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Public Member Functions | Protected Member Functions | Private Attributes

EELaserTask Class Reference

#include <EELaserTask.h>

Inheritance diagram for EELaserTask:
edm::EDAnalyzer

List of all members.

Public Member Functions

 EELaserTask (const edm::ParameterSet &ps)
 Constructor.
virtual ~EELaserTask ()
 Destructor.

Protected Member Functions

void analyze (const edm::Event &e, const edm::EventSetup &c)
 Analyze.
void beginJob (void)
 BeginJob.
void beginRun (const edm::Run &r, const edm::EventSetup &c)
 BeginRun.
void cleanup (void)
 Cleanup.
void endJob (void)
 EndJob.
void endRun (const edm::Run &r, const edm::EventSetup &c)
 EndRun.
void reset (void)
 Reset.
void setup (void)
 Setup.

Private Attributes

DQMStoredqmStore_
edm::InputTag EcalPnDiodeDigiCollection_
edm::InputTag EcalRawDataCollection_
edm::InputTag EcalUncalibratedRecHitCollection_
edm::InputTag EEDigiCollection_
bool enableCleanup_
int ievt_
bool init_
std::vector< int > laserWavelengths_
MonitorElementmeAmplMapL1_ [18]
MonitorElementmeAmplMapL2_ [18]
MonitorElementmeAmplMapL3_ [18]
MonitorElementmeAmplMapL4_ [18]
MonitorElementmeAmplPNMapL1_ [18]
MonitorElementmeAmplPNMapL2_ [18]
MonitorElementmeAmplPNMapL3_ [18]
MonitorElementmeAmplPNMapL4_ [18]
MonitorElementmePnAmplMapG01L1_ [18]
MonitorElementmePnAmplMapG01L2_ [18]
MonitorElementmePnAmplMapG01L3_ [18]
MonitorElementmePnAmplMapG01L4_ [18]
MonitorElementmePnAmplMapG16L1_ [18]
MonitorElementmePnAmplMapG16L2_ [18]
MonitorElementmePnAmplMapG16L3_ [18]
MonitorElementmePnAmplMapG16L4_ [18]
MonitorElementmePnPedMapG01L1_ [18]
MonitorElementmePnPedMapG01L2_ [18]
MonitorElementmePnPedMapG01L3_ [18]
MonitorElementmePnPedMapG01L4_ [18]
MonitorElementmePnPedMapG16L1_ [18]
MonitorElementmePnPedMapG16L2_ [18]
MonitorElementmePnPedMapG16L3_ [18]
MonitorElementmePnPedMapG16L4_ [18]
bool mergeRuns_
MonitorElementmeShapeMapL1_ [18]
MonitorElementmeShapeMapL2_ [18]
MonitorElementmeShapeMapL3_ [18]
MonitorElementmeShapeMapL4_ [18]
MonitorElementmeTimeMapL1_ [18]
MonitorElementmeTimeMapL2_ [18]
MonitorElementmeTimeMapL3_ [18]
MonitorElementmeTimeMapL4_ [18]
std::string prefixME_

Detailed Description

Definition at line 20 of file EELaserTask.h.


Constructor & Destructor Documentation

EELaserTask::EELaserTask ( const edm::ParameterSet ps)

Constructor.

Definition at line 33 of file EELaserTask.cc.

References dqmStore_, EcalPnDiodeDigiCollection_, EcalRawDataCollection_, EcalUncalibratedRecHitCollection_, EEDigiCollection_, enableCleanup_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), i, init_, laserWavelengths_, meAmplMapL1_, meAmplMapL2_, meAmplMapL3_, meAmplMapL4_, meAmplPNMapL1_, meAmplPNMapL2_, meAmplPNMapL3_, meAmplPNMapL4_, mePnAmplMapG01L1_, mePnAmplMapG01L2_, mePnAmplMapG01L3_, mePnAmplMapG01L4_, mePnAmplMapG16L1_, mePnAmplMapG16L2_, mePnAmplMapG16L3_, mePnAmplMapG16L4_, mePnPedMapG01L1_, mePnPedMapG01L2_, mePnPedMapG01L3_, mePnPedMapG01L4_, mePnPedMapG16L1_, mePnPedMapG16L2_, mePnPedMapG16L3_, mePnPedMapG16L4_, mergeRuns_, meShapeMapL1_, meShapeMapL2_, meShapeMapL3_, meShapeMapL4_, meTimeMapL1_, meTimeMapL2_, meTimeMapL3_, meTimeMapL4_, cmsCodeRules::cppFunctionSkipper::operator, and prefixME_.

                                                 {

  init_ = false;

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

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

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

  mergeRuns_ = ps.getUntrackedParameter<bool>("mergeRuns", false);

  EcalRawDataCollection_ = ps.getParameter<edm::InputTag>("EcalRawDataCollection");
  EEDigiCollection_ = ps.getParameter<edm::InputTag>("EEDigiCollection");
  EcalPnDiodeDigiCollection_ = ps.getParameter<edm::InputTag>("EcalPnDiodeDigiCollection");
  EcalUncalibratedRecHitCollection_ = ps.getParameter<edm::InputTag>("EcalUncalibratedRecHitCollection");

  // vector of enabled wavelengths (Default to all 4)
  laserWavelengths_.reserve(4);
  for ( unsigned int i = 1; i <= 4; i++ ) laserWavelengths_.push_back(i);
  laserWavelengths_ = ps.getUntrackedParameter<std::vector<int> >("laserWavelengths", laserWavelengths_);

  for (int i = 0; i < 18; i++) {
    meShapeMapL1_[i] = 0;
    meAmplMapL1_[i] = 0;
    meTimeMapL1_[i] = 0;
    meAmplPNMapL1_[i] = 0;
    mePnAmplMapG01L1_[i] = 0;
    mePnPedMapG01L1_[i] = 0;
    mePnAmplMapG16L1_[i] = 0;
    mePnPedMapG16L1_[i] = 0;

    meShapeMapL2_[i] = 0;
    meAmplMapL2_[i] = 0;
    meTimeMapL2_[i] = 0;
    meAmplPNMapL2_[i] = 0;
    mePnAmplMapG01L2_[i] = 0;
    mePnPedMapG01L2_[i] = 0;
    mePnAmplMapG16L2_[i] = 0;
    mePnPedMapG16L2_[i] = 0;

    meShapeMapL3_[i] = 0;
    meAmplMapL3_[i] = 0;
    meTimeMapL3_[i] = 0;
    meAmplPNMapL3_[i] = 0;
    mePnAmplMapG01L3_[i] = 0;
    mePnPedMapG01L3_[i] = 0;
    mePnAmplMapG16L3_[i] = 0;
    mePnPedMapG16L3_[i] = 0;

    meShapeMapL4_[i] = 0;
    meAmplMapL4_[i] = 0;
    meTimeMapL4_[i] = 0;
    meAmplPNMapL4_[i] = 0;
    mePnAmplMapG01L4_[i] = 0;
    mePnPedMapG01L4_[i] = 0;
    mePnAmplMapG16L4_[i] = 0;
    mePnPedMapG16L4_[i] = 0;
  }

}
EELaserTask::~EELaserTask ( ) [virtual]

Destructor.

Definition at line 95 of file EELaserTask.cc.

                         {

}

Member Function Documentation

void EELaserTask::analyze ( const edm::Event e,
const edm::EventSetup c 
) [protected, virtual]

Analyze.

Implements edm::EDAnalyzer.

Definition at line 641 of file EELaserTask.cc.

References ecalMGPA::adc(), EcalMGPASample::adc(), EcalEndcap, EcalPnDiodeDigiCollection_, EcalRawDataCollection_, EcalUncalibratedRecHitCollection_, EEDigiCollection_, MonitorElement::Fill(), EcalMGPASample::gainId(), edm::Event::getByLabel(), NumbersPn::getPNs(), i, Numbers::icEE(), ievt_, init_, NumbersPn::ipnEE(), Numbers::iSM(), ecalpyutils::ism(), EEDetId::ix(), EcalDCCHeaderBlock::LASER_GAP, EcalDCCHeaderBlock::LASER_STD, LogDebug, meAmplMapL1_, meAmplMapL2_, meAmplMapL3_, meAmplMapL4_, meAmplPNMapL1_, meAmplPNMapL2_, meAmplPNMapL3_, meAmplPNMapL4_, mePnAmplMapG01L1_, mePnAmplMapG01L2_, mePnAmplMapG01L3_, mePnAmplMapG01L4_, mePnAmplMapG16L1_, mePnAmplMapG16L2_, mePnAmplMapG16L3_, mePnAmplMapG16L4_, mePnPedMapG01L1_, mePnPedMapG01L2_, mePnPedMapG01L3_, mePnPedMapG01L4_, mePnPedMapG16L1_, mePnPedMapG16L2_, mePnPedMapG16L3_, mePnPedMapG16L4_, meShapeMapL1_, meShapeMapL2_, meShapeMapL3_, meShapeMapL4_, meTimeMapL1_, meTimeMapL2_, meTimeMapL3_, meTimeMapL4_, Numbers::RtHalf(), ExpressReco_HICollisions_FallBack::runType, EcalDataFrame::sample(), setup(), and Numbers::subDet().

                                                                  {

  bool enable = false;
  int runType[18];
  for (int i=0; i<18; i++) runType[i] = -1;
  int rtHalf[18];
  for (int i=0; i<18; i++) rtHalf[i] = -1;
  int waveLength[18];
  for (int i=0; i<18; i++) waveLength[i] = -1;

  edm::Handle<EcalRawDataCollection> dcchs;

  if ( e.getByLabel(EcalRawDataCollection_, dcchs) ) {

    for ( EcalRawDataCollection::const_iterator dcchItr = dcchs->begin(); dcchItr != dcchs->end(); ++dcchItr ) {

      if ( Numbers::subDet( *dcchItr ) != EcalEndcap ) continue;

      int ism = Numbers::iSM( *dcchItr, EcalEndcap );

      runType[ism-1] = dcchItr->getRunType();
      rtHalf[ism-1] = dcchItr->getRtHalf();
      waveLength[ism-1] = dcchItr->getEventSettings().wavelength;

      if ( dcchItr->getRunType() == EcalDCCHeaderBlock::LASER_STD ||
           dcchItr->getRunType() == EcalDCCHeaderBlock::LASER_GAP ) enable = true;

    }

  } else {

    edm::LogWarning("EELaserTask") << EcalRawDataCollection_ << " not available";

  }

  if ( ! enable ) return;

  if ( ! init_ ) this->setup();

  ievt_++;

  bool numPN[80];
  float adcPN[80];
  for ( int i = 0; i < 80; i++ ) {
    numPN[i] = false;
    adcPN[i] = 0.;
  }

  std::vector<int> PNs;
  PNs.reserve(12);

  edm::Handle<EEDigiCollection> digis;

  if ( e.getByLabel(EEDigiCollection_, digis) ) {

    int need = digis->size();
    LogDebug("EELaserTask") << "event " << ievt_ << " digi collection size " << need;

    for ( EEDigiCollection::const_iterator digiItr = digis->begin(); digiItr != digis->end(); ++digiItr ) {

      EEDetId id = digiItr->id();

      int ix = id.ix();
      int iy = id.iy();

      int ism = Numbers::iSM( id );

      if ( ! ( runType[ism-1] == EcalDCCHeaderBlock::LASER_STD ||
               runType[ism-1] == EcalDCCHeaderBlock::LASER_GAP ) ) continue;

      if ( rtHalf[ism-1] != Numbers::RtHalf(id) ) continue;

      int ic = Numbers::icEE(ism, ix, iy);

      EEDataFrame dataframe = (*digiItr);

      for (int i = 0; i < 10; i++) {

        int adc = dataframe.sample(i).adc();
        float gain = 1.;

        MonitorElement* meShapeMap = 0;

        if ( dataframe.sample(i).gainId() == 1 ) gain = 1./12.;
        if ( dataframe.sample(i).gainId() == 2 ) gain = 1./ 6.;
        if ( dataframe.sample(i).gainId() == 3 ) gain = 1./ 1.;

        if ( rtHalf[ism-1] == 0 || rtHalf[ism-1] == 1 ) {

          if ( waveLength[ism-1] == 0 ) meShapeMap = meShapeMapL1_[ism-1];
          if ( waveLength[ism-1] == 1 ) meShapeMap = meShapeMapL2_[ism-1];
          if ( waveLength[ism-1] == 2 ) meShapeMap = meShapeMapL3_[ism-1];
          if ( waveLength[ism-1] == 3 ) meShapeMap = meShapeMapL4_[ism-1];

        } else {

          edm::LogWarning("EELaserTask") << " RtHalf = " << rtHalf[ism-1];

        }

//        float xval = float(adc) * gain;
        float xval = float(adc);

        if ( meShapeMap ) meShapeMap->Fill(ic - 0.5, i + 0.5, xval);

      }

      NumbersPn::getPNs( ism, ix, iy, PNs );

      for (unsigned int i=0; i<PNs.size(); i++) {
        int ipn = PNs[i];
        if ( ipn >= 0 && ipn < 80 ) numPN[ipn] = true;
      }

    }

  } else {

    edm::LogWarning("EELaserTask") << EEDigiCollection_ << " not available";

  }

  edm::Handle<EcalPnDiodeDigiCollection> pns;

  if ( e.getByLabel(EcalPnDiodeDigiCollection_, pns) ) {

    int nep = pns->size();
    LogDebug("EELaserTask") << "event " << ievt_ << " pns collection size " << nep;

    for ( EcalPnDiodeDigiCollection::const_iterator pnItr = pns->begin(); pnItr != pns->end(); ++pnItr ) {

      if ( Numbers::subDet( pnItr->id() ) != EcalEndcap ) continue;

      int ism = Numbers::iSM( pnItr->id() );

      int num = pnItr->id().iPnId();

      if ( ! ( runType[ism-1] == EcalDCCHeaderBlock::LASER_STD ||
               runType[ism-1] == EcalDCCHeaderBlock::LASER_GAP ) ) continue;

      int ipn = NumbersPn::ipnEE( ism, num );

      if ( ipn >= 0 && ipn < 80 && numPN[ipn] == false ) continue;

      float xvalped = 0.;

      for (int i = 0; i < 4; i++) {

        int adc = pnItr->sample(i).adc();

        MonitorElement* mePNPed = 0;

        if ( pnItr->sample(i).gainId() == 0 ) {
          if ( waveLength[ism-1] == 0 ) mePNPed = mePnPedMapG01L1_[ism-1];
          if ( waveLength[ism-1] == 1 ) mePNPed = mePnPedMapG01L2_[ism-1];
          if ( waveLength[ism-1] == 2 ) mePNPed = mePnPedMapG01L3_[ism-1];
          if ( waveLength[ism-1] == 3 ) mePNPed = mePnPedMapG01L4_[ism-1];
        }
        if ( pnItr->sample(i).gainId() == 1 ) {
          if ( waveLength[ism-1] == 0 ) mePNPed = mePnPedMapG16L1_[ism-1];
          if ( waveLength[ism-1] == 1 ) mePNPed = mePnPedMapG16L2_[ism-1];
          if ( waveLength[ism-1] == 2 ) mePNPed = mePnPedMapG16L3_[ism-1];
          if ( waveLength[ism-1] == 3 ) mePNPed = mePnPedMapG16L4_[ism-1];
        }

        float xval = float(adc);

        if ( mePNPed ) mePNPed->Fill(num - 0.5, xval);

        xvalped = xvalped + xval;

      }

      xvalped = xvalped / 4;

      float xvalmax = 0.;

      MonitorElement* mePN = 0;

      for (int i = 0; i < 50; i++) {

        int adc = pnItr->sample(i).adc();

        float xval = float(adc);

        if ( xval >= xvalmax ) xvalmax = xval;

      }

      xvalmax = xvalmax - xvalped;

      if ( pnItr->sample(0).gainId() == 0 ) {
        if ( waveLength[ism-1] == 0 ) mePN = mePnAmplMapG01L1_[ism-1];
        if ( waveLength[ism-1] == 1 ) mePN = mePnAmplMapG01L2_[ism-1];
        if ( waveLength[ism-1] == 2 ) mePN = mePnAmplMapG01L3_[ism-1];
        if ( waveLength[ism-1] == 3 ) mePN = mePnAmplMapG01L4_[ism-1];
      }
      if ( pnItr->sample(0).gainId() == 1 ) {
        if ( waveLength[ism-1] == 0 ) mePN = mePnAmplMapG16L1_[ism-1];
        if ( waveLength[ism-1] == 1 ) mePN = mePnAmplMapG16L2_[ism-1];
        if ( waveLength[ism-1] == 2 ) mePN = mePnAmplMapG16L3_[ism-1];
        if ( waveLength[ism-1] == 3 ) mePN = mePnAmplMapG16L4_[ism-1];
      }

      if ( mePN ) mePN->Fill(num - 0.5, xvalmax);

      if ( ipn >= 0 && ipn < 80 ) adcPN[ipn] = xvalmax;

    }

  } else {

    edm::LogWarning("EELaserTask") << EcalPnDiodeDigiCollection_ << " not available";

  }

  edm::Handle<EcalUncalibratedRecHitCollection> hits;

  if ( e.getByLabel(EcalUncalibratedRecHitCollection_, hits) ) {

    int neh = hits->size();
    LogDebug("EELaserTask") << "event " << ievt_ << " hits collection size " << neh;

    for ( EcalUncalibratedRecHitCollection::const_iterator hitItr = hits->begin(); hitItr != hits->end(); ++hitItr ) {

      EEDetId id = hitItr->id();

      int ix = id.ix();
      int iy = id.iy();

      int ism = Numbers::iSM( id );

      if ( ism >= 1 && ism <= 9 ) ix = 101 - ix;

      float xix = ix - 0.5;
      float xiy = iy - 0.5;

      if ( ! ( runType[ism-1] == EcalDCCHeaderBlock::LASER_STD ||
               runType[ism-1] == EcalDCCHeaderBlock::LASER_GAP ) ) continue;

      if ( rtHalf[ism-1] != Numbers::RtHalf(id) ) continue;

      MonitorElement* meAmplMap = 0;
      MonitorElement* meTimeMap = 0;
      MonitorElement* meAmplPNMap = 0;

      if ( rtHalf[ism-1] == 0 || rtHalf[ism-1] == 1 ) {

        if ( waveLength[ism-1] == 0 ) {
          meAmplMap = meAmplMapL1_[ism-1];
          meTimeMap = meTimeMapL1_[ism-1];
          meAmplPNMap = meAmplPNMapL1_[ism-1];
        }
        if ( waveLength[ism-1] == 1 ) {
          meAmplMap = meAmplMapL2_[ism-1];
          meTimeMap = meTimeMapL2_[ism-1];
          meAmplPNMap = meAmplPNMapL2_[ism-1];
        }
        if ( waveLength[ism-1] == 2 ) {
          meAmplMap = meAmplMapL3_[ism-1];
          meTimeMap = meTimeMapL3_[ism-1];
          meAmplPNMap = meAmplPNMapL3_[ism-1];
        }
        if ( waveLength[ism-1] == 3 ) {
          meAmplMap = meAmplMapL4_[ism-1];
          meTimeMap = meTimeMapL4_[ism-1];
          meAmplPNMap = meAmplPNMapL4_[ism-1];
        }

      } else {

        edm::LogWarning("EELaserTask") << " RtHalf = " << rtHalf[ism-1];

      }

      float xval = hitItr->amplitude();
      if ( xval <= 0. ) xval = 0.0;
      float yval = hitItr->jitter() + 5.0;
      if ( yval <= 0. ) yval = 0.0;
      float zval = hitItr->pedestal();
      if ( zval <= 0. ) zval = 0.0;

      if ( meAmplMap ) meAmplMap->Fill(xix, xiy, xval);

      if ( xval > 16. ) {
        if ( meTimeMap ) meTimeMap->Fill(xix, xiy, yval);
      }

      float wval = 0.;

      NumbersPn::getPNs( ism, ix, iy, PNs );

      if ( PNs.size() > 0 ) {
        int ipn = PNs[0];
        if ( ipn >= 0 && ipn < 80 ) {
          if ( adcPN[ipn] != 0. ) wval = xval / adcPN[ipn];
        }
      }

      if ( meAmplPNMap ) meAmplPNMap->Fill(xix, xiy, wval);

    }

  } else {

    edm::LogWarning("EELaserTask") << EcalUncalibratedRecHitCollection_ << " not available";

  }

}
void EELaserTask::beginJob ( void  ) [protected, virtual]

BeginJob.

Reimplemented from edm::EDAnalyzer.

Definition at line 99 of file EELaserTask.cc.

References dqmStore_, ievt_, prefixME_, DQMStore::rmdir(), and DQMStore::setCurrentFolder().

                              {

  ievt_ = 0;

  if ( dqmStore_ ) {
    dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask");
    dqmStore_->rmdir(prefixME_ + "/EELaserTask");
  }

}
void EELaserTask::beginRun ( const edm::Run r,
const edm::EventSetup c 
) [protected, virtual]

BeginRun.

Reimplemented from edm::EDAnalyzer.

Definition at line 110 of file EELaserTask.cc.

References Numbers::initGeometry(), mergeRuns_, and reset().

                                                                  {

  Numbers::initGeometry(c, false);

  if ( ! mergeRuns_ ) this->reset();

}
void EELaserTask::cleanup ( void  ) [protected]

Cleanup.

Definition at line 468 of file EELaserTask.cc.

References dqmStore_, spr::find(), edm::getName(), i, init_, laserWavelengths_, meAmplMapL1_, meAmplMapL2_, meAmplMapL3_, meAmplMapL4_, meAmplPNMapL1_, meAmplPNMapL2_, meAmplPNMapL3_, meAmplPNMapL4_, mePnAmplMapG01L1_, mePnAmplMapG01L2_, mePnAmplMapG01L3_, mePnAmplMapG01L4_, mePnAmplMapG16L1_, mePnAmplMapG16L2_, mePnAmplMapG16L3_, mePnAmplMapG16L4_, mePnPedMapG01L1_, mePnPedMapG01L2_, mePnPedMapG01L3_, mePnPedMapG01L4_, mePnPedMapG16L1_, mePnPedMapG16L2_, mePnPedMapG16L3_, mePnPedMapG16L4_, meShapeMapL1_, meShapeMapL2_, meShapeMapL3_, meShapeMapL4_, meTimeMapL1_, meTimeMapL2_, meTimeMapL3_, meTimeMapL4_, prefixME_, DQMStore::removeElement(), and DQMStore::setCurrentFolder().

Referenced by endJob().

                             {

  if ( ! init_ ) return;

  if ( dqmStore_ ) {
    dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask");

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1");
      for (int i = 0; i < 18; i++) {
        if ( meShapeMapL1_[i] )  dqmStore_->removeElement( meShapeMapL1_[i]->getName() );
        meShapeMapL1_[i] = 0;
        if ( meAmplMapL1_[i] ) dqmStore_->removeElement( meAmplMapL1_[i]->getName() );
        meAmplMapL1_[i] = 0;
        if ( meTimeMapL1_[i] ) dqmStore_->removeElement( meTimeMapL1_[i]->getName() );
        meTimeMapL1_[i] = 0;
        if ( meAmplPNMapL1_[i] ) dqmStore_->removeElement( meAmplPNMapL1_[i]->getName() );
        meAmplPNMapL1_[i] = 0;
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2");
      for (int i = 0; i < 18; i++) {
        if ( meShapeMapL2_[i] )  dqmStore_->removeElement( meShapeMapL2_[i]->getName() );
        meShapeMapL2_[i] = 0;
        if ( meAmplMapL2_[i] ) dqmStore_->removeElement( meAmplMapL2_[i]->getName() );
        meAmplMapL2_[i] = 0;
        if ( meTimeMapL2_[i] ) dqmStore_->removeElement( meTimeMapL2_[i]->getName() );
        meTimeMapL2_[i] = 0;
        if ( meAmplPNMapL2_[i] ) dqmStore_->removeElement( meAmplPNMapL2_[i]->getName() );
        meAmplPNMapL2_[i] = 0;
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3");
      for (int i = 0; i < 18; i++) {
        if ( meShapeMapL3_[i] )  dqmStore_->removeElement( meShapeMapL3_[i]->getName() );
        meShapeMapL3_[i] = 0;
        if ( meAmplMapL3_[i] ) dqmStore_->removeElement( meAmplMapL3_[i]->getName() );
        meAmplMapL3_[i] = 0;
        if ( meTimeMapL3_[i] ) dqmStore_->removeElement( meTimeMapL3_[i]->getName() );
        meTimeMapL3_[i] = 0;
        if ( meAmplPNMapL3_[i] ) dqmStore_->removeElement( meAmplPNMapL3_[i]->getName() );
        meAmplPNMapL3_[i] = 0;
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4");
      for (int i = 0; i < 18; i++) {
        if ( meShapeMapL4_[i] )  dqmStore_->removeElement( meShapeMapL4_[i]->getName() );
        meShapeMapL4_[i] = 0;
        if ( meAmplMapL4_[i] ) dqmStore_->removeElement( meAmplMapL4_[i]->getName() );
        meAmplMapL4_[i] = 0;
        if ( meTimeMapL4_[i] ) dqmStore_->removeElement( meTimeMapL4_[i]->getName() );
        meTimeMapL4_[i] = 0;
        if ( meAmplPNMapL4_[i] ) dqmStore_->removeElement( meAmplPNMapL4_[i]->getName() );
        meAmplPNMapL4_[i] = 0;
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG01L1_[i] ) dqmStore_->removeElement( mePnAmplMapG01L1_[i]->getName() );
        mePnAmplMapG01L1_[i] = 0;
        if ( mePnPedMapG01L1_[i] ) dqmStore_->removeElement( mePnPedMapG01L1_[i]->getName() );
        mePnPedMapG01L1_[i] = 0;
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG16L1_[i] ) dqmStore_->removeElement( mePnAmplMapG16L1_[i]->getName() );
        mePnAmplMapG16L1_[i] = 0;
        if ( mePnPedMapG16L1_[i] ) dqmStore_->removeElement( mePnPedMapG16L1_[i]->getName() );
        mePnPedMapG16L1_[i] = 0;
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG01L2_[i] ) dqmStore_->removeElement( mePnAmplMapG01L2_[i]->getName() );
        mePnAmplMapG01L2_[i] = 0;
        if ( mePnPedMapG01L2_[i] ) dqmStore_->removeElement( mePnPedMapG01L2_[i]->getName() );
        mePnPedMapG01L2_[i] = 0;
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG16L2_[i] ) dqmStore_->removeElement( mePnAmplMapG16L2_[i]->getName() );
        mePnAmplMapG16L2_[i] = 0;
        if ( mePnPedMapG16L2_[i] ) dqmStore_->removeElement( mePnPedMapG16L2_[i]->getName() );
        mePnPedMapG16L2_[i] = 0;
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG01L3_[i] ) dqmStore_->removeElement( mePnAmplMapG01L3_[i]->getName() );
        mePnAmplMapG01L3_[i] = 0;
        if ( mePnPedMapG01L3_[i] ) dqmStore_->removeElement( mePnPedMapG01L3_[i]->getName() );
        mePnPedMapG01L3_[i] = 0;
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG16L3_[i] ) dqmStore_->removeElement( mePnAmplMapG16L3_[i]->getName() );
        mePnAmplMapG16L3_[i] = 0;
        if ( mePnPedMapG16L3_[i] ) dqmStore_->removeElement( mePnPedMapG16L3_[i]->getName() );
        mePnPedMapG16L3_[i] = 0;
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG01L4_[i] ) dqmStore_->removeElement( mePnAmplMapG01L4_[i]->getName() );
        mePnAmplMapG01L4_[i] = 0;
        if ( mePnPedMapG01L4_[i] ) dqmStore_->removeElement( mePnPedMapG01L4_[i]->getName() );
        mePnPedMapG01L4_[i] = 0;
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        if ( mePnAmplMapG16L4_[i] ) dqmStore_->removeElement( mePnAmplMapG16L4_[i]->getName() );
        mePnAmplMapG16L4_[i] = 0;
        if ( mePnPedMapG16L4_[i] ) dqmStore_->removeElement( mePnPedMapG16L4_[i]->getName() );
        mePnPedMapG16L4_[i] = 0;
      }

    }

  }

  init_ = false;

}
void EELaserTask::endJob ( void  ) [protected, virtual]

EndJob.

Reimplemented from edm::EDAnalyzer.

Definition at line 633 of file EELaserTask.cc.

References cleanup(), enableCleanup_, and ievt_.

                            {

  edm::LogInfo("EELaserTask") << "analyzed " << ievt_ << " events";

  if ( enableCleanup_ ) this->cleanup();

}
void EELaserTask::endRun ( const edm::Run r,
const edm::EventSetup c 
) [protected, virtual]

EndRun.

Reimplemented from edm::EDAnalyzer.

Definition at line 118 of file EELaserTask.cc.

                                                                {

}
void EELaserTask::reset ( void  ) [protected]

Reset.

Definition at line 122 of file EELaserTask.cc.

References spr::find(), i, laserWavelengths_, meAmplMapL1_, meAmplMapL2_, meAmplMapL3_, meAmplMapL4_, meAmplPNMapL1_, meAmplPNMapL2_, meAmplPNMapL3_, meAmplPNMapL4_, mePnAmplMapG01L1_, mePnAmplMapG01L2_, mePnAmplMapG01L3_, mePnAmplMapG01L4_, mePnAmplMapG16L1_, mePnAmplMapG16L2_, mePnAmplMapG16L3_, mePnAmplMapG16L4_, mePnPedMapG01L1_, mePnPedMapG01L2_, mePnPedMapG01L3_, mePnPedMapG01L4_, mePnPedMapG16L1_, mePnPedMapG16L2_, mePnPedMapG16L3_, mePnPedMapG16L4_, meShapeMapL1_, meShapeMapL2_, meShapeMapL3_, meShapeMapL4_, meTimeMapL1_, meTimeMapL2_, meTimeMapL3_, meTimeMapL4_, and MonitorElement::Reset().

Referenced by beginRun().

                            {

  for (int i = 0; i < 18; i++) {
    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( meShapeMapL1_[i] )  meShapeMapL1_[i]->Reset();
      if ( meAmplMapL1_[i] ) meAmplMapL1_[i]->Reset();
      if ( meTimeMapL1_[i] ) meTimeMapL1_[i]->Reset();
      if ( meAmplPNMapL1_[i] ) meAmplPNMapL1_[i]->Reset();
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( meShapeMapL2_[i] )  meShapeMapL2_[i]->Reset();
      if ( meAmplMapL2_[i] ) meAmplMapL2_[i]->Reset();
      if ( meTimeMapL2_[i] ) meTimeMapL2_[i]->Reset();
      if ( meAmplPNMapL2_[i] ) meAmplPNMapL2_[i]->Reset();
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( meShapeMapL3_[i] )  meShapeMapL3_[i]->Reset();
      if ( meAmplMapL3_[i] ) meAmplMapL3_[i]->Reset();
      if ( meTimeMapL3_[i] ) meTimeMapL3_[i]->Reset();
      if ( meAmplPNMapL3_[i] ) meAmplPNMapL3_[i]->Reset();
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( meShapeMapL4_[i] )  meShapeMapL4_[i]->Reset();
      if ( meAmplMapL4_[i] ) meAmplMapL4_[i]->Reset();
      if ( meTimeMapL4_[i] ) meTimeMapL4_[i]->Reset();
      if ( meAmplPNMapL4_[i] ) meAmplPNMapL4_[i]->Reset();
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
      if ( mePnAmplMapG01L1_[i] ) mePnAmplMapG01L1_[i]->Reset();
      if ( mePnPedMapG01L1_[i] ) mePnPedMapG01L1_[i]->Reset();

      if ( mePnAmplMapG16L1_[i] ) mePnAmplMapG16L1_[i]->Reset();
      if ( mePnPedMapG16L1_[i] ) mePnPedMapG16L1_[i]->Reset();
    }


    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
      if ( mePnAmplMapG01L2_[i] ) mePnAmplMapG01L2_[i]->Reset();
      if ( mePnPedMapG01L2_[i] ) mePnPedMapG01L2_[i]->Reset();

      if ( mePnAmplMapG16L2_[i] ) mePnAmplMapG16L2_[i]->Reset();
      if ( mePnPedMapG16L2_[i] ) mePnPedMapG16L2_[i]->Reset();
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
      if ( mePnAmplMapG01L3_[i] ) mePnAmplMapG01L3_[i]->Reset();
      if ( mePnPedMapG01L3_[i] ) mePnPedMapG01L3_[i]->Reset();

      if ( mePnAmplMapG16L3_[i] ) mePnAmplMapG16L3_[i]->Reset();
      if ( mePnPedMapG16L3_[i] ) mePnPedMapG16L3_[i]->Reset();
    }

    if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
      if ( mePnAmplMapG01L4_[i] ) mePnAmplMapG01L4_[i]->Reset();
      if ( mePnPedMapG01L4_[i] ) mePnPedMapG01L4_[i]->Reset();

      if ( mePnAmplMapG16L4_[i] ) mePnAmplMapG16L4_[i]->Reset();
      if ( mePnPedMapG16L4_[i] ) mePnPedMapG16L4_[i]->Reset();
    }

  }

}
void EELaserTask::setup ( void  ) [protected]

Setup.

Definition at line 190 of file EELaserTask.cc.

References DQMStore::bookProfile(), DQMStore::bookProfile2D(), dqmStore_, spr::find(), trackerHits::histo, i, init_, Numbers::ix0EE(), Numbers::iy0EE(), laserWavelengths_, meAmplMapL1_, meAmplMapL2_, meAmplMapL3_, meAmplMapL4_, meAmplPNMapL1_, meAmplPNMapL2_, meAmplPNMapL3_, meAmplPNMapL4_, mePnAmplMapG01L1_, mePnAmplMapG01L2_, mePnAmplMapG01L3_, mePnAmplMapG01L4_, mePnAmplMapG16L1_, mePnAmplMapG16L2_, mePnAmplMapG16L3_, mePnAmplMapG16L4_, mePnPedMapG01L1_, mePnPedMapG01L2_, mePnPedMapG01L3_, mePnPedMapG01L4_, mePnPedMapG16L1_, mePnPedMapG16L2_, mePnPedMapG16L3_, mePnPedMapG16L4_, meShapeMapL1_, meShapeMapL2_, meShapeMapL3_, meShapeMapL4_, meTimeMapL1_, meTimeMapL2_, meTimeMapL3_, meTimeMapL4_, prefixME_, Numbers::sEE(), MonitorElement::setAxisTitle(), DQMStore::setCurrentFolder(), and DQMStore::tag().

Referenced by analyze().

                           {

  init_ = true;

  char histo[200];

  if ( dqmStore_ ) {
    dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask");

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT shape %s L1", Numbers::sEE(i+1).c_str());
        meShapeMapL1_[i] = dqmStore_->bookProfile2D(histo, histo, 850, 0., 850., 10, 0., 10., 4096, 0., 4096., "s");
        meShapeMapL1_[i]->setAxisTitle("channel", 1);
        meShapeMapL1_[i]->setAxisTitle("sample", 2);
        meShapeMapL1_[i]->setAxisTitle("amplitude", 3);
        dqmStore_->tag(meShapeMapL1_[i], i+1);
        sprintf(histo, "EELT amplitude %s L1", Numbers::sEE(i+1).c_str());
        meAmplMapL1_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplMapL1_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplMapL1_[i]->setAxisTitle("101-ix", 1);
        meAmplMapL1_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplMapL1_[i], i+1);
        sprintf(histo, "EELT timing %s L1", Numbers::sEE(i+1).c_str());
        meTimeMapL1_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 250, 0., 10., "s");
        meTimeMapL1_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meTimeMapL1_[i]->setAxisTitle("101-ix", 1);
        meTimeMapL1_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meTimeMapL1_[i], i+1);
        sprintf(histo, "EELT amplitude over PN %s L1", Numbers::sEE(i+1).c_str());
        meAmplPNMapL1_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplPNMapL1_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplPNMapL1_[i]->setAxisTitle("101-ix", 1);
        meAmplPNMapL1_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplPNMapL1_[i], i+1);
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT shape %s L2", Numbers::sEE(i+1).c_str());
        meShapeMapL2_[i] = dqmStore_->bookProfile2D(histo, histo, 850, 0., 850., 10, 0., 10., 4096, 0., 4096., "s");
        meShapeMapL2_[i]->setAxisTitle("channel", 1);
        meShapeMapL2_[i]->setAxisTitle("sample", 2);
        meShapeMapL2_[i]->setAxisTitle("amplitude", 3);
        dqmStore_->tag(meShapeMapL2_[i], i+1);
        sprintf(histo, "EELT amplitude %s L2", Numbers::sEE(i+1).c_str());
        meAmplMapL2_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplMapL2_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplMapL2_[i]->setAxisTitle("101-ix", 1);
        meAmplMapL2_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplMapL2_[i], i+1);
        sprintf(histo, "EELT timing %s L2", Numbers::sEE(i+1).c_str());
        meTimeMapL2_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 250, 0., 10., "s");
        meTimeMapL2_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meTimeMapL2_[i]->setAxisTitle("101-ix", 1);
        meTimeMapL2_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meTimeMapL2_[i], i+1);
        sprintf(histo, "EELT amplitude over PN %s L2", Numbers::sEE(i+1).c_str());
        meAmplPNMapL2_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplPNMapL2_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplPNMapL2_[i]->setAxisTitle("101-ix", 1);
        meAmplPNMapL2_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplPNMapL2_[i], i+1);
      }

    }


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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT shape %s L3", Numbers::sEE(i+1).c_str());
        meShapeMapL3_[i] = dqmStore_->bookProfile2D(histo, histo, 850, 0., 850., 10, 0., 10., 4096, 0., 4096., "s");
        meShapeMapL3_[i]->setAxisTitle("channel", 1);
        meShapeMapL3_[i]->setAxisTitle("sample", 2);
        meShapeMapL3_[i]->setAxisTitle("amplitude", 3);
        dqmStore_->tag(meShapeMapL3_[i], i+1);
        sprintf(histo, "EELT amplitude %s L3", Numbers::sEE(i+1).c_str());
        meAmplMapL3_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplMapL3_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplMapL3_[i]->setAxisTitle("101-ix", 1);
        meAmplMapL3_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplMapL3_[i], i+1);
        sprintf(histo, "EELT timing %s L3", Numbers::sEE(i+1).c_str());
        meTimeMapL3_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 250, 0., 10., "s");
        meTimeMapL3_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meTimeMapL3_[i]->setAxisTitle("101-ix", 1);
        meTimeMapL3_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meTimeMapL3_[i], i+1);
        sprintf(histo, "EELT amplitude over PN %s L3", Numbers::sEE(i+1).c_str());
        meAmplPNMapL3_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplPNMapL3_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplPNMapL3_[i]->setAxisTitle("101-ix", 1);
        meAmplPNMapL3_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplPNMapL3_[i], i+1);
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT shape %s L4", Numbers::sEE(i+1).c_str());
        meShapeMapL4_[i] = dqmStore_->bookProfile2D(histo, histo, 850, 0., 850., 10, 0., 10., 4096, 0., 4096., "s");
        meShapeMapL4_[i]->setAxisTitle("channel", 1);
        meShapeMapL4_[i]->setAxisTitle("sample", 2);
        meShapeMapL4_[i]->setAxisTitle("amplitude", 3);
        dqmStore_->tag(meShapeMapL4_[i], i+1);
        sprintf(histo, "EELT amplitude %s L4", Numbers::sEE(i+1).c_str());
        meAmplMapL4_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplMapL4_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplMapL4_[i]->setAxisTitle("101-ix", 1);
        meAmplMapL4_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplMapL4_[i], i+1);
        sprintf(histo, "EELT timing %s L4", Numbers::sEE(i+1).c_str());
        meTimeMapL4_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 250, 0., 10., "s");
        meTimeMapL4_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meTimeMapL4_[i]->setAxisTitle("101-ix", 1);
        meTimeMapL4_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meTimeMapL4_[i], i+1);
        sprintf(histo, "EELT amplitude over PN %s L4", Numbers::sEE(i+1).c_str());
        meAmplPNMapL4_[i] = dqmStore_->bookProfile2D(histo, histo, 50, Numbers::ix0EE(i+1)+0., Numbers::ix0EE(i+1)+50., 50, Numbers::iy0EE(i+1)+0., Numbers::iy0EE(i+1)+50., 4096, 0., 4096.*12., "s");
        meAmplPNMapL4_[i]->setAxisTitle("ix", 1);
        if ( i+1 >= 1 && i+1 <= 9 ) meAmplPNMapL4_[i]->setAxisTitle("101-ix", 1);
        meAmplPNMapL4_[i]->setAxisTitle("iy", 2);
        dqmStore_->tag(meAmplPNMapL4_[i], i+1);
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G01 L1", Numbers::sEE(i+1).c_str());
        mePnAmplMapG01L1_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG01L1_[i]->setAxisTitle("channel", 1);
        mePnAmplMapG01L1_[i]->setAxisTitle("amplitude", 2);
        dqmStore_->tag(mePnAmplMapG01L1_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G01 L1", Numbers::sEE(i+1).c_str());
        mePnPedMapG01L1_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG01L1_[i]->setAxisTitle("channel", 1);
        mePnPedMapG01L1_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG01L1_[i], i+1);
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser1/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G16 L1", Numbers::sEE(i+1).c_str());
        mePnAmplMapG16L1_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG16L1_[i]->setAxisTitle("channel", 1);
        mePnAmplMapG16L1_[i]->setAxisTitle("amplitude", 2);
        dqmStore_->tag(mePnAmplMapG16L1_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G16 L1", Numbers::sEE(i+1).c_str());
        mePnPedMapG16L1_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG16L1_[i]->setAxisTitle("channel", 1);
        mePnPedMapG16L1_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG16L1_[i], i+1);
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G01 L2", Numbers::sEE(i+1).c_str());
        mePnAmplMapG01L2_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG01L2_[i]->setAxisTitle("amplitude", 2);
        mePnAmplMapG01L2_[i]->setAxisTitle("channel", 1);
        dqmStore_->tag(mePnAmplMapG01L2_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G01 L2", Numbers::sEE(i+1).c_str());
        mePnPedMapG01L2_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG01L2_[i]->setAxisTitle("channel", 1);
        mePnPedMapG01L2_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG01L2_[i], i+1);
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser2/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G16 L2", Numbers::sEE(i+1).c_str());
        mePnAmplMapG16L2_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG16L2_[i]->setAxisTitle("channel", 1);
        mePnAmplMapG16L2_[i]->setAxisTitle("amplitude", 2);
        dqmStore_->tag(mePnAmplMapG16L2_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G16 L2", Numbers::sEE(i+1).c_str());
        mePnPedMapG16L2_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG16L2_[i]->setAxisTitle("channel", 1);
        mePnPedMapG16L2_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG16L2_[i], i+1);
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G01 L3", Numbers::sEE(i+1).c_str());
        mePnAmplMapG01L3_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG01L3_[i]->setAxisTitle("channel", 1);
        mePnAmplMapG01L3_[i]->setAxisTitle("amplitude", 2);
        dqmStore_->tag(mePnAmplMapG01L3_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G01 L3", Numbers::sEE(i+1).c_str());
        mePnPedMapG01L3_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG01L3_[i]->setAxisTitle("channel", 1);
        mePnPedMapG01L3_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG01L3_[i], i+1);
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser3/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G16 L3", Numbers::sEE(i+1).c_str());
        mePnAmplMapG16L3_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG16L3_[i]->setAxisTitle("channel", 1);
        mePnAmplMapG16L3_[i]->setAxisTitle("amplitude", 2);
        dqmStore_->tag(mePnAmplMapG16L3_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G16 L3", Numbers::sEE(i+1).c_str());
        mePnPedMapG16L3_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG16L3_[i]->setAxisTitle("channel", 1);
        mePnPedMapG16L3_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG16L3_[i], i+1);
      }

    }

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

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4/PN");

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4/PN/Gain01");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G01 L4", Numbers::sEE(i+1).c_str());
        mePnAmplMapG01L4_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG01L4_[i]->setAxisTitle("channel", 1);
        mePnAmplMapG01L4_[i]->setAxisTitle("amplitude", 2);
        dqmStore_->tag(mePnAmplMapG01L4_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G01 L4", Numbers::sEE(i+1).c_str());
        mePnPedMapG01L4_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG01L4_[i]->setAxisTitle("channel", 1);
        mePnPedMapG01L4_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG01L4_[i], i+1);
      }

      dqmStore_->setCurrentFolder(prefixME_ + "/EELaserTask/Laser4/PN/Gain16");
      for (int i = 0; i < 18; i++) {
        sprintf(histo, "EELT PNs amplitude %s G16 L4", Numbers::sEE(i+1).c_str());
        mePnAmplMapG16L4_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnAmplMapG16L4_[i]->setAxisTitle("channel", 1);
        mePnAmplMapG16L4_[i]->setAxisTitle("amplitude", 2);
        dqmStore_->tag(mePnAmplMapG16L4_[i], i+1);
        sprintf(histo, "EELT PNs pedestal %s G16 L4", Numbers::sEE(i+1).c_str());
        mePnPedMapG16L4_[i] = dqmStore_->bookProfile(histo, histo, 10, 0., 10., 4096, 0., 4096., "s");
        mePnPedMapG16L4_[i]->setAxisTitle("channel", 1);
        mePnPedMapG16L4_[i]->setAxisTitle("pedestal", 2);
        dqmStore_->tag(mePnPedMapG16L4_[i], i+1);
      }

    }

  }

}

Member Data Documentation

Definition at line 60 of file EELaserTask.h.

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

Definition at line 70 of file EELaserTask.h.

Referenced by analyze(), and EELaserTask().

Definition at line 68 of file EELaserTask.h.

Referenced by analyze(), and EELaserTask().

Definition at line 71 of file EELaserTask.h.

Referenced by analyze(), and EELaserTask().

Definition at line 69 of file EELaserTask.h.

Referenced by analyze(), and EELaserTask().

Definition at line 64 of file EELaserTask.h.

Referenced by EELaserTask(), and endJob().

int EELaserTask::ievt_ [private]

Definition at line 58 of file EELaserTask.h.

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

bool EELaserTask::init_ [private]

Definition at line 110 of file EELaserTask.h.

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

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

Definition at line 72 of file EELaserTask.h.

Referenced by cleanup(), EELaserTask(), reset(), and setup().

Definition at line 75 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 84 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 93 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 102 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 77 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 86 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 95 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 104 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 78 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 87 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 96 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 105 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 80 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 89 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 98 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 107 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 79 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 88 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 97 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 106 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 81 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 90 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 99 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 108 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

bool EELaserTask::mergeRuns_ [private]

Definition at line 66 of file EELaserTask.h.

Referenced by beginRun(), and EELaserTask().

Definition at line 74 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 83 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 92 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 101 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 76 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 85 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 94 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

Definition at line 103 of file EELaserTask.h.

Referenced by analyze(), cleanup(), EELaserTask(), reset(), and setup().

std::string EELaserTask::prefixME_ [private]

Definition at line 62 of file EELaserTask.h.

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