#include <SiPixelRecHitModule.h>

Public Member Functions
void	book (const edm::ParameterSet &iConfig, int type=0, bool twoD=true, bool reducedSet=false)
	Book histograms.
void	fill (const float &rechit_x, const float &rechit_y, const int &sizeX, const int &sizeY, const float &lerr_x, const float &lerr_y, bool modon=true, bool ladon=false, bool layon=false, bool phion=false, bool bladeon=false, bool diskon=false, bool ringon=false, bool twoD=true, bool reducedSet=false)
	Fill histograms.
void	nfill (const int &nrec, bool modon=true, bool ladon=false, bool layon=false, bool phion=false, bool bladeon=false, bool diskon=false, bool ringon=false)
	SiPixelRecHitModule (const uint32_t &id)
	Constructor with raw DetId.
	SiPixelRecHitModule ()
	Default constructor.
	~SiPixelRecHitModule ()
	Destructor.
Private Attributes
uint32_t	id_
MonitorElement *	meClustX_
MonitorElement *	meClustXBlade_
MonitorElement *	meClustXDisk_
MonitorElement *	meClustXLad_
MonitorElement *	meClustXLay_
MonitorElement *	meClustXPhi_
MonitorElement *	meClustXRing_
MonitorElement *	meClustY_
MonitorElement *	meClustYBlade_
MonitorElement *	meClustYDisk_
MonitorElement *	meClustYLad_
MonitorElement *	meClustYLay_
MonitorElement *	meClustYPhi_
MonitorElement *	meClustYRing_
MonitorElement *	meErrorX_
MonitorElement *	meErrorXBlade_
MonitorElement *	meErrorXDisk_
MonitorElement *	meErrorXLad_
MonitorElement *	meErrorXLay_
MonitorElement *	meErrorXPhi_
MonitorElement *	meErrorXRing_
MonitorElement *	meErrorY_
MonitorElement *	meErrorYBlade_
MonitorElement *	meErrorYDisk_
MonitorElement *	meErrorYLad_
MonitorElement *	meErrorYLay_
MonitorElement *	meErrorYPhi_
MonitorElement *	meErrorYRing_
MonitorElement *	menRecHits_
MonitorElement *	menRecHitsBlade_
MonitorElement *	menRecHitsDisk_
MonitorElement *	menRecHitsLad_
MonitorElement *	menRecHitsLay_
MonitorElement *	menRecHitsPhi_
MonitorElement *	menRecHitsRing_
MonitorElement *	meXYPos_
MonitorElement *	meXYPos_px_
MonitorElement *	meXYPos_py_
MonitorElement *	meXYPosLad_
MonitorElement *	meXYPosLad_px_
MonitorElement *	meXYPosLad_py_
MonitorElement *	meXYPosLay_
MonitorElement *	meXYPosLay_px_
MonitorElement *	meXYPosLay_py_
MonitorElement *	meXYPosPhi_
MonitorElement *	meXYPosPhi_px_
MonitorElement *	meXYPosPhi_py_
MonitorElement *	meXYPosRing_
MonitorElement *	meXYPosRing_px_
MonitorElement *	meXYPosRing_py_

Detailed Description

Definition at line 34 of file SiPixelRecHitModule.h.

Constructor & Destructor Documentation

SiPixelRecHitModule::SiPixelRecHitModule ( )

Default constructor.

Framework.

Definition at line 21 of file SiPixelRecHitModule.cc.

: id_(0) { }

SiPixelRecHitModule::SiPixelRecHitModule ( const uint32_t & id )

Constructor with raw DetId.

Definition at line 23 of file SiPixelRecHitModule.cc.

SiPixelRecHitModule::~SiPixelRecHitModule ( )

Destructor.

Definition at line 31 of file SiPixelRecHitModule.cc.

{}

Member Function Documentation

void SiPixelRecHitModule::book	(	const edm::ParameterSet &	iConfig,
		int	type = `0`,
		bool	twoD = `true`,
		bool	reducedSet = `false`
	)

Book histograms.

Definition at line 35 of file SiPixelRecHitModule.cc.

References Reference_intrackfit_cff::barrel, PixelEndcapName::bladeName(), PixelEndcapName::diskName(), Reference_intrackfit_cff::endcap, edm::ParameterSet::getParameter(), id_, PixelBarrelName::isHalfModule(), edm::InputTag::label(), PixelBarrelName::ladderName(), PixelBarrelName::layerName(), meClustX_, meClustXBlade_, meClustXDisk_, meClustXLad_, meClustXLay_, meClustXPhi_, meClustXRing_, meClustY_, meClustYBlade_, meClustYDisk_, meClustYLad_, meClustYLay_, meClustYPhi_, meClustYRing_, meErrorX_, meErrorXBlade_, meErrorXDisk_, meErrorXLad_, meErrorXLay_, meErrorXPhi_, meErrorXRing_, meErrorY_, meErrorYBlade_, meErrorYDisk_, meErrorYLad_, meErrorYLay_, meErrorYPhi_, meErrorYRing_, menRecHitsBlade_, menRecHitsDisk_, menRecHitsLad_, menRecHitsLay_, menRecHitsPhi_, menRecHitsRing_, meXYPos_, meXYPos_px_, meXYPos_py_, meXYPosLad_, meXYPosLad_px_, meXYPosLad_py_, meXYPosLay_, meXYPosLay_px_, meXYPosLay_py_, meXYPosPhi_, meXYPosPhi_px_, meXYPosPhi_py_, meXYPosRing_, meXYPosRing_px_, meXYPosRing_py_, PixelBarrelName::moduleName(), cppFunctionSkipper::operator, PixelEndcapName::pannelName(), GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, PixelEndcapName::plaquetteName(), MonitorElement::setAxisTitle(), SiPixelHistogramId::setHistoId(), alcazmumu_cfi::src, and DetId::subdetId().

                                                           {

  bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
  bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
  bool isHalfModule = false;
  if(barrel){
    isHalfModule = PixelBarrelName(DetId(id_)).isHalfModule(); 
  }

  std::string hid;
  // Get collection name and instantiate Histo Id builder
  edm::InputTag src = iConfig.getParameter<edm::InputTag>( "src" );
  // Get DQM interface
  DQMStore* theDMBE = edm::Service<DQMStore>().operator->();


  if(type==0){
    SiPixelHistogramId* theHistogramId = new SiPixelHistogramId( src.label() );
        if(!reducedSet)
        {
    if(twoD){
      // XYPosition
      hid = theHistogramId->setHistoId("xypos",id_);
      meXYPos_ = theDMBE->book2D(hid,"XY Position",100,-1.,1,100,-4,4);
      meXYPos_->setAxisTitle("X Position",1);
      meXYPos_->setAxisTitle("Y Position",2);
    }
    else{
      // projections of XYPosition
      hid = theHistogramId->setHistoId("xypos",id_);
      meXYPos_px_ = theDMBE->book1D(hid+"_px","X Position",100,-1.,1);
      meXYPos_px_->setAxisTitle("X Position",1);
      meXYPos_py_ = theDMBE->book1D(hid+"_py","Y Position",100,-4,4);
      meXYPos_py_->setAxisTitle("Y Position",1);
    }
        }
    hid = theHistogramId->setHistoId("ClustX",id_);
    meClustX_ = theDMBE->book1D(hid, "RecHit X size", 10, 0., 10.);
    meClustX_->setAxisTitle("RecHit size X dimension", 1);
    hid = theHistogramId->setHistoId("ClustY",id_);
    meClustY_ = theDMBE->book1D(hid, "RecHit Y size", 15, 0., 15.);
    meClustY_->setAxisTitle("RecHit size Y dimension", 1); 

    hid = theHistogramId->setHistoId("ErrorX",id_);
    meErrorX_ = theDMBE->book1D(hid, "RecHit error X", 100,0.,0.02);
    meErrorX_->setAxisTitle("RecHit error X", 1);
    hid = theHistogramId->setHistoId("ErrorY",id_);
    meErrorY_ = theDMBE->book1D(hid, "RecHit error Y", 100,0.,0.02);
    meErrorY_->setAxisTitle("RecHit error Y", 1);

    //Removed to save offline memory
    //hid = theHistogramId->setHistoId("nRecHits",id_);
    //menRecHits_ = theDMBE->book1D(hid, "# of rechits in this module", 8, 0, 8);
    //menRecHits_->setAxisTitle("number of rechits",1);  
    delete theHistogramId;
  }

  if(type==1 && barrel){
    uint32_t DBladder = PixelBarrelName(DetId(id_)).ladderName();
    char sladder[80]; sprintf(sladder,"Ladder_%02i",DBladder);
    hid = src.label() + "_" + sladder;
    if(isHalfModule) hid += "H";
    else hid += "F";
        if(!reducedSet)
        {
    if(twoD){
      meXYPosLad_ = theDMBE->book2D("xypos_" + hid,"XY Position",100,-1.,1,100,-4,4);
      meXYPosLad_->setAxisTitle("X Position",1);
      meXYPosLad_->setAxisTitle("Y Position",2);
    }
    else{
      // projections of XYPosition
      meXYPosLad_px_ = theDMBE->book1D("xypos_"+hid+"_px","X Position",100,-1.,1);
      meXYPosLad_px_->setAxisTitle("X Position",1);
      meXYPosLad_py_ = theDMBE->book1D("xypos_"+hid+"_py","Y Position",100,-4,4);
      meXYPosLad_py_->setAxisTitle("Y Position",1);
    }
        }
    meClustXLad_ = theDMBE->book1D("ClustX_" +hid, "RecHit X size", 10, 0., 10.);
    meClustXLad_->setAxisTitle("RecHit size X dimension", 1);
    meClustYLad_ = theDMBE->book1D("ClustY_" +hid,"RecHit Y size", 15, 0.,15.);
    meClustYLad_->setAxisTitle("RecHit size Y dimension", 1);
    meErrorXLad_ = theDMBE->book1D("ErrorX_"+hid, "RecHit error X", 100,0.,0.02);
    meErrorXLad_->setAxisTitle("RecHit error X", 1);
    meErrorYLad_ = theDMBE->book1D("ErrorY_"+hid, "RecHit error Y", 100,0.,0.02);
    meErrorYLad_->setAxisTitle("RecHit error Y", 1);
    menRecHitsLad_ = theDMBE->book1D("nRecHits_"+hid, "# of rechits in this module", 8, 0, 8);
    menRecHitsLad_->setAxisTitle("number of rechits",1);

  }

  if(type==2 && barrel){
    
    uint32_t DBlayer = PixelBarrelName(DetId(id_)).layerName();
    char slayer[80]; sprintf(slayer,"Layer_%i",DBlayer);
    hid = src.label() + "_" + slayer;
    
        if(!reducedSet)
        {
    if(twoD){
      meXYPosLay_ = theDMBE->book2D("xypos_" + hid,"XY Position",100,-1.,1,100,-4,4);
      meXYPosLay_->setAxisTitle("X Position",1);
      meXYPosLay_->setAxisTitle("Y Position",2);
    }
    else{
      // projections of XYPosition
      meXYPosLay_px_ = theDMBE->book1D("xypos_"+hid+"_px","X Position",100,-1.,1);
      meXYPosLay_px_->setAxisTitle("X Position",1);
      meXYPosLay_py_ = theDMBE->book1D("xypos_"+hid+"_py","Y Position",100,-4,4);
      meXYPosLay_py_->setAxisTitle("Y Position",1);
    }
        }

    meClustXLay_ = theDMBE->book1D("ClustX_" +hid, "RecHit X size", 10, 0., 10.);
    meClustXLay_->setAxisTitle("RecHit size X dimension", 1);
    meClustYLay_ = theDMBE->book1D("ClustY_" +hid,"RecHit Y size", 15, 0.,15.);
    meClustYLay_->setAxisTitle("RecHit size Y dimension", 1);
    meErrorXLay_ = theDMBE->book1D("ErrorX_"+hid, "RecHit error X", 100,0.,0.02);
    meErrorXLay_->setAxisTitle("RecHit error X", 1);
    meErrorYLay_ = theDMBE->book1D("ErrorY_"+hid, "RecHit error Y", 100,0.,0.02);
    meErrorYLay_->setAxisTitle("RecHit error Y", 1);
    menRecHitsLay_ = theDMBE->book1D("nRecHits_"+hid, "# of rechits in this module", 8, 0, 8);
    menRecHitsLay_->setAxisTitle("number of rechits",1);

  }

  if(type==3 && barrel){
    uint32_t DBmodule = PixelBarrelName(DetId(id_)).moduleName();
    char smodule[80]; sprintf(smodule,"Ring_%i",DBmodule);
    hid = src.label() + "_" + smodule;
    
        if(!reducedSet)
        {
    if(twoD){
      meXYPosPhi_ = theDMBE->book2D("xypos_" + hid,"XY Position",100,-1.,1,100,-4,4);
      meXYPosPhi_->setAxisTitle("X Position",1);
      meXYPosPhi_->setAxisTitle("Y Position",2);
    }
    else{
      // projections of XYPosition
      meXYPosPhi_px_ = theDMBE->book1D("xypos_"+hid+"_px","X Position",100,-1.,1);
      meXYPosPhi_px_->setAxisTitle("X Position",1);
      meXYPosPhi_py_ = theDMBE->book1D("xypos_"+hid+"_py","Y Position",100,-4,4);
      meXYPosPhi_py_->setAxisTitle("Y Position",1);
    }
        }
    meClustXPhi_ = theDMBE->book1D("ClustX_" +hid, "RecHit X size", 10, 0., 10.);
    meClustXPhi_->setAxisTitle("RecHit size X dimension", 1);
    meClustYPhi_ = theDMBE->book1D("ClustY_" +hid,"RecHit Y size", 15, 0.,15.);
    meClustYPhi_->setAxisTitle("RecHit size Y dimension", 1);
    meErrorXPhi_ = theDMBE->book1D("ErrorX_"+hid, "RecHit error X", 100,0.,0.02);
    meErrorXPhi_->setAxisTitle("RecHit error X", 1);
    meErrorYPhi_ = theDMBE->book1D("ErrorY_"+hid, "RecHit error Y", 100,0.,0.02);
    meErrorYPhi_->setAxisTitle("RecHit error Y", 1);
    menRecHitsPhi_ = theDMBE->book1D("nRecHits_"+hid, "# of rechits in this module", 8, 0, 8);
    menRecHitsPhi_->setAxisTitle("number of rechits",1);

  }

  if(type==4 && endcap){
    uint32_t blade= PixelEndcapName(DetId(id_)).bladeName();
    
    char sblade[80]; sprintf(sblade, "Blade_%02i",blade);
    hid = src.label() + "_" + sblade;
//     meXYPosBlade_ = theDMBE->book2D("xypos_" + hid,"XY Position",100,-1.,1,100,-4,4);
//     meXYPosBlade_->setAxisTitle("X Position",1);
//     meXYPosBlade_->setAxisTitle("Y Position",2);

    meClustXBlade_ = theDMBE->book1D("ClustX_" +hid, "RecHit X size", 10, 0., 10.);
    meClustXBlade_->setAxisTitle("RecHit size X dimension", 1);
    meClustYBlade_ = theDMBE->book1D("ClustY_" +hid,"RecHit Y size", 15, 0.,15.);
    meClustYBlade_->setAxisTitle("RecHit size Y dimension", 1);
    meErrorXBlade_ = theDMBE->book1D("ErrorX_"+hid, "RecHit error X", 100,0.,0.02);
    meErrorXBlade_->setAxisTitle("RecHit error X", 1);
    meErrorYBlade_ = theDMBE->book1D("ErrorY_"+hid, "RecHit error Y", 100,0.,0.02);
    meErrorYBlade_->setAxisTitle("RecHit error Y", 1);
    menRecHitsBlade_ = theDMBE->book1D("nRecHits_"+hid, "# of rechits in this module", 8, 0, 8);
    menRecHitsBlade_->setAxisTitle("number of rechits",1);

  }
  if(type==5 && endcap){
    uint32_t disk = PixelEndcapName(DetId(id_)).diskName();
    
    char sdisk[80]; sprintf(sdisk, "Disk_%i",disk);
    hid = src.label() + "_" + sdisk;
//     meXYPosDisk_ = theDMBE->book2D("xypos_" + hid,"XY Position",100,-1.,1,100,-4,4);
//     meXYPosDisk_->setAxisTitle("X Position",1);
//     meXYPosDisk_->setAxisTitle("Y Position",2);

    meClustXDisk_ = theDMBE->book1D("ClustX_" +hid, "RecHit X size", 10, 0., 10.);
    meClustXDisk_->setAxisTitle("RecHit size X dimension", 1);
    meClustYDisk_ = theDMBE->book1D("ClustY_" +hid,"RecHit Y size", 15, 0.,15.);
    meClustYDisk_->setAxisTitle("RecHit size Y dimension", 1);
    meErrorXDisk_ = theDMBE->book1D("ErrorX_"+hid, "RecHit error X", 100,0.,0.02);
    meErrorXDisk_->setAxisTitle("RecHit error X", 1);
    meErrorYDisk_ = theDMBE->book1D("ErrorY_"+hid, "RecHit error Y", 100,0.,0.02);
    meErrorYDisk_->setAxisTitle("RecHit error Y", 1);
    menRecHitsDisk_ = theDMBE->book1D("nRecHits_"+hid, "# of rechits in this module", 8, 0, 8);
    menRecHitsDisk_->setAxisTitle("number of rechits",1);

  }

  if(type==6 && endcap){
    uint32_t panel= PixelEndcapName(DetId(id_)).pannelName();
    uint32_t module= PixelEndcapName(DetId(id_)).plaquetteName();
    char slab[80]; sprintf(slab, "Panel_%i_Ring_%i",panel, module);
    hid = src.label() + "_" + slab;
    
        if(!reducedSet)
        {
    if(twoD){
      meXYPosRing_ = theDMBE->book2D("xypos_" + hid,"XY Position",100,-1.,1,100,-4,4);
      meXYPosRing_->setAxisTitle("X Position",1);
      meXYPosRing_->setAxisTitle("Y Position",2);
    }
    else{
      // projections of XYPosition
      meXYPosRing_px_ = theDMBE->book1D("xypos_"+hid+"_px","X Position",100,-1.,1);
      meXYPosRing_px_->setAxisTitle("X Position",1);
      meXYPosRing_py_ = theDMBE->book1D("xypos_"+hid+"_py","Y Position",100,-4,4);
      meXYPosRing_py_->setAxisTitle("Y Position",1);
    }
        }
    meClustXRing_ = theDMBE->book1D("ClustX_" +hid, "RecHit X size", 10, 0., 10.);
    meClustXRing_->setAxisTitle("RecHit size X dimension", 1);
    meClustYRing_ = theDMBE->book1D("ClustY_" +hid,"RecHit Y size", 15, 0.,15.);
    meClustYRing_->setAxisTitle("RecHit size Y dimension", 1);
    meErrorXRing_ = theDMBE->book1D("ErrorX_"+hid, "RecHit error X", 100,0.,0.02);
    meErrorXRing_->setAxisTitle("RecHit error X", 1);
    meErrorYRing_ = theDMBE->book1D("ErrorY_"+hid, "RecHit error Y", 100,0.,0.02);
    meErrorYRing_->setAxisTitle("RecHit error Y", 1);
    menRecHitsRing_ = theDMBE->book1D("nRecHits_"+hid, "# of rechits in this module", 8, 0, 8);
    menRecHitsRing_->setAxisTitle("number of rechits",1);

  }

}

void SiPixelRecHitModule::fill	(	const float &	rechit_x,
		const float &	rechit_y,
		const int &	sizeX,
		const int &	sizeY,
		const float &	lerr_x,
		const float &	lerr_y,
		bool	modon = `true`,
		bool	ladon = `false`,
		bool	layon = `false`,
		bool	phion = `false`,
		bool	bladeon = `false`,
		bool	diskon = `false`,
		bool	ringon = `false`,
		bool	twoD = `true`,
		bool	reducedSet = `false`
	)

Fill histograms.

Definition at line 276 of file SiPixelRecHitModule.cc.

References Reference_intrackfit_cff::barrel, Reference_intrackfit_cff::endcap, MonitorElement::Fill(), id_, meClustX_, meClustXBlade_, meClustXDisk_, meClustXLad_, meClustXLay_, meClustXPhi_, meClustXRing_, meClustY_, meClustYBlade_, meClustYDisk_, meClustYLad_, meClustYLay_, meClustYPhi_, meClustYRing_, meErrorX_, meErrorXBlade_, meErrorXDisk_, meErrorXLad_, meErrorXLay_, meErrorXPhi_, meErrorXRing_, meErrorY_, meErrorYBlade_, meErrorYDisk_, meErrorYLad_, meErrorYLay_, meErrorYPhi_, meErrorYRing_, meXYPos_, meXYPos_px_, meXYPos_py_, meXYPosLad_, meXYPosLad_px_, meXYPosLad_py_, meXYPosLay_, meXYPosLay_px_, meXYPosLay_py_, meXYPosPhi_, meXYPosPhi_px_, meXYPosPhi_py_, meXYPosRing_, meXYPosRing_px_, meXYPosRing_py_, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, and DetId::subdetId().

                                                           {

  bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
  bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);

  //std::cout << rechit_x << " " << rechit_y << " " << sizeX << " " << sizeY << std::endl;
  if(modon){
    meClustX_->Fill(sizeX);
    meClustY_->Fill(sizeY);
    meErrorX_->Fill(lerr_x);
    meErrorY_->Fill(lerr_y);  
        if(!reducedSet)
        {
    if(twoD) meXYPos_->Fill(rechit_x, rechit_y);
    else {
      meXYPos_px_->Fill(rechit_x); 
      meXYPos_py_->Fill(rechit_y);
    }
        }
  }
  //std::cout<<"number of detector units="<<numberOfDetUnits<<std::endl;

  if(ladon && barrel){
    meClustXLad_->Fill(sizeX);
    meClustYLad_->Fill(sizeY);
    meErrorXLad_->Fill(lerr_x);
    meErrorYLad_->Fill(lerr_y);  
        if(!reducedSet)
        {
    if(twoD) meXYPosLad_->Fill(rechit_x, rechit_y);
    else{
      meXYPosLad_px_->Fill(rechit_x); 
      meXYPosLad_py_->Fill(rechit_y);
    }
        }
  }

  if(layon && barrel){
    meClustXLay_->Fill(sizeX);
    meClustYLay_->Fill(sizeY);
    meErrorXLay_->Fill(lerr_x);
    meErrorYLay_->Fill(lerr_y); 
        if(!reducedSet)
        {
    if(twoD) meXYPosLay_->Fill(rechit_x, rechit_y);
    else{
      meXYPosLay_px_->Fill(rechit_x); 
      meXYPosLay_py_->Fill(rechit_y);
    }
        }
  }

  if(phion && barrel){
    meClustXPhi_->Fill(sizeX);
    meClustYPhi_->Fill(sizeY);
    meErrorXPhi_->Fill(lerr_x);
    meErrorYPhi_->Fill(lerr_y); 
    if(!reducedSet)
        {
    if(twoD) meXYPosPhi_->Fill(rechit_x, rechit_y);
    else{
      meXYPosPhi_px_->Fill(rechit_x); 
      meXYPosPhi_py_->Fill(rechit_y);
    }
        }       
  }

  if(bladeon && endcap){
    //meXYPosBlade_->Fill(rechit_x, rechit_y);
    meClustXBlade_->Fill(sizeX);
    meClustYBlade_->Fill(sizeY);
    meErrorXBlade_->Fill(lerr_x);
    meErrorYBlade_->Fill(lerr_y); 
  }

  if(diskon && endcap){
    //meXYPosDisk_->Fill(rechit_x, rechit_y);
    meClustXDisk_->Fill(sizeX);
    meClustYDisk_->Fill(sizeY);
    meErrorXDisk_->Fill(lerr_x);
    meErrorYDisk_->Fill(lerr_y); 
  }

  if(ringon && endcap){
    meClustXRing_->Fill(sizeX);
    meClustYRing_->Fill(sizeY);
    meErrorXRing_->Fill(lerr_x);
    meErrorYRing_->Fill(lerr_y); 
        if(!reducedSet)
        {
    if(twoD) meXYPosRing_->Fill(rechit_x, rechit_y);
    else{
      meXYPosRing_px_->Fill(rechit_x); 
      meXYPosRing_py_->Fill(rechit_y);
    }
        }       
  }
}

void SiPixelRecHitModule::nfill	(	const int &	nrec,
		bool	modon = `true`,
		bool	ladon = `false`,
		bool	layon = `false`,
		bool	phion = `false`,
		bool	bladeon = `false`,
		bool	diskon = `false`,
		bool	ringon = `false`
	)

Definition at line 380 of file SiPixelRecHitModule.cc.

References Reference_intrackfit_cff::barrel, Reference_intrackfit_cff::endcap, MonitorElement::Fill(), id_, menRecHitsBlade_, menRecHitsDisk_, menRecHitsLad_, menRecHitsLay_, menRecHitsPhi_, menRecHitsRing_, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, and DetId::subdetId().

                                                                                                                                       {
  
  bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
  bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);

  //if(modon) menRecHits_->Fill(nrec);
  //barrel
  if(ladon && barrel) menRecHitsLad_->Fill(nrec);
  if(layon && barrel) menRecHitsLay_->Fill(nrec);
  if(phion && barrel) menRecHitsPhi_->Fill(nrec);
  //endcap
  if(bladeon && endcap) menRecHitsBlade_->Fill(nrec);
  if(diskon && endcap) menRecHitsDisk_->Fill(nrec);
  if(ringon && endcap) menRecHitsRing_->Fill(nrec);
}