dc/da4/MESetDet2D_8cc_source.html

 #include "DQM/EcalCommon/interface/MESetDet2D.h"


 #include "DQM/EcalCommon/interface/EcalDQMCommonUtils.h"


 namespace ecaldqm

 {

   MESetDet2D::MESetDet2D(std::string const& _fullPath, binning::ObjectType _otype, binning::BinningType _btype, MonitorElement::Kind _kind, binning::AxisSpecs const* _zaxis/* = 0*/) :

     MESetEcal(_fullPath, _otype, _btype, _kind, 2, 0, 0, _zaxis)

   {

     switch(kind_){

     case MonitorElement::DQM_KIND_TH2F:

     case MonitorElement::DQM_KIND_TPROFILE2D:

       break;

     default:

       throw_("Unsupported MonitorElement kind");

     }

   }


   MESetDet2D::MESetDet2D(MESetDet2D const& _orig) :

     MESetEcal(_orig)

   {

   }


   MESetDet2D::~MESetDet2D()

   {

   }


   MESet*

   MESetDet2D::clone(std::string const& _path/* = ""*/) const

   {

     std::string path(path_);

     if(_path != "") path_ = _path;

     MESet* copy(new MESetDet2D(*this));

     path_ = path;

     return copy;

   }


   void

   MESetDet2D::book(DQMStore::IBooker& _ibooker)

   {

     MESetEcal::book(_ibooker);


     if(btype_ == binning::kCrystal){

       for(unsigned iME(0); iME < mes_.size(); iME++){

         MonitorElement* me(mes_[iME]);


         binning::ObjectType actualObject(binning::getObject(otype_, iME));

         if(actualObject == binning::kMEM){

           for(int iBin(1); iBin <= me->getNbinsX(); ++iBin)

             me->setBinLabel(iBin, binning::channelName(memDCCId(iBin - 1)));

         }

         if(actualObject == binning::kEBMEM){

           for(int iBin(1); iBin <= me->getNbinsX(); ++iBin)

             me->setBinLabel(iBin, binning::channelName(iBin + kEBmLow));

         }

         if(actualObject == binning::kEEMEM){

           for(int iBin(1); iBin <= me->getNbinsX() / 2; ++iBin){

             me->setBinLabel(iBin, binning::channelName(memDCCId(iBin - 1)));

             me->setBinLabel(iBin + me->getNbinsX() / 2, binning::channelName(memDCCId(iBin + 39)));

           }

         }

       }

     }

     else if(btype_ == binning::kDCC){

       for(unsigned iME(0); iME < mes_.size(); iME++){

         MonitorElement* me(mes_[iME]);


         binning::ObjectType actualObject(binning::getObject(otype_, iME));

         if(actualObject == binning::kEcal){

           me->setBinLabel(1, "EE", 2);

           me->setBinLabel(6, "EE", 2);

           me->setBinLabel(3, "EB", 2);

           me->setBinLabel(5, "EB", 2);

         }

       }

     }


     // To avoid the ambiguity between "content == 0 because the mean is 0" and "content == 0 because the entry is 0"

     // RenderPlugin must be configured accordingly

     if(!batchMode_ && kind_ == MonitorElement::DQM_KIND_TPROFILE2D)

       resetAll(0., 0., -1.);

   }


   void

   MESetDet2D::fill(DetId const& _id, double _w/* = 1.*/, double, double)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(btype_ == binning::kRCT){

       bin = binning::findBin2D(obj, btype_, _id);

       fill_(iME, bin, _w);

     }

     else{

       if(isEndcapTTId(_id)){

         std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

         unsigned nId(ids.size());

         for(unsigned iId(0); iId < nId; iId++){

           bin = binning::findBin2D(obj, binning::kTriggerTower, ids[iId]);

           fill_(iME, bin, _w);

         }

       }

       else{

         bin = binning::findBin2D(obj, btype_, _id);

         fill_(iME, bin, _w);

       }

     }

   }


   void

   MESetDet2D::fill(EcalElectronicsId const& _id, double _w/* = 1.*/, double, double)

   {

     if(!active_) return;


     unsigned iME(0);

     if(btype_ == binning::kPseudoStrip) iME = binning::findPlotIndex(otype_, _id.dccId(),binning::kPseudoStrip);

     else iME = binning::findPlotIndex(otype_, _id);

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(btype_ == binning::kPseudoStrip){

       EcalElectronicsId stid(_id);

       std::vector<DetId> ids(getElectronicsMap()->pseudoStripConstituents(stid.dccId(), stid.towerId(), stid.stripId()));

       unsigned nId(ids.size());

       for(unsigned iId(0); iId < nId; iId++){

          bin = binning::findBin2D(obj, btype_ , ids[iId]);

          fill_(iME, bin, _w);

       }

     }

     else{

       bin = binning::findBin2D(obj, btype_, _id);

       fill_(iME, bin, _w);

     }

   }


   void

   MESetDet2D::fill(int _dcctccid, double _w/* = 1.*/, double, double)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _dcctccid));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _dcctccid));

     fill_(iME, bin, _w);

   }


   void

   MESetDet2D::setBinContent(DetId const& _id, double _content)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(isEndcapTTId(_id)){

       std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

       unsigned nId(ids.size());

       for(unsigned iId(0); iId < nId; iId++){

         bin = binning::findBin2D(obj, binning::kTriggerTower, ids[iId]);

         mes_[iME]->setBinContent(bin, _content);

       }

     }

     else{

       bin = binning::findBin2D(obj, btype_, _id);

       mes_[iME]->setBinContent(bin, _content);

     }

   }


   void

   MESetDet2D::setBinContent(EcalElectronicsId const& _id, double _content)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _id));

     mes_[iME]->setBinContent(bin, _content);

   }


   void

   MESetDet2D::setBinContent(int _dcctccid, double _content)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _dcctccid));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _dcctccid));

     mes_[iME]->setBinContent(bin, _content);

   }


   void

   MESetDet2D::setBinError(DetId const& _id, double _error)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(isEndcapTTId(_id)){

       std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

       unsigned nId(ids.size());

       for(unsigned iId(0); iId < nId; iId++){

         bin = binning::findBin2D(obj, binning::kTriggerTower, ids[iId]);

         mes_[iME]->setBinError(bin, _error);

       }

     }

     else{

       bin = binning::findBin2D(obj, btype_, _id);

       mes_[iME]->setBinError(bin, _error);

     }

   }


   void

   MESetDet2D::setBinError(EcalElectronicsId const& _id, double _error)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _id));

     mes_[iME]->setBinError(bin, _error);

   }


   void

   MESetDet2D::setBinError(int _dcctccid, double _error)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _dcctccid));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _dcctccid));

     mes_[iME]->setBinError(bin, _error);

   }


   void

   MESetDet2D::setBinEntries(DetId const& _id, double _entries)

   {

     if(!active_) return;

     if(kind_ != MonitorElement::DQM_KIND_TPROFILE2D) return;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(isEndcapTTId(_id)){

       std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

       unsigned nId(ids.size());

       for(unsigned iId(0); iId < nId; iId++){

         bin = binning::findBin2D(obj, binning::kTriggerTower, ids[iId]);

         mes_[iME]->setBinEntries(bin, _entries);

       }

     }

     else{

       bin = binning::findBin2D(obj, btype_, _id);

       mes_[iME]->setBinEntries(bin, _entries);

     }

   }


   void

   MESetDet2D::setBinEntries(EcalElectronicsId const& _id, double _entries)

   {

     if(!active_) return;

     if(kind_ != MonitorElement::DQM_KIND_TPROFILE2D) return;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _id));

     mes_[iME]->setBinEntries(bin, _entries);

   }


   void

   MESetDet2D::setBinEntries(int _dcctccid, double _entries)

   {

     if(!active_) return;


     unsigned iME(binning::findPlotIndex(otype_, _dcctccid));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _dcctccid));

     mes_[iME]->setBinEntries(bin, _entries);

   }


   double

   MESetDet2D::getBinContent(DetId const& _id, int) const

   {

     if(!active_) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(isEndcapTTId(_id)){

       std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

       bin = binning::findBin2D(obj, binning::kTriggerTower, ids[0]);

     }

     else{

       bin = binning::findBin2D(obj, btype_, _id);

     }


     return mes_[iME]->getBinContent(bin);

   }


   double

   MESetDet2D::getBinContent(EcalElectronicsId const& _id, int) const

   {

     if(!active_) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _id));


     return mes_[iME]->getBinContent(bin);

   }


   double

   MESetDet2D::getBinContent(int _dcctccid, int) const

   {

     if(!active_) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _dcctccid));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _dcctccid));


     return mes_[iME]->getBinContent(bin);

   }


   double

   MESetDet2D::getBinError(DetId const& _id, int) const

   {

     if(!active_) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(isEndcapTTId(_id)){

       std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

       bin = binning::findBin2D(obj, binning::kTriggerTower, ids[0]);

     }

     else{

       bin = binning::findBin2D(obj, btype_, _id);

     }


     return mes_[iME]->getBinError(bin);

   }


   double

   MESetDet2D::getBinError(EcalElectronicsId const& _id, int) const

   {

     if(!active_) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _id));


     return mes_[iME]->getBinError(bin);

   }


   double

   MESetDet2D::getBinError(int _dcctccid, int) const

   {

     if(!active_) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _dcctccid));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _dcctccid));


     return mes_[iME]->getBinError(bin);

   }


   double

   MESetDet2D::getBinEntries(DetId const& _id, int) const

   {

     if(!active_) return 0.;

     if(kind_ != MonitorElement::DQM_KIND_TPROFILE2D) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin;


     if(isEndcapTTId(_id)){

       std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

       bin = binning::findBin2D(obj, binning::kTriggerTower, ids[0]);

     }

     else{

       bin = binning::findBin2D(obj, btype_, _id);

     }


     double entries(mes_[iME]->getBinEntries(bin));

     if(entries < 0.) return 0.;

     else return entries;

   }


   double

   MESetDet2D::getBinEntries(EcalElectronicsId const& _id, int) const

   {

     if(!active_) return 0.;

     if(kind_ != MonitorElement::DQM_KIND_TPROFILE2D) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _id));


     double entries(mes_[iME]->getBinEntries(bin));

     if(entries < 0.) return 0.;

     else return entries;

   }


   double

   MESetDet2D::getBinEntries(int _dcctccid, int) const

   {

     if(!active_) return 0.;


     unsigned iME(binning::findPlotIndex(otype_, _dcctccid));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     int bin(binning::findBin2D(obj, btype_, _dcctccid));


     double entries(mes_[iME]->getBinEntries(bin));

     if(entries < 0.) return 0.;

     else return entries;

   }


   int

   MESetDet2D::findBin(DetId const& _id) const

   {

     if(!active_) return 0;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     if(isEndcapTTId(_id)){

       std::vector<DetId> ids(getTrigTowerMap()->constituentsOf(EcalTrigTowerDetId(_id)));

       return binning::findBin2D(obj, binning::kTriggerTower, ids[0]);

     }

     else

       return binning::findBin2D(obj, btype_, _id);

   }


   int

   MESetDet2D::findBin(EcalElectronicsId const& _id) const

   {

     if(!active_) return 0;


     unsigned iME(binning::findPlotIndex(otype_, _id));

     checkME_(iME);


     binning::ObjectType obj(binning::getObject(otype_, iME));


     return binning::findBin2D(obj, btype_, _id);

   }


   void

   MESetDet2D::reset(double _content/* = 0.*/, double _err/* = 0.*/, double _entries/* = 0.*/)

   {

     unsigned nME(binning::getNObjects(otype_));


     bool isProfile(kind_ == MonitorElement::DQM_KIND_TPROFILE2D);


     for(unsigned iME(0); iME < nME; iME++) {

       MonitorElement* me(mes_[iME]);


       binning::ObjectType obj(binning::getObject(otype_, iME));


       int nbinsX(me->getTH1()->GetNbinsX());

       int nbinsY(me->getTH1()->GetNbinsY());

       for(int ix(1); ix <= nbinsX; ix++){

         for(int iy(1); iy <= nbinsY; iy++){

           int bin((nbinsX + 2) * iy + ix);

           if(!binning::isValidIdBin(obj, btype_, iME, bin)) continue;

           me->setBinContent(bin, _content);

           me->setBinError(bin, _err);

           if(isProfile) me->setBinEntries(bin, _entries);

         }

       }

     }

   }


   void

   MESetDet2D::softReset()

   {

     MESet::softReset();

     if(!batchMode_ && kind_ == MonitorElement::DQM_KIND_TPROFILE2D)

       resetAll(0., 0., -1.);

   }


   void

   MESetDet2D::fill_(unsigned _iME, int _bin, double _w)

   {

     if(kind_ == MonitorElement::DQM_KIND_TPROFILE2D){

       MonitorElement* me(mes_.at(_iME));

       if(me->getBinEntries(_bin) < 0.){

         me->setBinContent(_bin, 0.);

         me->setBinEntries(_bin, 0.);

         me->getTProfile2D()->SetEntries(me->getTProfile2D()->GetEntries() + 1.);

       }

     }


     MESet::fill_(_iME, _bin, _w);

   }


   void

   MESetDet2D::fill_(unsigned _iME, int _bin, double _y, double _w)

   {

     if(kind_ == MonitorElement::DQM_KIND_TPROFILE2D){

       MonitorElement* me(mes_.at(_iME));

       if(me->getBinEntries(_bin) < 0.){

         me->setBinContent(_bin, 0.);

         me->setBinEntries(_bin, 0.);

         me->getTProfile2D()->SetEntries(me->getTProfile2D()->GetEntries() + 1.);

       }

     }


     MESet::fill_(_iME, _bin, _y, _w);

   }


   void

   MESetDet2D::fill_(unsigned _iME, double _x, double _wy, double _w)

   {

     if(kind_ == MonitorElement::DQM_KIND_TPROFILE2D){

       MonitorElement* me(mes_.at(_iME));

       int bin(me->getTProfile2D()->FindBin(_x, _wy));

       if(me->getBinEntries(bin) < 0.){

         me->setBinContent(bin, 0.);

         me->setBinEntries(bin, 0.);

         me->getTProfile2D()->SetEntries(me->getTProfile2D()->GetEntries() + 1.);

       }

     }


     MESet::fill_(_iME, _x, _wy, _w);

   }

 }

ecaldqm::MESetDet2D::getBinEntries
double getBinEntries(DetId const &, int=0) const override
Definition: MESetDet2D.cc:430

ecaldqm::MESet::kind_
MonitorElement::Kind kind_
Definition: MESet.h:134

MonitorElement::Kind
Kind
Definition: MonitorElement.h:49

ecaldqm::binning::kDCC
Definition: MESetBinningUtils.h:49

MonitorElement::setBinContent
void setBinContent(int binx, double content)
set content of bin (1-D)
Definition: MonitorElement.cc:844

ecaldqm::binning::BinningType
BinningType
Definition: MESetBinningUtils.h:43

MESetDet2D.h

EcalElectronicsId::stripId
int stripId() const
get the tower id
Definition: EcalElectronicsId.h:39

ecaldqm::MESet::checkME_
virtual void checkME_(unsigned _iME) const
Definition: MESet.h:115

ecaldqm::binning::isValidIdBin
bool isValidIdBin(ObjectType, BinningType, unsigned, int)
Definition: MESetBinningUtils.cc:505

EcalElectronicsId
Ecal readout channel identification [32:20] Unused (so far) [19:13] DCC id [12:6] tower [5:3] strip [...
Definition: EcalElectronicsId.h:20

ecaldqm::binning::getNObjects
unsigned getNObjects(ObjectType)
Definition: MESetBinningUtils.cc:476

ecaldqm::binning::AxisSpecs
Definition: MESetBinningUtils.h:75

ecaldqm::getElectronicsMap
EcalElectronicsMapping const * getElectronicsMap()
Definition: EcalDQMCommonUtils.cc:479

MonitorElement::setBinLabel
void setBinLabel(int bin, const std::string &label, int axis=1)
set bin label for x, y or z axis (axis=1, 2, 3 respectively)
Definition: MonitorElement.cc:920

ecaldqm::MESetDet2D::reset
void reset(double=0., double=0., double=0.) override
Definition: MESetDet2D.cc:522

EcalTrigTowerDetId
Definition: EcalTrigTowerDetId.h:16

ecaldqm::MESetDet2D::clone
MESet * clone(std::string const &="") const override
Definition: MESetDet2D.cc:29

EcalElectronicsId::towerId
int towerId() const
get the tower id
Definition: EcalElectronicsId.h:37

ecaldqm::MESetDet2D::setBinContent
void setBinContent(DetId const &, double) override
Definition: MESetDet2D.cc:160

ecaldqm::MESet::batchMode_
bool batchMode_
Definition: MESet.h:136

ecaldqm::MESetDet2D::setBinError
void setBinError(DetId const &, double) override
Definition: MESetDet2D.cc:214

getGTfromDQMFile.obj
tuple obj
Definition: getGTfromDQMFile.py:31

ecaldqm::binning::getObject
ObjectType getObject(ObjectType, unsigned)
Definition: MESetBinningUtils.cc:442

ecaldqm::MESetDet2D::book
void book(DQMStore::IBooker &) override
Definition: MESetDet2D.cc:39

hlt_dqm_clientPB-live_cfg.me
tuple me
Definition: hlt_dqm_clientPB-live_cfg.py:43

ecaldqm::MESetEcal
Definition: MESetEcal.h:15

AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:255

ecaldqm::isEndcapTTId
bool isEndcapTTId(DetId const &)
Definition: EcalDQMCommonUtils.cc:310

ecaldqm::MESetDet2D::~MESetDet2D
~MESetDet2D()
Definition: MESetDet2D.cc:24

ecaldqm::MESet::mes_
std::vector< MonitorElement * > mes_
Definition: MESet.h:129

ecaldqm::binning::kCrystal
Definition: MESetBinningUtils.h:44

ecaldqm::MESetDet2D::fill
void fill(DetId const &, double=1., double=0., double=0.) override
Definition: MESetDet2D.cc:85

newFWLiteAna.bin
string bin
Definition: newFWLiteAna.py:160

ecaldqm::MESet::throw_
void throw_(std::string const &_message) const
Definition: MESet.h:124

ecaldqm::getTrigTowerMap
EcalTrigTowerConstituentsMap const * getTrigTowerMap()
Definition: EcalDQMCommonUtils.cc:503

ecaldqm::binning::ObjectType
ObjectType
Definition: MESetBinningUtils.h:20

ecaldqm::MESetDet2D::fill_
void fill_(unsigned, int, double) override
Definition: MESetDet2D.cc:556

MonitorElement::DQM_KIND_TPROFILE2D
Definition: MonitorElement.h:63

ecaldqm::binning::kMEM
Definition: MESetBinningUtils.h:32

MonitorElement::getTH1
TH1 * getTH1(void) const
Definition: MonitorElement.cc:1450

MonitorElement::setBinError
void setBinError(int binx, double error)
set uncertainty on content of bin (1-D)
Definition: MonitorElement.cc:869

btvTracks_cfi._content
tuple _content
Definition: btvTracks_cfi.py:5

ecaldqm::MESetDet2D::getBinError
double getBinError(DetId const &, int=0) const override
Definition: MESetDet2D.cc:377

EcalElectronicsId::dccId
int dccId() const
get the DCC (Ecal Local DCC value not global one) id
Definition: EcalElectronicsId.h:35

ecaldqm::binning::channelName
std::string channelName(uint32_t, BinningType _btype=kDCC)
Definition: MESetBinningUtils.cc:555

ecaldqm::MESet
Definition: MESet.h:29

filterCSVwithJSON.copy
tuple copy
Definition: filterCSVwithJSON.py:35

EcalDQMCommonUtils.h

ecaldqm::MESet::fill_
virtual void fill_(unsigned, int, double)
Definition: MESet.cc:278

ecaldqm::memDCCId
unsigned memDCCId(unsigned)
Definition: EcalDQMCommonUtils.cc:46

MonitorElement
Definition: MonitorElement.h:37

DetId
Definition: DetId.h:18

ecaldqm::binning::kEEMEM
Definition: MESetBinningUtils.h:34

ecaldqm::MESetDet2D::getBinContent
double getBinContent(DetId const &, int=0) const override
Definition: MESetDet2D.cc:324

ecaldqm::binning::kTriggerTower
Definition: MESetBinningUtils.h:45

ecaldqm::binning::findBin2D
int findBin2D(ObjectType, BinningType, DetId const &)
Definition: MESetBinningUtils.cc:248

ecaldqm::MESet::softReset
virtual void softReset()
Definition: MESet.cc:256

ecaldqm::binning::findPlotIndex
unsigned findPlotIndex(ObjectType, DetId const &)
Definition: MESetBinningUtils.cc:306

fed_dqm_sourceclient-live_cfg.path
string path
Definition: fed_dqm_sourceclient-live_cfg.py:33

ecaldqm::MESet::resetAll
virtual void resetAll(double=0., double=0., double=0.)
Definition: MESet.cc:118

ecaldqm::MESet::active_
bool active_
Definition: MESet.h:138

ecaldqm::kEBmLow
Definition: EcalDQMCommonUtils.h:35

ecaldqm::binning::kEcal
Definition: MESetBinningUtils.h:31

ecaldqm::MESetDet2D::softReset
void softReset() override
Definition: MESetDet2D.cc:548

ecaldqm::binning::kEBMEM
Definition: MESetBinningUtils.h:33

MonitorElement::getNbinsX
int getNbinsX(void) const
get # of bins in X-axis
Definition: MonitorElement.cc:725

ecaldqm::MESetDet2D::findBin
int findBin(DetId const &) const
Definition: MESetDet2D.cc:491

ecaldqm::MESet::otype_
binning::ObjectType otype_
Definition: MESet.h:132

ecaldqm::MESetDet2D::setBinEntries
void setBinEntries(DetId const &, double) override
Definition: MESetDet2D.cc:268

ecaldqm::MESetDet2D
Definition: MESetDet2D.h:12

ecaldqm::MESetDet2D::MESetDet2D
MESetDet2D(std::string const &, binning::ObjectType, binning::BinningType, MonitorElement::Kind, binning::AxisSpecs const *=0)
Definition: MESetDet2D.cc:7

ecaldqm::MESet::btype_
binning::BinningType btype_
Definition: MESet.h:133

DQMStore::IBooker
Definition: DQMStore.h:90

MonitorElement::DQM_KIND_TH2F
Definition: MonitorElement.h:58

ecaldqm::MESet::path_
std::string path_
Definition: MESet.h:131

MonitorElement::setBinEntries
void setBinEntries(int bin, double nentries)
set # of bin entries (to be used for profiles)
Definition: MonitorElement.cc:896

ecaldqm::binning::kPseudoStrip
Definition: MESetBinningUtils.h:47

ecaldqm::MESetEcal::book
void book(DQMStore::IBooker &) override
Definition: MESetEcal.cc:69

ecaldqm::binning::kRCT
Definition: MESetBinningUtils.h:52