#include <EcalSimpleTBAnalyzer.h>

Inheritance diagram for EcalSimpleTBAnalyzer:

Public Member Functions
virtual void	analyze (const edm::Event &, const edm::EventSetup &)

virtual void	beginJob ()

	EcalSimpleTBAnalyzer (const edm::ParameterSet &)

virtual void	endJob ()

	~EcalSimpleTBAnalyzer ()

Public Member Functions inherited from edm::EDAnalyzer
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)

	EDAnalyzer ()

ModuleDescription const &	moduleDescription () const

std::string	workerType () const

virtual	~EDAnalyzer ()

Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const

	EDConsumerBase ()

ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const

void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	modulesDependentUpon (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const

void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const

bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Private Attributes
std::string	digiCollection_

std::string	digiProducer_

std::string	eventHeaderCollection_

std::string	eventHeaderProducer_

TH2F *	h_ampltdc

TH1F *	h_bprofx

TH1F *	h_bprofy

TH1F *	h_e1e25

TH2F *	h_e1e25_mapx

TH2F *	h_e1e25_mapy

TH1F *	h_e1e9

TH2F *	h_e1e9_mapx

TH2F *	h_e1e9_mapy

TH1F *	h_e1x1

TH1F *	h_e1x1_center

TH1F *	h_e3x3

TH1F *	h_e3x3_center

TH1F *	h_e5x5

TH1F *	h_e5x5_center

TH1F *	h_e9e25

TH2F *	h_e9e25_mapx

TH2F *	h_e9e25_mapy

TH2F *	h_mapx [25]

TH2F *	h_mapy [25]

TH1F *	h_qualx

TH1F *	h_qualy

TH2F *	h_Shape_

TH1F *	h_slopex

TH1F *	h_slopey

TH1F *	h_tableIsMoving

std::string	hitCollection_

std::string	hitProducer_

std::string	hodoRecInfoCollection_

std::string	hodoRecInfoProducer_

std::string	rootfile_

std::string	tdcRecInfoCollection_

std::string	tdcRecInfoProducer_

EBDetId	xtalInBeam_

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Static Public Member Functions inherited from edm::EDAnalyzer
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &)

Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)

EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)

ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...

template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()

void	consumesMany (const TypeToGet &id)

template<BranchType B>
void	consumesMany (const TypeToGet &id)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)

EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Detailed Description

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>="">

Definition at line 42 of file EcalSimpleTBAnalyzer.h.

Constructor & Destructor Documentation

EcalSimpleTBAnalyzer::EcalSimpleTBAnalyzer ( const edm::ParameterSet & iConfig )

explicit

Definition at line 45 of file EcalSimpleTBAnalyzer.cc.

References gather_cfg::cout, digiCollection_, digiProducer_, eventHeaderCollection_, eventHeaderProducer_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), hitCollection_, hitProducer_, hodoRecInfoCollection_, hodoRecInfoProducer_, rootfile_, AlCaHLTBitMon_QueryRunRegistry::string, tdcRecInfoCollection_, and tdcRecInfoProducer_.

                                                                            : xtalInBeam_(0)
 //========================================================================
 {
    //now do what ever initialization is needed
    rootfile_          = iConfig.getUntrackedParameter<std::string>("rootfile","ecalSimpleTBanalysis.root");
    digiCollection_     = iConfig.getParameter<std::string>("digiCollection");
    digiProducer_       = iConfig.getParameter<std::string>("digiProducer");
    hitCollection_     = iConfig.getParameter<std::string>("hitCollection");
    hitProducer_       = iConfig.getParameter<std::string>("hitProducer");
    hodoRecInfoCollection_     = iConfig.getParameter<std::string>("hodoRecInfoCollection");
    hodoRecInfoProducer_       = iConfig.getParameter<std::string>("hodoRecInfoProducer");
    tdcRecInfoCollection_     = iConfig.getParameter<std::string>("tdcRecInfoCollection");
    tdcRecInfoProducer_       = iConfig.getParameter<std::string>("tdcRecInfoProducer");
    eventHeaderCollection_     = iConfig.getParameter<std::string>("eventHeaderCollection");
    eventHeaderProducer_       = iConfig.getParameter<std::string>("eventHeaderProducer");
 
 
    std::cout << "EcalSimpleTBAnalyzer: fetching hitCollection: " << hitCollection_.c_str()
     << " produced by " << hitProducer_.c_str() << std::endl;
 
 }

EcalSimpleTBAnalyzer::~EcalSimpleTBAnalyzer ( )

Definition at line 69 of file EcalSimpleTBAnalyzer.cc.

 {
   // do anything here that needs to be done at desctruction time
   // (e.g. close files, deallocate resources etc.)
   // Amplitude vs TDC offset
 //   if (h_ampltdc)
 //   delete h_ampltdc;
   
 //   // Reconstructed energies
 //   delete h_e1x1;
 //   delete h_e3x3; 
 //   delete h_e5x5; 
   
 //   delete h_bprofx; 
 //   delete h_bprofy; 
   
 //   delete h_qualx; 
 //   delete h_qualy; 
   
 //   delete h_slopex; 
 //   delete h_slopey; 
   
 //   delete h_mapx; 
 //   delete h_mapy; 
 
 }

Member Function Documentation

void EcalSimpleTBAnalyzer::analyze	(	const edm::Event &	iEvent,
		const edm::EventSetup &	iSetup
	)

virtual

std::cout << "** Xtal in the matrix **** row " << row << ", column " << column << ", xtal " << Xtals5x5[icry].ic() << std::endl;

Implements edm::EDAnalyzer.

Definition at line 214 of file EcalSimpleTBAnalyzer.cc.

References EcalMGPASample::adc(), column, gather_cfg::cout, digiCollection_, digiProducer_, EBDetId::ETAPHIMODE, eventHeaderProducer_, edm::Event::getByLabel(), h_ampltdc, h_bprofx, h_bprofy, h_e1e25, h_e1e25_mapx, h_e1e25_mapy, h_e1e9, h_e1e9_mapx, h_e1e9_mapy, h_e1x1, h_e1x1_center, h_e3x3, h_e3x3_center, h_e5x5, h_e5x5_center, h_e9e25, h_e9e25_mapx, h_e9e25_mapy, h_mapx, h_mapy, h_qualx, h_qualy, h_Shape_, h_slopex, h_slopey, h_tableIsMoving, hitCollection_, hitProducer_, hodoRecInfoCollection_, hodoRecInfoProducer_, i, EBDetId::ic(), EBDetId::ieta(), EBDetId::iphi(), EBDetId::ism(), DetId::null(), compare_using_db::sample, EcalDataFrame::sample(), EcalDataFrame::size(), EBDetId::SMCRYSTALMODE, tdcRecInfoCollection_, tdcRecInfoProducer_, x, xtalInBeam_, and y.

                                                                                    {
 //========================================================================
 
    using namespace edm;
    using namespace cms;
 
 
 
    Handle<EBDigiCollection> pdigis;
    const EBDigiCollection* digis=0;
    //std::cout << "EcalSimpleTBAnalyzer::analyze getting product with label: " << digiProducer_.c_str()<< " prodname: " << digiCollection_.c_str() << endl;
    iEvent.getByLabel( digiProducer_, digiCollection_,pdigis);
    if ( pdigis.isValid() ) {
      digis = pdigis.product(); // get a ptr to the product
      //iEvent.getByLabel( hitProducer_, phits);
    } else {
            edm::LogError("EcalSimpleTBAnalyzerError") << "Error! can't get the product " << digiCollection_;
    }
 
    // fetch the digis and compute signal amplitude
    Handle<EBUncalibratedRecHitCollection> phits;
    const EBUncalibratedRecHitCollection* hits=0;
    //std::cout << "EcalSimpleTBAnalyzer::analyze getting product with label: " << digiProducer_.c_str()<< " prodname: " << digiCollection_.c_str() << endl;
    iEvent.getByLabel( hitProducer_, hitCollection_,phits);
    if (phits.isValid()) {
      hits = phits.product(); // get a ptr to the product
      //iEvent.getByLabel( hitProducer_, phits);
    } else {
            edm::LogError("EcalSimpleTBAnalyzerError") << "Error! can't get the product " << hitCollection_;
    }
 
    Handle<EcalTBHodoscopeRecInfo> pHodo;
    const EcalTBHodoscopeRecInfo* recHodo=0;
    //std::cout << "EcalSimpleTBAnalyzer::analyze getting product with label: " << digiProducer_.c_str()<< " prodname: " << digiCollection_.c_str() << endl;
    iEvent.getByLabel( hodoRecInfoProducer_, hodoRecInfoCollection_, pHodo);
    if ( pHodo.isValid() ) {
      recHodo = pHodo.product(); // get a ptr to the product
    } else {
            edm::LogError("EcalSimpleTBAnalyzerError") << "Error! can't get the product " << hodoRecInfoCollection_;
    }
 
    Handle<EcalTBTDCRecInfo> pTDC;
    const EcalTBTDCRecInfo* recTDC=0;
    //std::cout << "EcalSimpleTBAnalyzer::analyze getting product with label: " << digiProducer_.c_str()<< " prodname: " << digiCollection_.c_str() << endl;
    iEvent.getByLabel( tdcRecInfoProducer_, tdcRecInfoCollection_, pTDC);
    if ( pTDC.isValid() ) {
      recTDC = pTDC.product(); // get a ptr to the product
    } else {
            edm::LogError("EcalSimpleTBAnalyzerError") << "Error! can't get the product " << tdcRecInfoCollection_;
    }
 
    Handle<EcalTBEventHeader> pEventHeader;
    const EcalTBEventHeader* evtHeader=0;
    //std::cout << "EcalSimpleTBAnalyzer::analyze getting product with label: " << digiProducer_.c_str()<< " prodname: " << digiCollection_.c_str() << endl;
    iEvent.getByLabel( eventHeaderProducer_ , pEventHeader );
    if ( pEventHeader.isValid() ) {
      evtHeader = pEventHeader.product(); // get a ptr to the product
    } else {
            edm::LogError("EcalSimpleTBAnalyzerError") << "Error! can't get the product " << eventHeaderProducer_;
    }
    
    if (!hits)
      return;
 
    if (!recTDC)
      return;
 
    if (!recHodo)
      return;
 
    if (!evtHeader)
      return;
 
    if (hits->size() == 0)
      return;
 
    if (evtHeader->tableIsMoving())
      h_tableIsMoving->Fill(evtHeader->eventNumber());
 
    // Crystal hit by beam
    if (xtalInBeam_.null())
      {
        xtalInBeam_ = EBDetId(1,evtHeader->crystalInBeam(),EBDetId::SMCRYSTALMODE);
        std::cout<< "Xtal In Beam is " << xtalInBeam_.ic() << std::endl;
      }
    else if (xtalInBeam_ != EBDetId(1,evtHeader->crystalInBeam(),EBDetId::SMCRYSTALMODE))
      return;
 
    if (evtHeader->tableIsMoving())
      return;
    
    
 //    EBDetId maxHitId(0); 
 //    float maxHit= -999999.;
    
 //    for(EBUncalibratedRecHitCollection::const_iterator ithit = hits->begin(); ithit != hits->end(); ++ithit) 
 //      {
 //        if (ithit->amplitude()>=maxHit)
 //   {
 //     maxHit=ithit->amplitude();
 //     maxHitId=ithit->id();
 //   }
        
 //      }   
 
 //    if (maxHitId==EBDetId(0))
 //      return;
 
 //   EBDetId maxHitId(1,704,EBDetId::SMCRYSTALMODE); 
 
    //Find EBDetId in a 5x5 Matrix (to be substituted by the Selector code)
    // Something like 
    // EBFixedWindowSelector<EcalUncalibratedRecHit> Simple5x5Matrix(hits,maxHitId,5,5);
    // std::vector<EcalUncalibratedRecHit> Energies5x5 = Simple5x5Matrix.getHits();
 
 
    EBDetId Xtals5x5[25];
    for (unsigned int icry=0;icry<25;icry++)
      {
        unsigned int row = icry / 5;
        unsigned int column= icry %5;
        int ieta=xtalInBeam_.ieta()+column-2;
        int iphi=xtalInBeam_.iphi()+row-2;
        EBDetId tempId(ieta, iphi,EBDetId::ETAPHIMODE);
        if (tempId.ism()==1) 
                Xtals5x5[icry]=tempId;
        else
                Xtals5x5[icry]=EBDetId(0);
      } 
 
 
    
    double samples_save[10]; for(int i=0; i < 10; ++i) samples_save[i]=0.0;
    
    // find the rechit corresponding digi and the max sample
    EBDigiCollection::const_iterator myDg = digis->find(xtalInBeam_);
    double eMax = 0.;
    if (myDg != digis->end())
      {
        EBDataFrame myDigi = (*myDg);
        for (int sample = 0; sample < myDigi.size(); ++sample)
      {
        double analogSample = myDigi.sample(sample).adc();
        samples_save[sample] = analogSample;
        //  std::cout << analogSample << " ";
        if ( eMax < analogSample )
          {
            eMax = analogSample;
          }
      }
        // std::cout << std::endl;
      }
 
    for(int i =0; i < 10; ++i) {
      h_Shape_->Fill(double(i)+recTDC->offset(),samples_save[i]);
    }
 
    double amplitude[25];
    
    double amplitude3x3=0;  
    double amplitude5x5=0;  
    
    for (unsigned int icry=0;icry<25;icry++)
      {
        if (!Xtals5x5[icry].null())
      {
        amplitude[icry]=(hits->find(Xtals5x5[icry]))->amplitude();
        amplitude5x5 += amplitude[icry];
        // Is in 3x3?
        if ( icry == 6  || icry == 7  || icry == 8 ||
         icry == 11 || icry == 12 || icry ==13 ||
         icry == 16 || icry == 17 || icry ==18   )
          {
            amplitude3x3+=amplitude[icry];
          }
      }
      }
 
 
    h_e1x1->Fill(amplitude[12]);
    h_e3x3->Fill(amplitude3x3);
    h_e5x5->Fill(amplitude5x5);
 
    h_e1e9->Fill(amplitude[12]/amplitude3x3);
    h_e1e25->Fill(amplitude[12]/amplitude5x5);
    h_e9e25->Fill(amplitude3x3/amplitude5x5);
 
    if (recTDC)
      h_ampltdc->Fill(recTDC->offset(),amplitude[12]);
 
    if (recHodo)
      {
        float x=recHodo->posX();
        float y=recHodo->posY();
        float xslope=recHodo->slopeX();
        float yslope=recHodo->slopeY();
        float xqual=recHodo->qualX();
        float yqual=recHodo->qualY();
        
        //Filling beam profiles
        h_bprofx->Fill(x);
        h_bprofy->Fill(y);
        h_qualx->Fill(xqual);
        h_qualy->Fill(yqual);
        h_slopex->Fill(xslope);
        h_slopey->Fill(yslope);
 
        //Fill central events
 
        
        if ( fabs(x + 2.5) < 2.5 && fabs(y + 0.5) < 2.5)
      {
        h_e1x1_center->Fill(amplitude[12]);
        h_e3x3_center->Fill(amplitude3x3);
        h_e5x5_center->Fill(amplitude5x5);
        
        h_e1e9->Fill(amplitude[12]/amplitude3x3);
        h_e1e25->Fill(amplitude[12]/amplitude5x5);
        h_e9e25->Fill(amplitude3x3/amplitude5x5);
      }
 
        for (unsigned int icry=0;icry<25;icry++)
      {       
        h_mapx[icry]->Fill(x,amplitude[icry]);
        h_mapy[icry]->Fill(y,amplitude[icry]);
      }
 
        h_e1e9_mapx->Fill(x,amplitude[12]/amplitude3x3);
        h_e1e9_mapy->Fill(y,amplitude[12]/amplitude3x3);
 
        h_e1e25_mapx->Fill(x,amplitude[12]/amplitude5x5);
        h_e1e25_mapy->Fill(y,amplitude[12]/amplitude5x5);
 
        h_e9e25_mapx->Fill(x,amplitude3x3/amplitude5x5);
        h_e9e25_mapy->Fill(y,amplitude3x3/amplitude5x5);
      }
 
 }

void EcalSimpleTBAnalyzer::beginJob ( void )

virtual

Reimplemented from edm::EDAnalyzer.

Definition at line 99 of file EcalSimpleTBAnalyzer.cc.

References alignCSCRings::e, h_ampltdc, h_bprofx, h_bprofy, h_e1e25, h_e1e25_mapx, h_e1e25_mapy, h_e1e9, h_e1e9_mapx, h_e1e9_mapy, h_e1x1, h_e1x1_center, h_e3x3, h_e3x3_center, h_e5x5, h_e5x5_center, h_e9e25, h_e9e25_mapx, h_e9e25_mapy, h_mapx, h_mapy, h_qualx, h_qualy, h_Shape_, h_slopex, h_slopey, and h_tableIsMoving.

                                {
 //========================================================================
 
   // Amplitude vs TDC offset
   h_ampltdc = new TH2F("h_ampltdc","Max Amplitude vs TDC offset", 100,0.,1.,1000, 0., 4000.);
 
   // Reconstructed energies
   h_tableIsMoving = new TH1F("h_tableIsMoving","TableIsMoving", 100000, 0., 100000.);
 
   h_e1x1 = new TH1F("h_e1x1","E1x1 energy", 1000, 0., 4000.);
   h_e3x3 = new TH1F("h_e3x3","E3x3 energy", 1000, 0., 4000.);
   h_e5x5 = new TH1F("h_e5x5","E5x5 energy", 1000, 0., 4000.);
 
   h_e1x1_center = new TH1F("h_e1x1_center","E1x1 energy", 1000, 0., 4000.);
   h_e3x3_center = new TH1F("h_e3x3_center","E3x3 energy", 1000, 0., 4000.);
   h_e5x5_center = new TH1F("h_e5x5_center","E5x5 energy", 1000, 0., 4000.);
 
   h_e1e9 = new TH1F("h_e1e9","E1/E9 ratio", 600, 0., 1.2);
   h_e1e25 = new TH1F("h_e1e25","E1/E25 ratio", 600, 0., 1.2);
   h_e9e25 = new TH1F("h_e9e25","E9/E25 ratio", 600, 0., 1.2);
 
   h_bprofx = new TH1F("h_bprofx","Beam Profile X",100,-20.,20.);
   h_bprofy = new TH1F("h_bprofy","Beam Profile Y",100,-20.,20.);
 
   h_qualx = new TH1F("h_qualx","Beam Quality X",5000,0.,5.);
   h_qualy = new TH1F("h_qualy","Beam Quality X",5000,0.,5.);
 
   h_slopex = new TH1F("h_slopex","Beam Slope X",500, -5e-4 , 5e-4 );
   h_slopey = new TH1F("h_slopey","Beam Slope Y",500, -5e-4 , 5e-4 );
 
   char hname[50];
   char htitle[50];
   for (unsigned int icry=0;icry<25;icry++)
     {       
       sprintf(hname,"h_mapx_%d",icry);
       sprintf(htitle,"Max Amplitude vs X %d",icry);
       h_mapx[icry] = new TH2F(hname,htitle,80,-20,20,1000,0.,4000.);
       sprintf(hname,"h_mapy_%d",icry);
       sprintf(htitle,"Max Amplitude vs Y %d",icry);
       h_mapy[icry] = new TH2F(hname,htitle,80,-20,20,1000,0.,4000.);
     }
   
   h_e1e9_mapx = new TH2F("h_e1e9_mapx","E1/E9 vs X",80,-20,20,600,0.,1.2);
   h_e1e9_mapy = new TH2F("h_e1e9_mapy","E1/E9 vs Y",80,-20,20,600,0.,1.2);
 
   h_e1e25_mapx = new TH2F("h_e1e25_mapx","E1/E25 vs X",80,-20,20,600,0.,1.2);
   h_e1e25_mapy = new TH2F("h_e1e25_mapy","E1/E25 vs Y",80,-20,20,600,0.,1.2);
 
   h_e9e25_mapx = new TH2F("h_e9e25_mapx","E9/E25 vs X",80,-20,20,600,0.,1.2);
   h_e9e25_mapy = new TH2F("h_e9e25_mapy","E9/E25 vs Y",80,-20,20,600,0.,1.2);
 
   h_Shape_ = new TH2F("h_Shape_","Xtal in Beam Shape",250,0,10,350,0,3500);
 
 }

void EcalSimpleTBAnalyzer::endJob ( void )

virtual

Reimplemented from edm::EDAnalyzer.

Definition at line 156 of file EcalSimpleTBAnalyzer.cc.

References f, h_ampltdc, h_bprofx, h_bprofy, h_e1e25, h_e1e25_mapx, h_e1e25_mapy, h_e1e9, h_e1e9_mapx, h_e1e9_mapy, h_e1x1, h_e1x1_center, h_e3x3, h_e3x3_center, h_e5x5, h_e5x5_center, h_e9e25, h_e9e25_mapx, h_e9e25_mapy, h_mapx, h_mapy, h_qualx, h_qualy, h_Shape_, h_slopex, h_slopey, h_tableIsMoving, and rootfile_.

                              {
 //========================================================================
 
   TFile f(rootfile_.c_str(),"RECREATE");
 
   // Amplitude vs TDC offset
   h_ampltdc->Write(); 
 
   // Reconstructed energies
   h_e1x1->Write(); 
   h_e3x3->Write(); 
   h_e5x5->Write(); 
 
   h_e1x1_center->Write(); 
   h_e3x3_center->Write(); 
   h_e5x5_center->Write(); 
 
   h_e1e9->Write(); 
   h_e1e25->Write(); 
   h_e9e25->Write(); 
 
   h_bprofx->Write(); 
   h_bprofy->Write(); 
 
   h_qualx->Write(); 
   h_qualy->Write(); 
 
   h_slopex->Write(); 
   h_slopey->Write(); 
   
   h_Shape_->Write();
 
   for (unsigned int icry=0;icry<25;icry++)
     {       
       h_mapx[icry]->Write(); 
       h_mapy[icry]->Write(); 
     }
 
   h_e1e9_mapx->Write(); 
   h_e1e9_mapy->Write(); 
 
   h_e1e25_mapx->Write(); 
   h_e1e25_mapy->Write(); 
 
   h_e9e25_mapx->Write(); 
   h_e9e25_mapy->Write(); 
 
   h_tableIsMoving->Write();
 
   f.Close();
 }