ievt_; }

int EBLaserClient::getEvtPerRun

(

void

)

[inline, virtual]

Returns the number of processed events in this Run.

Implements EBClient.

Definition at line 72 of file EBLaserClient.h.

References jevt_.

{ return jevt_; }

void EBLaserClient::setup

(

void

)

[virtual]

Setup.

Implements EBClient.

Definition at line 246 of file EBLaserClient.cc.

References DQMStore::book1D(), DQMStore::book2D(), dqmStore_, spr::find(), edm::getName(), i, ecalpyutils::ism(), laserWavelengths_, me_hs01_, me_hs02_, me_hs03_, me_hs04_, mea01_, mea02_, mea03_, mea04_, meaopn01_, meaopn02_, meaopn03_, meaopn04_, meg01_, meg02_, meg03_, meg04_, meg05_, meg06_, meg07_, meg08_, meg09_, meg10_, meg11_, meg12_, mepnprms01_, mepnprms02_, mepnprms03_, mepnprms04_, mepnprms05_, mepnprms06_, mepnprms07_, mepnprms08_, met01_, met02_, met03_, met04_, metav01_, metav02_, metav03_, metav04_, metrms01_, metrms02_, metrms03_, metrms04_, mergeVDriftHistosByStation::name, prefixME_, DQMStore::removeElement(), MonitorElement::Reset(), Numbers::sEB(), MonitorElement::setAxisTitle(), MonitorElement::setBinContent(), DQMStore::setCurrentFolder(), and superModules_.

Referenced by beginRun().

                              {

  std::string name;

  dqmStore_->setCurrentFolder( prefixME_ + "/EBLaserClient" );

  for ( unsigned int i=0; i<superModules_.size(); i++ ) {

    int ism = superModules_[i];

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( meg01_[ism-1] ) dqmStore_->removeElement( meg01_[ism-1]->getName() );
      name = "EBLT laser quality L1 " + Numbers::sEB(ism);
      meg01_[ism-1] = dqmStore_->book2D(name, name, 85, 0., 85., 20, 0., 20.);
      meg01_[ism-1]->setAxisTitle("ieta", 1);
      meg01_[ism-1]->setAxisTitle("iphi", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( meg02_[ism-1] ) dqmStore_->removeElement( meg02_[ism-1]->getName() );
      name = "EBLT laser quality L2 " + Numbers::sEB(ism);
      meg02_[ism-1] = dqmStore_->book2D(name, name, 85, 0., 85., 20, 0., 20.);
      meg02_[ism-1]->setAxisTitle("ieta", 1);
      meg02_[ism-1]->setAxisTitle("iphi", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( meg03_[ism-1] ) dqmStore_->removeElement( meg03_[ism-1]->getName() );
      name = "EBLT laser quality L3 " + Numbers::sEB(ism);
      meg03_[ism-1] = dqmStore_->book2D(name, name, 85, 0., 85., 20, 0., 20.);
      meg03_[ism-1]->setAxisTitle("ieta", 1);
      meg03_[ism-1]->setAxisTitle("iphi", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( meg04_[ism-1] ) dqmStore_->removeElement( meg04_[ism-1]->getName() );
      name = "EBLT laser quality L4 " + Numbers::sEB(ism);
      meg04_[ism-1] = dqmStore_->book2D(name, name, 85, 0., 85., 20, 0., 20.);
      meg04_[ism-1]->setAxisTitle("ieta", 1);
      meg04_[ism-1]->setAxisTitle("iphi", 2);
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( meg05_[ism-1] ) dqmStore_->removeElement( meg05_[ism-1]->getName() );
      name = "EBLT laser quality L1 PNs G01 " + Numbers::sEB(ism);
      meg05_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg05_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg05_[ism-1]->setAxisTitle("channel", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( meg06_[ism-1] ) dqmStore_->removeElement( meg06_[ism-1]->getName() );
      name = "EBLT laser quality L2 PNs G01 " + Numbers::sEB(ism);
      meg06_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg06_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg06_[ism-1]->setAxisTitle("channel", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( meg07_[ism-1] ) dqmStore_->removeElement( meg07_[ism-1]->getName() );
      name = "EBLT laser quality L3 PNs G01 " + Numbers::sEB(ism);
      meg07_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg07_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg07_[ism-1]->setAxisTitle("channel", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( meg08_[ism-1] ) dqmStore_->removeElement( meg08_[ism-1]->getName() );
      name = "EBLT laser quality L4 PNs G01 " + Numbers::sEB(ism);
      meg08_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg08_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg08_[ism-1]->setAxisTitle("channel", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( meg09_[ism-1] ) dqmStore_->removeElement( meg09_[ism-1]->getName() );
      name = "EBLT laser quality L1 PNs G16 " + Numbers::sEB(ism);
      meg09_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg09_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg09_[ism-1]->setAxisTitle("channel", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( meg10_[ism-1] ) dqmStore_->removeElement( meg10_[ism-1]->getName() );
      name = "EBLT laser quality L2 PNs G16 " + Numbers::sEB(ism);
      meg10_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg10_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg10_[ism-1]->setAxisTitle("channel", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( meg11_[ism-1] ) dqmStore_->removeElement( meg11_[ism-1]->getName() );
      name = "EBLT laser quality L3 PNs G16 " + Numbers::sEB(ism);
      meg11_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg11_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg11_[ism-1]->setAxisTitle("channel", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( meg12_[ism-1] ) dqmStore_->removeElement( meg12_[ism-1]->getName() );
      name = "EBLT laser quality L4 PNs G16 " + Numbers::sEB(ism);
      meg12_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 1, 0., 5.);
      meg12_[ism-1]->setAxisTitle("pseudo-strip", 1);
      meg12_[ism-1]->setAxisTitle("channel", 2);
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( mea01_[ism-1] ) dqmStore_->removeElement( mea01_[ism-1]->getName() );;
      name = "EBLT amplitude L1 " + Numbers::sEB(ism);
      mea01_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      mea01_[ism-1]->setAxisTitle("channel", 1);
      mea01_[ism-1]->setAxisTitle("amplitude", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( mea02_[ism-1] ) dqmStore_->removeElement( mea02_[ism-1]->getName() );
      name = "EBLT amplitude L2 " + Numbers::sEB(ism);
      mea02_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      mea02_[ism-1]->setAxisTitle("channel", 1);
      mea02_[ism-1]->setAxisTitle("amplitude", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( mea03_[ism-1] ) dqmStore_->removeElement( mea03_[ism-1]->getName() );
      name = "EBLT amplitude L3 " + Numbers::sEB(ism);
      mea03_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      mea03_[ism-1]->setAxisTitle("channel", 1);
      mea03_[ism-1]->setAxisTitle("amplitude", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( mea04_[ism-1] ) dqmStore_->removeElement( mea04_[ism-1]->getName() );
      name = "EBLT amplitude L4 " + Numbers::sEB(ism);
      mea04_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      mea04_[ism-1]->setAxisTitle("channel", 1);
      mea04_[ism-1]->setAxisTitle("amplitude", 2);
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( met01_[ism-1] ) dqmStore_->removeElement( met01_[ism-1]->getName() );
      name = "EBLT laser timing L1 " + Numbers::sEB(ism);
      met01_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      met01_[ism-1]->setAxisTitle("channel", 1);
      met01_[ism-1]->setAxisTitle("jitter", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( met02_[ism-1] ) dqmStore_->removeElement( met02_[ism-1]->getName() );
      name = "EBLT laser timing L2 " + Numbers::sEB(ism);
      met02_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      met02_[ism-1]->setAxisTitle("channel", 1);
      met02_[ism-1]->setAxisTitle("jitter", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( met03_[ism-1] ) dqmStore_->removeElement( met03_[ism-1]->getName() );
      name = "EBLT laser timing L3 " + Numbers::sEB(ism);
      met03_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      met03_[ism-1]->setAxisTitle("channel", 1);
      met03_[ism-1]->setAxisTitle("jitter", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( met04_[ism-1] ) dqmStore_->removeElement( met04_[ism-1]->getName() );
      name = "EBLT laser timing L4 " + Numbers::sEB(ism);
      met04_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      met04_[ism-1]->setAxisTitle("channel", 1);
      met04_[ism-1]->setAxisTitle("jitter", 2);
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( metav01_[ism-1] ) dqmStore_->removeElement( metav01_[ism-1]->getName() );
      name = "EBLT laser timing mean L1 " + Numbers::sEB(ism);
      metav01_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      metav01_[ism-1]->setAxisTitle("mean", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( metav02_[ism-1] ) dqmStore_->removeElement( metav02_[ism-1]->getName() );
      name = "EBLT laser timing mean L2 " + Numbers::sEB(ism);
      metav02_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      metav02_[ism-1]->setAxisTitle("mean", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( metav03_[ism-1] ) dqmStore_->removeElement( metav03_[ism-1]->getName() );
      name = "EBLT laser timing mean L3 " + Numbers::sEB(ism);
      metav03_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      metav03_[ism-1]->setAxisTitle("mean", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( metav04_[ism-1] ) dqmStore_->removeElement( metav04_[ism-1]->getName() );
      name = "EBLT laser timing mean L4 " + Numbers::sEB(ism);
      metav04_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      metav04_[ism-1]->setAxisTitle("mean", 1);
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( metrms01_[ism-1] ) dqmStore_->removeElement( metrms01_[ism-1]->getName() );
      name = "EBLT laser timing rms L1 " + Numbers::sEB(ism);
      metrms01_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 0.5);
      metrms01_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( metrms02_[ism-1] ) dqmStore_->removeElement( metrms02_[ism-1]->getName() );
      name = "EBLT laser timing rms L2 " + Numbers::sEB(ism);
      metrms02_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 0.5);
      metrms02_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( metrms03_[ism-1] ) dqmStore_->removeElement( metrms03_[ism-1]->getName() );
      name = "EBLT laser timing rms L3 " + Numbers::sEB(ism);
      metrms03_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 0.5);
      metrms03_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( metrms04_[ism-1] ) dqmStore_->removeElement( metrms04_[ism-1]->getName() );
      name = "EBLT laser timing rms L4 " + Numbers::sEB(ism);
      metrms04_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 0.5);
      metrms04_[ism-1]->setAxisTitle("rms", 1);
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( meaopn01_[ism-1] ) dqmStore_->removeElement( meaopn01_[ism-1]->getName() );
      name = "EBLT amplitude over PN L1 " + Numbers::sEB(ism);
      meaopn01_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      meaopn01_[ism-1]->setAxisTitle("channel", 1);
      meaopn01_[ism-1]->setAxisTitle("amplitude/PN", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( meaopn02_[ism-1] ) dqmStore_->removeElement( meaopn02_[ism-1]->getName() );
      name = "EBLT amplitude over PN L2 " + Numbers::sEB(ism);
      meaopn02_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      meaopn02_[ism-1]->setAxisTitle("channel", 1);
      meaopn02_[ism-1]->setAxisTitle("amplitude/PN", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( meaopn03_[ism-1] ) dqmStore_->removeElement( meaopn03_[ism-1]->getName() );
      name = "EBLT amplitude over PN L3 " + Numbers::sEB(ism);
      meaopn03_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      meaopn03_[ism-1]->setAxisTitle("channel", 1);
      meaopn03_[ism-1]->setAxisTitle("amplitude/PN", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( meaopn04_[ism-1] ) dqmStore_->removeElement( meaopn04_[ism-1]->getName() );
      name = "EBLT amplitude over PN L4 " + Numbers::sEB(ism);
      meaopn04_[ism-1] = dqmStore_->book1D(name, name, 1700, 0., 1700.);
      meaopn04_[ism-1]->setAxisTitle("channel", 1);
      meaopn04_[ism-1]->setAxisTitle("amplitude/PN", 2);
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( mepnprms01_[ism-1] ) dqmStore_->removeElement( mepnprms01_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G01 L1"; 
      mepnprms01_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms01_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( mepnprms02_[ism-1] ) dqmStore_->removeElement( mepnprms02_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G01 L2";
      mepnprms02_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms02_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( mepnprms03_[ism-1] ) dqmStore_->removeElement( mepnprms03_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G01 L3";
      mepnprms03_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms03_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( mepnprms04_[ism-1] ) dqmStore_->removeElement( mepnprms04_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G01 L4";
      mepnprms04_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms04_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( mepnprms05_[ism-1] ) dqmStore_->removeElement( mepnprms05_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G16 L1";
      mepnprms05_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms05_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( mepnprms06_[ism-1] ) dqmStore_->removeElement( mepnprms06_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G16 L2";
      mepnprms06_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms06_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( mepnprms07_[ism-1] ) dqmStore_->removeElement( mepnprms07_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G16 L3";
      mepnprms07_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms07_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( mepnprms08_[ism-1] ) dqmStore_->removeElement( mepnprms08_[ism-1]->getName() );
      name = "EBLT PNs pedestal rms " + Numbers::sEB(ism) + " G16 L4";
      mepnprms08_[ism-1] = dqmStore_->book1D(name, name, 100, 0., 10.);
      mepnprms08_[ism-1]->setAxisTitle("rms", 1);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( me_hs01_[ism-1] ) dqmStore_->removeElement( me_hs01_[ism-1]->getName() );
      name = "EBLT laser shape L1 " + Numbers::sEB(ism);
      me_hs01_[ism-1] = dqmStore_->book1D(name, name, 10, 0., 10.);
      me_hs01_[ism-1]->setAxisTitle("sample", 1);
      me_hs01_[ism-1]->setAxisTitle("amplitude", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( me_hs02_[ism-1] ) dqmStore_->removeElement( me_hs02_[ism-1]->getName() );
      name = "EBLT laser shape L2 " + Numbers::sEB(ism);
      me_hs02_[ism-1] = dqmStore_->book1D(name, name, 10, 0., 10.);
      me_hs02_[ism-1]->setAxisTitle("sample", 1);
      me_hs02_[ism-1]->setAxisTitle("amplitude", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( me_hs03_[ism-1] ) dqmStore_->removeElement( me_hs03_[ism-1]->getName() );
      name = "EBLT laser shape L3 " + Numbers::sEB(ism);
      me_hs03_[ism-1] = dqmStore_->book1D(name, name, 10, 0., 10.);
      me_hs03_[ism-1]->setAxisTitle("sample", 1);
      me_hs03_[ism-1]->setAxisTitle("amplitude", 2);
    }
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( me_hs04_[ism-1] ) dqmStore_->removeElement( me_hs04_[ism-1]->getName() );
      name = "EBLT laser shape L4 " + Numbers::sEB(ism);
      me_hs04_[ism-1] = dqmStore_->book1D(name, name, 10, 0., 10.);
      me_hs04_[ism-1]->setAxisTitle("sample", 1);
      me_hs04_[ism-1]->setAxisTitle("amplitude", 2);
    }

  }

  for ( unsigned int i=0; i<superModules_.size(); i++ ) {

    int ism = superModules_[i];

    if ( meg01_[ism-1] ) meg01_[ism-1]->Reset();
    if ( meg02_[ism-1] ) meg02_[ism-1]->Reset();
    if ( meg03_[ism-1] ) meg03_[ism-1]->Reset();
    if ( meg04_[ism-1] ) meg04_[ism-1]->Reset();

    if ( meg05_[ism-1] ) meg05_[ism-1]->Reset();
    if ( meg06_[ism-1] ) meg06_[ism-1]->Reset();
    if ( meg07_[ism-1] ) meg07_[ism-1]->Reset();
    if ( meg08_[ism-1] ) meg08_[ism-1]->Reset();
    if ( meg09_[ism-1] ) meg09_[ism-1]->Reset();
    if ( meg10_[ism-1] ) meg10_[ism-1]->Reset();
    if ( meg11_[ism-1] ) meg11_[ism-1]->Reset();
    if ( meg12_[ism-1] ) meg12_[ism-1]->Reset();

    for ( int ie = 1; ie <= 85; ie++ ) {
      for ( int ip = 1; ip <= 20; ip++ ) {

        if ( meg01_[ism-1] ) meg01_[ism-1]->setBinContent( ie, ip, 2. );
        if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, 2. );
        if ( meg03_[ism-1] ) meg03_[ism-1]->setBinContent( ie, ip, 2. );
        if ( meg04_[ism-1] ) meg04_[ism-1]->setBinContent( ie, ip, 2. );

      }
    }

    for ( int i = 1; i <= 10; i++ ) {

        if ( meg05_[ism-1] ) meg05_[ism-1]->setBinContent( i, 1, 2. );
        if ( meg06_[ism-1] ) meg06_[ism-1]->setBinContent( i, 1, 2. );
        if ( meg07_[ism-1] ) meg07_[ism-1]->setBinContent( i, 1, 2. );
        if ( meg08_[ism-1] ) meg08_[ism-1]->setBinContent( i, 1, 2. );
        if ( meg09_[ism-1] ) meg09_[ism-1]->setBinContent( i, 1, 2. );
        if ( meg10_[ism-1] ) meg10_[ism-1]->setBinContent( i, 1, 2. );
        if ( meg11_[ism-1] ) meg11_[ism-1]->setBinContent( i, 1, 2. );
        if ( meg12_[ism-1] ) meg12_[ism-1]->setBinContent( i, 1, 2. );

    }

    if ( mea01_[ism-1] ) mea01_[ism-1]->Reset();
    if ( mea02_[ism-1] ) mea02_[ism-1]->Reset();
    if ( mea03_[ism-1] ) mea03_[ism-1]->Reset();
    if ( mea04_[ism-1] ) mea04_[ism-1]->Reset();

    if ( met01_[ism-1] ) met01_[ism-1]->Reset();
    if ( met02_[ism-1] ) met02_[ism-1]->Reset();
    if ( met03_[ism-1] ) met03_[ism-1]->Reset();
    if ( met04_[ism-1] ) met04_[ism-1]->Reset();

    if ( metav01_[ism-1] ) metav01_[ism-1]->Reset();
    if ( metav02_[ism-1] ) metav02_[ism-1]->Reset();
    if ( metav03_[ism-1] ) metav03_[ism-1]->Reset();
    if ( metav04_[ism-1] ) metav04_[ism-1]->Reset();

    if ( metrms01_[ism-1] ) metrms01_[ism-1]->Reset();
    if ( metrms02_[ism-1] ) metrms02_[ism-1]->Reset();
    if ( metrms03_[ism-1] ) metrms03_[ism-1]->Reset();
    if ( metrms04_[ism-1] ) metrms04_[ism-1]->Reset();

    if ( meaopn01_[ism-1] ) meaopn01_[ism-1]->Reset();
    if ( meaopn02_[ism-1] ) meaopn02_[ism-1]->Reset();
    if ( meaopn03_[ism-1] ) meaopn03_[ism-1]->Reset();
    if ( meaopn04_[ism-1] ) meaopn04_[ism-1]->Reset();

    if ( mepnprms01_[ism-1] ) mepnprms01_[ism-1]->Reset();
    if ( mepnprms02_[ism-1] ) mepnprms02_[ism-1]->Reset();
    if ( mepnprms03_[ism-1] ) mepnprms03_[ism-1]->Reset();
    if ( mepnprms04_[ism-1] ) mepnprms04_[ism-1]->Reset();
    if ( mepnprms05_[ism-1] ) mepnprms01_[ism-1]->Reset();
    if ( mepnprms06_[ism-1] ) mepnprms02_[ism-1]->Reset();
    if ( mepnprms07_[ism-1] ) mepnprms03_[ism-1]->Reset();
    if ( mepnprms08_[ism-1] ) mepnprms04_[ism-1]->Reset();

    if ( me_hs01_[ism-1] ) me_hs01_[ism-1]->Reset();
    if ( me_hs02_[ism-1] ) me_hs02_[ism-1]->Reset();
    if ( me_hs03_[ism-1] ) me_hs03_[ism-1]->Reset();
    if ( me_hs04_[ism-1] ) me_hs04_[ism-1]->Reset();

  }

}

---

Friends And Related Function Documentation

friend class EBSummaryClient [friend]

Definition at line 34 of file EBLaserClient.h.

---

Member Data Documentation

float EBLaserClient::amplitudeThreshold_ [private]

Definition at line 189 of file EBLaserClient.h.

Referenced by EBLaserClient().

float EBLaserClient::amplitudeThresholdPnG01_ [private]

Definition at line 194 of file EBLaserClient.h.

Referenced by analyze(), and EBLaserClient().

float EBLaserClient::amplitudeThresholdPnG16_ [private]

Definition at line 195 of file EBLaserClient.h.

Referenced by analyze(), and EBLaserClient().

bool EBLaserClient::cloneME_ [private]

Definition at line 79 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

bool EBLaserClient::debug_ [private]

Definition at line 82 of file EBLaserClient.h.

Referenced by analyze(), beginJob(), beginRun(), EBLaserClient(), endJob(), and endRun().

DQMStore* EBLaserClient::dqmStore_ [private]

Definition at line 91 of file EBLaserClient.h.

Referenced by analyze(), beginJob(), cleanup(), and setup().

bool EBLaserClient::enableCleanup_ [private]

Definition at line 86 of file EBLaserClient.h.

Referenced by cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h01_[36] [private]

Definition at line 93 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h02_[36] [private]

Definition at line 94 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h03_[36] [private]

Definition at line 95 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h04_[36] [private]

Definition at line 96 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h05_[36] [private]

Definition at line 97 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h06_[36] [private]

Definition at line 98 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h07_[36] [private]

Definition at line 99 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h08_[36] [private]

Definition at line 100 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h09_[36] [private]

Definition at line 102 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h10_[36] [private]

Definition at line 103 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h11_[36] [private]

Definition at line 104 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::h12_[36] [private]

Definition at line 105 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::hs01_[36] [private]

Definition at line 107 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::hs02_[36] [private]

Definition at line 108 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::hs03_[36] [private]

Definition at line 109 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile2D* EBLaserClient::hs04_[36] [private]

Definition at line 110 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i01_[36] [private]

Definition at line 169 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i02_[36] [private]

Definition at line 170 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i03_[36] [private]

Definition at line 171 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i04_[36] [private]

Definition at line 172 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i05_[36] [private]

Definition at line 173 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i06_[36] [private]

Definition at line 174 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i07_[36] [private]

Definition at line 175 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i08_[36] [private]

Definition at line 176 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i09_[36] [private]

Definition at line 177 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i10_[36] [private]

Definition at line 178 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i11_[36] [private]

Definition at line 179 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i12_[36] [private]

Definition at line 180 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i13_[36] [private]

Definition at line 181 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i14_[36] [private]

Definition at line 182 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i15_[36] [private]

Definition at line 183 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

TProfile* EBLaserClient::i16_[36] [private]

Definition at line 184 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), and EBLaserClient().

int EBLaserClient::ievt_ [private]

Definition at line 76 of file EBLaserClient.h.

Referenced by analyze(), beginJob(), endJob(), and getEvtPerJob().

int EBLaserClient::jevt_ [private]

Definition at line 77 of file EBLaserClient.h.

Referenced by analyze(), beginJob(), beginRun(), endRun(), and getEvtPerRun().

std::vector<int> EBLaserClient::laserWavelengths_ [private]

Definition at line 89 of file EBLaserClient.h.

Referenced by analyze(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::me_hs01_[36] [private]

Definition at line 160 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::me_hs02_[36] [private]

Definition at line 161 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::me_hs03_[36] [private]

Definition at line 162 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::me_hs04_[36] [private]

Definition at line 163 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::me_hs05_[36] [private]

Definition at line 164 of file EBLaserClient.h.

MonitorElement* EBLaserClient::me_hs06_[36] [private]

Definition at line 165 of file EBLaserClient.h.

MonitorElement* EBLaserClient::me_hs07_[36] [private]

Definition at line 166 of file EBLaserClient.h.

MonitorElement* EBLaserClient::me_hs08_[36] [private]

Definition at line 167 of file EBLaserClient.h.

MonitorElement* EBLaserClient::mea01_[36] [private]

Definition at line 126 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mea02_[36] [private]

Definition at line 127 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mea03_[36] [private]

Definition at line 128 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mea04_[36] [private]

Definition at line 129 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meaopn01_[36] [private]

Definition at line 146 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meaopn02_[36] [private]

Definition at line 147 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meaopn03_[36] [private]

Definition at line 148 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meaopn04_[36] [private]

Definition at line 149 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg01_[36] [private]

Definition at line 112 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg02_[36] [private]

Definition at line 113 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg03_[36] [private]

Definition at line 114 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg04_[36] [private]

Definition at line 115 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg05_[36] [private]

Definition at line 117 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg06_[36] [private]

Definition at line 118 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg07_[36] [private]

Definition at line 119 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg08_[36] [private]

Definition at line 120 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg09_[36] [private]

Definition at line 121 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg10_[36] [private]

Definition at line 122 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg11_[36] [private]

Definition at line 123 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::meg12_[36] [private]

Definition at line 124 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms01_[36] [private]

Definition at line 151 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms02_[36] [private]

Definition at line 152 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms03_[36] [private]

Definition at line 153 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms04_[36] [private]

Definition at line 154 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms05_[36] [private]

Definition at line 155 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms06_[36] [private]

Definition at line 156 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms07_[36] [private]

Definition at line 157 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::mepnprms08_[36] [private]

Definition at line 158 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::met01_[36] [private]

Definition at line 131 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::met02_[36] [private]

Definition at line 132 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::met03_[36] [private]

Definition at line 133 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::met04_[36] [private]

Definition at line 134 of file EBLaserClient.h.

Referenced by EBSummaryClient::analyze(), analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metav01_[36] [private]

Definition at line 136 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metav02_[36] [private]

Definition at line 137 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metav03_[36] [private]

Definition at line 138 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metav04_[36] [private]

Definition at line 139 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metrms01_[36] [private]

Definition at line 141 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metrms02_[36] [private]

Definition at line 142 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metrms03_[36] [private]

Definition at line 143 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

MonitorElement* EBLaserClient::metrms04_[36] [private]

Definition at line 144 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

float EBLaserClient::pedPnDiscrepancyMean_[2] [private]

Definition at line 197 of file EBLaserClient.h.

Referenced by analyze(), and EBLaserClient().

float EBLaserClient::pedPnExpectedMean_[2] [private]

Definition at line 196 of file EBLaserClient.h.

Referenced by analyze(), and EBLaserClient().

float EBLaserClient::pedPnRMSThreshold_[2] [private]

Definition at line 198 of file EBLaserClient.h.

Referenced by analyze(), and EBLaserClient().

float EBLaserClient::percentVariation_ [private]

Definition at line 188 of file EBLaserClient.h.

Referenced by analyze(), and EBLaserClient().

std::string EBLaserClient::prefixME_ [private]

Definition at line 84 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

float EBLaserClient::rmsThresholdRelative_ [private]

Definition at line 190 of file EBLaserClient.h.

Referenced by analyze(), and EBLaserClient().

std::vector<int> EBLaserClient::superModules_ [private]

Definition at line 88 of file EBLaserClient.h.

Referenced by analyze(), cleanup(), EBLaserClient(), and setup().

bool EBLaserClient::verbose_ [private]

Definition at line 81 of file EBLaserClient.h.

Referenced by EBLaserClient().