#include <SiPixelClusterModule.h>

Public Types
typedef edmNew::DetSet < SiPixelCluster > ::const_iterator	ClusterIterator

Public Member Functions
void	book (const edm::ParameterSet &iConfig, const edm::EventSetup &iSetup, DQMStore::IBooker &iBooker, int type=0, bool twoD=true, bool reducedSet=false, bool isUpgrade=false)
	Book histograms. More...

int	fill (const edmNew::DetSetVector< SiPixelCluster > &input, const TrackerGeometry tracker, std::vector< MonitorElement > &layers, std::vector< MonitorElement * > &diskspz, std::vector< MonitorElement * > &disksmz, 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, bool smileyon=false, bool isUpgrade=false)
	Fill histograms. More...

	SiPixelClusterModule ()
	Default constructor. More...

	SiPixelClusterModule (const uint32_t &id)
	Constructor with raw DetId. More...

	SiPixelClusterModule (const uint32_t &id, const int &ncols, const int &nrows)
	Constructor with raw DetId and sensor size. More...

	~SiPixelClusterModule ()
	Destructor. More...

Private Attributes
uint32_t	id_

MonitorElement *	meCharge_

MonitorElement *	meChargeBlade_

MonitorElement *	meChargeDisk_

MonitorElement *	meChargeLad_

MonitorElement *	meChargeLay_

MonitorElement *	meChargePhi_

MonitorElement *	meChargeRing_

MonitorElement *	meClPosDisk1mz

MonitorElement *	meClPosDisk1pz

MonitorElement *	meClPosDisk2mz

MonitorElement *	meClPosDisk2pz

MonitorElement *	meClPosDisk3mz

MonitorElement *	meClPosDisk3pz

MonitorElement *	meClPosLayer1

MonitorElement *	meClPosLayer2

MonitorElement *	meClPosLayer3

MonitorElement *	meClPosLayer4

MonitorElement *	meMaxCol_

MonitorElement *	meMaxColBlade_

MonitorElement *	meMaxColDisk_

MonitorElement *	meMaxColLad_

MonitorElement *	meMaxColLay_

MonitorElement *	meMaxColPhi_

MonitorElement *	meMaxColRing_

MonitorElement *	meMaxRow_

MonitorElement *	meMaxRowBlade_

MonitorElement *	meMaxRowDisk_

MonitorElement *	meMaxRowLad_

MonitorElement *	meMaxRowLay_

MonitorElement *	meMaxRowPhi_

MonitorElement *	meMaxRowRing_

MonitorElement *	meMinCol_

MonitorElement *	meMinColBlade_

MonitorElement *	meMinColDisk_

MonitorElement *	meMinColLad_

MonitorElement *	meMinColLay_

MonitorElement *	meMinColPhi_

MonitorElement *	meMinColRing_

MonitorElement *	meMinRow_

MonitorElement *	meMinRowBlade_

MonitorElement *	meMinRowDisk_

MonitorElement *	meMinRowLad_

MonitorElement *	meMinRowLay_

MonitorElement *	meMinRowPhi_

MonitorElement *	meMinRowRing_

MonitorElement *	meNClusters_

MonitorElement *	meNClustersBlade_

MonitorElement *	meNClustersDisk_

MonitorElement *	meNClustersLad_

MonitorElement *	meNClustersLay_

MonitorElement *	meNClustersPhi_

MonitorElement *	meNClustersRing_

MonitorElement *	mePixClusters_

MonitorElement *	mePixClusters_px_

MonitorElement *	mePixClusters_py_

MonitorElement *	mePixClustersLad_

MonitorElement *	mePixClustersLad_px_

MonitorElement *	mePixClustersLad_py_

MonitorElement *	mePixClustersLay_

MonitorElement *	mePixClustersLay_px_

MonitorElement *	mePixClustersLay_py_

MonitorElement *	mePixClustersPhi_

MonitorElement *	mePixClustersPhi_px_

MonitorElement *	mePixClustersPhi_py_

MonitorElement *	mePixClustersRing_

MonitorElement *	mePixClustersRing_px_

MonitorElement *	mePixClustersRing_py_

MonitorElement *	meSize_

MonitorElement *	meSizeBlade_

MonitorElement *	meSizeDisk_

MonitorElement *	meSizeLad_

MonitorElement *	meSizeLay_

MonitorElement *	meSizePhi_

MonitorElement *	meSizeRing_

MonitorElement *	meSizeX_

MonitorElement *	meSizeXBlade_

MonitorElement *	meSizeXDisk_

MonitorElement *	meSizeXLad_

MonitorElement *	meSizeXLay_

MonitorElement *	meSizeXPhi_

MonitorElement *	meSizeXRing_

MonitorElement *	meSizeY_

MonitorElement *	meSizeYBlade_

MonitorElement *	meSizeYDisk_

MonitorElement *	meSizeYLad_

MonitorElement *	meSizeYLay_

MonitorElement *	meSizeYPhi_

MonitorElement *	meSizeYRing_

MonitorElement *	meSizeYvsEtaBarrel_

MonitorElement *	meX_

MonitorElement *	meXBlade_

MonitorElement *	meXDisk_

MonitorElement *	meXLad_

MonitorElement *	meXLay_

MonitorElement *	meXPhi_

MonitorElement *	meXRing_

MonitorElement *	meY_

MonitorElement *	meYBlade_

MonitorElement *	meYDisk_

MonitorElement *	meYLad_

MonitorElement *	meYLay_

MonitorElement *	meYPhi_

MonitorElement *	meYRing_

int	ncols_

int	nrows_

const TrackerTopology *	pTT

Detailed Description

Definition at line 40 of file SiPixelClusterModule.h.

Member Typedef Documentation

typedef edmNew::DetSet<SiPixelCluster>::const_iterator SiPixelClusterModule::ClusterIterator

Definition at line 53 of file SiPixelClusterModule.h.

Constructor & Destructor Documentation

SiPixelClusterModule::SiPixelClusterModule ( )

Default constructor.

Framework.

Definition at line 42 of file SiPixelClusterModule.cc.

                                            : id_(0),
                      ncols_(416),
                      nrows_(160) { }

SiPixelClusterModule::SiPixelClusterModule ( const uint32_t & id )

Constructor with raw DetId.

Definition at line 46 of file SiPixelClusterModule.cc.

                                                              : 
   id_(id),
   ncols_(416),
   nrows_(160)
 { 
 }

SiPixelClusterModule::SiPixelClusterModule	(	const uint32_t &	id,
		const int &	ncols,
		const int &	nrows
	)

Constructor with raw DetId and sensor size.

Definition at line 53 of file SiPixelClusterModule.cc.

                                                                                                  : 
   id_(id),
   ncols_(ncols),
   nrows_(nrows)
 { 
 }

SiPixelClusterModule::~SiPixelClusterModule ( )

Destructor.

Definition at line 62 of file SiPixelClusterModule.cc.

62 {}

Member Function Documentation

void SiPixelClusterModule::book	(	const edm::ParameterSet &	iConfig,
		const edm::EventSetup &	iSetup,
		DQMStore::IBooker &	iBooker,
		int	type = `0`,
		bool	twoD = `true`,
		bool	reducedSet = `false`,
		bool	isUpgrade = `false`
	)

Book histograms.

Definition at line 66 of file SiPixelClusterModule.cc.

References Reference_intrackfit_cff::barrel, PixelEndcapName::bladeName(), DQMStore::IBooker::book1D(), DQMStore::IBooker::book2D(), PixelEndcapName::diskName(), Reference_intrackfit_cff::endcap, edm::EventSetup::get(), edm::ParameterSet::getParameter(), id_, PixelBarrelName::isHalfModule(), edm::InputTag::label(), PixelBarrelName::ladderName(), PixelBarrelName::layerName(), meCharge_, meChargeBlade_, meChargeDisk_, meChargeLad_, meChargeLay_, meChargePhi_, meChargeRing_, meMaxCol_, meMaxColBlade_, meMaxColDisk_, meMaxColLad_, meMaxColLay_, meMaxColPhi_, meMaxColRing_, meMaxRow_, meMaxRowBlade_, meMaxRowDisk_, meMaxRowLad_, meMaxRowLay_, meMaxRowPhi_, meMaxRowRing_, meMinCol_, meMinColBlade_, meMinColDisk_, meMinColLad_, meMinColLay_, meMinColPhi_, meMinColRing_, meMinRow_, meMinRowBlade_, meMinRowDisk_, meMinRowLad_, meMinRowLay_, meMinRowPhi_, meMinRowRing_, meNClusters_, meNClustersBlade_, meNClustersDisk_, meNClustersLad_, meNClustersLay_, meNClustersPhi_, meNClustersRing_, mePixClusters_, mePixClusters_px_, mePixClusters_py_, mePixClustersLad_, mePixClustersLad_px_, mePixClustersLad_py_, mePixClustersLay_, mePixClustersLay_px_, mePixClustersLay_py_, mePixClustersPhi_, mePixClustersPhi_px_, mePixClustersPhi_py_, mePixClustersRing_, mePixClustersRing_px_, mePixClustersRing_py_, meSize_, meSizeBlade_, meSizeDisk_, meSizeLad_, meSizeLay_, meSizePhi_, meSizeRing_, meSizeX_, meSizeXBlade_, meSizeXDisk_, meSizeXLad_, meSizeXLay_, meSizeXPhi_, meSizeXRing_, meSizeY_, meSizeYBlade_, meSizeYDisk_, meSizeYLad_, meSizeYLay_, meSizeYPhi_, meSizeYRing_, meSizeYvsEtaBarrel_, meX_, meXBlade_, meXDisk_, meXLad_, meXLay_, meXPhi_, meXRing_, meY_, meYBlade_, meYDisk_, meYLad_, meYLay_, meYPhi_, meYRing_, python.rootplot.argparse::module, PixelBarrelName::moduleName(), ncols_, nrows_, PixelEndcapName::pannelName(), PixelSubdetector::PixelBarrel, PixelSubdetector::PixelEndcap, PixelEndcapName::plaquetteName(), edm::ESHandle< class >::product(), pTT, MonitorElement::setAxisTitle(), SiPixelHistogramId::setHistoId(), alcazmumu_cfi::src, AlCaHLTBitMon_QueryRunRegistry::string, and DetId::subdetId().

                                                                                                                                                                             {
   
   edm::ESHandle<TrackerTopology> tTopoHandle;
   iSetup.get<IdealGeometryRecord>().get(tTopoHandle);
   pTT = tTopoHandle.product();
 
   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_),pTT,isUpgrade).isHalfModule();
   }
   int nbinx = ncols_/2;
   int nbiny = nrows_/2;
 
   std::string hid;
   // Get collection name and instantiate Histo Id builder
   edm::InputTag src = iConfig.getParameter<edm::InputTag>( "src" );
   if(type==0){
     SiPixelHistogramId* theHistogramId = new SiPixelHistogramId( src.label() );
     // Number of clusters
     hid = theHistogramId->setHistoId("nclusters",id_);
     meNClusters_ = iBooker.book1D(hid,"Number of Clusters",8,0.,8.);
     meNClusters_->setAxisTitle("Number of Clusters",1);
     // Total cluster charge in MeV
     hid = theHistogramId->setHistoId("charge",id_);
     meCharge_ = iBooker.book1D(hid,"Cluster charge",100,0.,200.);
     meCharge_->setAxisTitle("Charge [kilo electrons]",1);
     // Total cluster size (in pixels)
     hid = theHistogramId->setHistoId("size",id_);
     meSize_ = iBooker.book1D(hid,"Total cluster size",30,0.,30.);
     meSize_->setAxisTitle("Cluster size [number of pixels]",1);
     if(!reducedSet){
       // Lowest cluster row
       hid = theHistogramId->setHistoId("minrow",id_);
       meMinRow_ = iBooker.book1D(hid,"Lowest cluster row",200,0.,200.);
       meMinRow_->setAxisTitle("Lowest cluster row",1);
       // Highest cluster row
       hid = theHistogramId->setHistoId("maxrow",id_);
       meMaxRow_ = iBooker.book1D(hid,"Highest cluster row",200,0.,200.);
       meMaxRow_->setAxisTitle("Highest cluster row",1);
       // Lowest cluster column
       hid = theHistogramId->setHistoId("mincol",id_);
       meMinCol_ = iBooker.book1D(hid,"Lowest cluster column",500,0.,500.);
       meMinCol_->setAxisTitle("Lowest cluster column",1);
       // Highest cluster column
       hid = theHistogramId->setHistoId("maxcol",id_);
       meMaxCol_ = iBooker.book1D(hid,"Highest cluster column",500,0.,500.);
       meMaxCol_->setAxisTitle("Highest cluster column",1);
       // Cluster barycenter X position
       hid = theHistogramId->setHistoId("x",id_);
       meX_ = iBooker.book1D(hid,"Cluster barycenter X (row #)",200,0.,200.);
       meX_->setAxisTitle("Barycenter x-position [row #]",1);
       // Cluster barycenter Y position
       hid = theHistogramId->setHistoId("y",id_);
       meY_ = iBooker.book1D(hid,"Cluster barycenter Y (column #)",500,0.,500.);
       meY_->setAxisTitle("Barycenter y-position [column #]",1);
       // Cluster width on the x-axis
       hid = theHistogramId->setHistoId("sizeX",id_);
       meSizeX_ = iBooker.book1D(hid,"Cluster x-width (rows)",10,0.,10.);
       meSizeX_->setAxisTitle("Cluster x-size [rows]",1);
       // Cluster width on the y-axis
       hid = theHistogramId->setHistoId("sizeY",id_);
       meSizeY_ = iBooker.book1D(hid,"Cluster y-width (columns)",15,0.,15.);
       meSizeY_->setAxisTitle("Cluster y-size [columns]",1);
       int nbinx = ncols_/2;
       int nbiny = nrows_/2;
       hid = theHistogramId->setHistoId("hitmap",id_);
       if(twoD){
         // 2D hit map
         mePixClusters_ = iBooker.book2D(hid,"Number of Clusters (1bin=four pixels)",nbinx,0.,float(ncols_),nbiny,0.,float(nrows_));
         mePixClusters_->setAxisTitle("Columns",1);
         mePixClusters_->setAxisTitle("Rows",2);
       }else{
         // projections of hitmap
         mePixClusters_px_ = iBooker.book1D(hid+"_px","Number of Clusters (1bin=two columns)",nbinx,0.,float(ncols_));
         mePixClusters_py_ = iBooker.book1D(hid+"_py","Number of Clusters (1bin=two rows)",nbiny,0.,float(nrows_));
         mePixClusters_px_->setAxisTitle("Columns",1);
         mePixClusters_py_->setAxisTitle("Rows",1);
       }
     }
     delete theHistogramId;
   }
 
   //**
   if(barrel && type==7){
     hid = src.label() + "_Barrel";
     meSizeYvsEtaBarrel_= iBooker.book2D("sizeYvsEta_" + hid,"Cluster size along beamline vs. Cluster position #eta",60,-3.,3.,40,0.,40.);
     meSizeYvsEtaBarrel_->setAxisTitle("Cluster #eta",1);
     meSizeYvsEtaBarrel_->setAxisTitle("Cluster size along beamline [number of pixels]",2);
   }
   if(type==1 && barrel){
     uint32_t DBladder;
     DBladder = PixelBarrelName(DetId(id_),pTT,isUpgrade).ladderName();
     char sladder[80]; sprintf(sladder,"Ladder_%02i",DBladder);
     hid = src.label() + "_" + sladder;
     if(isHalfModule) hid += "H";
     else hid += "F";
     // Number of clusters
     meNClustersLad_ = iBooker.book1D("nclusters_" + hid,"Number of Clusters",8,0.,8.);
     meNClustersLad_->setAxisTitle("Number of Clusters",1);
     // Total cluster charge in MeV
     meChargeLad_ = iBooker.book1D("charge_" + hid,"Cluster charge",100,0.,200.);
     meChargeLad_->setAxisTitle("Charge [kilo electrons]",1);
     // Total cluster size (in pixels)
     meSizeLad_ = iBooker.book1D("size_" + hid,"Total cluster size",30,0.,30.);
     meSizeLad_->setAxisTitle("Cluster size [number of pixels]",1);
     if(!reducedSet){
       // Lowest cluster row
       meMinRowLad_ = iBooker.book1D("minrow_" + hid,"Lowest cluster row",200,0.,200.);
       meMinRowLad_->setAxisTitle("Lowest cluster row",1);
       // Highest cluster row
       meMaxRowLad_ = iBooker.book1D("maxrow_" + hid,"Highest cluster row",200,0.,200.);
       meMaxRowLad_->setAxisTitle("Highest cluster row",1);
       // Lowest cluster column
       meMinColLad_ = iBooker.book1D("mincol_" + hid,"Lowest cluster column",500,0.,500.);
       meMinColLad_->setAxisTitle("Lowest cluster column",1);
       // Highest cluster column
       meMaxColLad_ = iBooker.book1D("maxcol_" + hid,"Highest cluster column",500,0.,500.);
       meMaxColLad_->setAxisTitle("Highest cluster column",1);
       // Cluster barycenter X position
       meXLad_ = iBooker.book1D("x_" + hid,"Cluster barycenter X (row #)",200,0.,200.);
       meXLad_->setAxisTitle("Barycenter x-position [row #]",1);
       // Cluster barycenter Y position
       meYLad_ = iBooker.book1D("y_" + hid,"Cluster barycenter Y (column #)",500,0.,500.);
       meYLad_->setAxisTitle("Barycenter y-position [column #]",1);
       // Cluster width on the x-axis
       meSizeXLad_ = iBooker.book1D("sizeX_" + hid,"Cluster x-width (rows)",10,0.,10.);
       meSizeXLad_->setAxisTitle("Cluster x-size [rows]",1);
       // Cluster width on the y-axis
       meSizeYLad_ = iBooker.book1D("sizeY_" + hid,"Cluster y-width (columns)",15,0.,15.);
       meSizeYLad_->setAxisTitle("Cluster y-size [columns]",1);
       if(twoD){
         // 2D hit map
         mePixClustersLad_ = iBooker.book2D("hitmap_" + hid,"Number of Clusters (1bin=four pixels)",nbinx,0.,float(ncols_),nbiny,0.,float(nrows_));
         mePixClustersLad_->setAxisTitle("Columns",1);
         mePixClustersLad_->setAxisTitle("Rows",2);
       }else{
         // projections of hitmap
         mePixClustersLad_px_ = iBooker.book1D("hitmap_" + hid+"_px","Number of Clusters (1bin=two columns)",nbinx,0.,float(ncols_));
         mePixClustersLad_py_ = iBooker.book1D("hitmap_" + hid+"_py","Number of Clusters (1bin=two rows)",nbiny,0.,float(nrows_));
         mePixClustersLad_px_->setAxisTitle("Columns",1);
         mePixClustersLad_py_->setAxisTitle("Rows",1);
       }
     }
   }
 
   if(type==2 && barrel){
     
     uint32_t DBlayer;
     DBlayer = PixelBarrelName(DetId(id_),pTT,isUpgrade).layerName();
     char slayer[80]; sprintf(slayer,"Layer_%i",DBlayer);
     hid = src.label() + "_" + slayer;
     // Number of clusters
     meNClustersLay_ = iBooker.book1D("nclusters_" + hid,"Number of Clusters",8,0.,8.);
     meNClustersLay_->setAxisTitle("Number of Clusters",1);
     // Total cluster charge in MeV
     meChargeLay_ = iBooker.book1D("charge_" + hid,"Cluster charge",100,0.,200.);
     meChargeLay_->setAxisTitle("Charge [kilo electrons]",1);
     // Total cluster size (in pixels)
     meSizeLay_ = iBooker.book1D("size_" + hid,"Total cluster size",30,0.,30.);
     meSizeLay_->setAxisTitle("Cluster size [in pixels]",1);
     if(!reducedSet){
       // Lowest cluster row
       meMinRowLay_ = iBooker.book1D("minrow_" + hid,"Lowest cluster row",200,0.,200.);
       meMinRowLay_->setAxisTitle("Lowest cluster row",1);
       // Highest cluster row
       meMaxRowLay_ = iBooker.book1D("maxrow_" + hid,"Highest cluster row",200,0.,200.);
       meMaxRowLay_->setAxisTitle("Highest cluster row",1);
       // Lowest cluster column
       meMinColLay_ = iBooker.book1D("mincol_" + hid,"Lowest cluster column",500,0.,500.);
       meMinColLay_->setAxisTitle("Lowest cluster column",1);
       // Highest cluster column
       meMaxColLay_ = iBooker.book1D("maxcol_" + hid,"Highest cluster column",500,0.,500.);
       meMaxColLay_->setAxisTitle("Highest cluster column",1);
       // Cluster barycenter X position
       meXLay_ = iBooker.book1D("x_" + hid,"Cluster barycenter X (row #)",200,0.,200.);
       meXLay_->setAxisTitle("Barycenter x-position [row #]",1);
       // Cluster barycenter Y position
       meYLay_ = iBooker.book1D("y_" + hid,"Cluster barycenter Y (column #)",500,0.,500.);
       meYLay_->setAxisTitle("Barycenter y-position [column #]",1);
       // Cluster width on the x-axis
       meSizeXLay_ = iBooker.book1D("sizeX_" + hid,"Cluster x-width (rows)",10,0.,10.);
       meSizeXLay_->setAxisTitle("Cluster x-size [rows]",1);
       // Cluster width on the y-axis
       meSizeYLay_ = iBooker.book1D("sizeY_" + hid,"Cluster y-width (columns)",15,0.,15.);
       meSizeYLay_->setAxisTitle("Cluster y-size [columns]",1);
       if(twoD){
         // 2D hit map
         if(isHalfModule){
       mePixClustersLay_ = iBooker.book2D("hitmap_" + hid,"Number of Clusters (1bin=four pixels)",nbinx,0.,float(ncols_),2*nbiny,0.,float(2*nrows_));
         }else{
       mePixClustersLay_ = iBooker.book2D("hitmap_" + hid,"Number of Clusters (1bin=four pixels)",nbinx,0.,float(ncols_),nbiny,0.,float(nrows_));
         }
         mePixClustersLay_->setAxisTitle("Columns",1);
         mePixClustersLay_->setAxisTitle("Rows",2);
       }else{
         // projections of hitmap
         mePixClustersLay_px_ = iBooker.book1D("hitmap_" + hid+"_px","Number of Clusters (1bin=two columns)",nbinx,0.,float(ncols_));
         if(isHalfModule){
       mePixClustersLay_py_ = iBooker.book1D("hitmap_" + hid+"_py","Number of Clusters (1bin=two rows)",2*nbiny,0.,float(2*nrows_));
         }else{
       mePixClustersLay_py_ = iBooker.book1D("hitmap_" + hid+"_py","Number of Clusters (1bin=two rows)",nbiny,0.,float(nrows_));
         }
         mePixClustersLay_px_->setAxisTitle("Columns",1);
         mePixClustersLay_py_->setAxisTitle("Rows",1);
       }
     }
   }
   if(type==3 && barrel){
     uint32_t DBmodule;
     DBmodule = PixelBarrelName(DetId(id_),pTT,isUpgrade).moduleName();
     char smodule[80]; sprintf(smodule,"Ring_%i",DBmodule);
     hid = src.label() + "_" + smodule;
     // Number of clusters
     meNClustersPhi_ = iBooker.book1D("nclusters_" + hid,"Number of Clusters",8,0.,8.);
     meNClustersPhi_->setAxisTitle("Number of Clusters",1);
     // Total cluster charge in MeV
     meChargePhi_ = iBooker.book1D("charge_" + hid,"Cluster charge",100,0.,200.);
     meChargePhi_->setAxisTitle("Charge [kilo electrons]",1);
     // Total cluster size (in pixels)
     meSizePhi_ = iBooker.book1D("size_" + hid,"Total cluster size",30,0.,30.);
     meSizePhi_->setAxisTitle("Cluster size [number of pixels]",1);
     if(!reducedSet){
       // Lowest cluster row
       meMinRowPhi_ = iBooker.book1D("minrow_" + hid,"Lowest cluster row",200,0.,200.);
       meMinRowPhi_->setAxisTitle("Lowest cluster row",1);
       // Highest cluster row
       meMaxRowPhi_ = iBooker.book1D("maxrow_" + hid,"Highest cluster row",200,0.,200.);
       meMaxRowPhi_->setAxisTitle("Highest cluster row",1);
       // Lowest cluster column
       meMinColPhi_ = iBooker.book1D("mincol_" + hid,"Lowest cluster column",500,0.,500.);
       meMinColPhi_->setAxisTitle("Lowest cluster column",1);
       // Highest cluster column
       meMaxColPhi_ = iBooker.book1D("maxcol_" + hid,"Highest cluster column",500,0.,500.);
       meMaxColPhi_->setAxisTitle("Highest cluster column",1);
       // Cluster barycenter X position
       meXPhi_ = iBooker.book1D("x_" + hid,"Cluster barycenter X (row #)",200,0.,200.);
       meXPhi_->setAxisTitle("Barycenter x-position [row #]",1);
       // Cluster barycenter Y position
       meYPhi_ = iBooker.book1D("y_" + hid,"Cluster barycenter Y (column #)",500,0.,500.);
       meYPhi_->setAxisTitle("Barycenter y-position [column #]",1);
       // Cluster width on the x-axis
       meSizeXPhi_ = iBooker.book1D("sizeX_" + hid,"Cluster x-width (rows)",10,0.,10.);
       meSizeXPhi_->setAxisTitle("Cluster x-size [rows]",1);
       // Cluster width on the y-axis
       meSizeYPhi_ = iBooker.book1D("sizeY_" + hid,"Cluster y-width (columns)",15,0.,15.);
       meSizeYPhi_->setAxisTitle("Cluster y-size [columns]",1);
       if(twoD){
         // 2D hit map
         if(isHalfModule){
       mePixClustersPhi_ = iBooker.book2D("hitmap_" + hid,"Number of Clusters (1bin=four pixels)",nbinx,0.,float(ncols_),2*nbiny,0.,float(2*nrows_));
         }else{
       mePixClustersPhi_ = iBooker.book2D("hitmap_" + hid,"Number of Clusters (1bin=four pixels)",nbinx,0.,float(ncols_),nbiny,0.,float(nrows_));
         }
         mePixClustersPhi_->setAxisTitle("Columns",1);
         mePixClustersPhi_->setAxisTitle("Rows",2);
       }else{
         // projections of hitmap
         mePixClustersPhi_px_ = iBooker.book1D("hitmap_" + hid+"_px","Number of Clusters (1bin=two columns)",nbinx,0.,float(ncols_));
         if(isHalfModule){
       mePixClustersPhi_py_ = iBooker.book1D("hitmap_" + hid+"_py","Number of Clusters (1bin=two rows)",2*nbiny,0.,float(2*nrows_));
         }else{
       mePixClustersPhi_py_ = iBooker.book1D("hitmap_" + hid+"_py","Number of Clusters (1bin=two rows)",nbiny,0.,float(nrows_));
         }
         mePixClustersPhi_px_->setAxisTitle("Columns",1);
         mePixClustersPhi_py_->setAxisTitle("Rows",1);
       }
     }
   }
 
   if(type==4 && endcap){
     uint32_t blade;
     blade = PixelEndcapName(DetId(id_),pTT,isUpgrade).bladeName();
     
     char sblade[80]; sprintf(sblade, "Blade_%02i",blade);
     hid = src.label() + "_" + sblade;
     // Number of clusters
     meNClustersBlade_ = iBooker.book1D("nclusters_" + hid,"Number of Clusters",8,0.,8.);
     meNClustersBlade_->setAxisTitle("Number of Clusters",1);
     // Total cluster charge in MeV
     meChargeBlade_ = iBooker.book1D("charge_" + hid,"Cluster charge",100,0.,200.);
     meChargeBlade_->setAxisTitle("Charge [kilo electrons]",1);
     // Total cluster size (in pixels)
     meSizeBlade_ = iBooker.book1D("size_" + hid,"Total cluster size",30,0.,30.);
     meSizeBlade_->setAxisTitle("Cluster size [number of pixels]",1);
     if(!reducedSet){
       // Lowest cluster row
       meMinRowBlade_ = iBooker.book1D("minrow_" + hid,"Lowest cluster row",200,0.,200.);
       meMinRowBlade_->setAxisTitle("Lowest cluster row",1);
       // Highest cluster row
       meMaxRowBlade_ = iBooker.book1D("maxrow_" + hid,"Highest cluster row",200,0.,200.);
       meMaxRowBlade_->setAxisTitle("Highest cluster row",1);
       // Lowest cluster column
       meMinColBlade_ = iBooker.book1D("mincol_" + hid,"Lowest cluster column",500,0.,500.);
       meMinColBlade_->setAxisTitle("Lowest cluster column",1);
       // Highest cluster column
       meMaxColBlade_ = iBooker.book1D("maxcol_" + hid,"Highest cluster column",500,0.,500.);
       meMaxColBlade_->setAxisTitle("Highest cluster column",1);
       // Cluster barycenter X position
       meXBlade_ = iBooker.book1D("x_" + hid,"Cluster barycenter X (row #)",200,0.,200.);
       meXBlade_->setAxisTitle("Barycenter x-position [row #]",1);
       // Cluster barycenter Y position
       meYBlade_ = iBooker.book1D("y_" + hid,"Cluster barycenter Y (column #)",500,0.,500.);
       meYBlade_->setAxisTitle("Barycenter y-position [column #]",1);
       // Cluster width on the x-axis
       meSizeXBlade_ = iBooker.book1D("sizeX_" + hid,"Cluster x-width (rows)",10,0.,10.);
       meSizeXBlade_->setAxisTitle("Cluster x-size [rows]",1);
       // Cluster width on the y-axis
       meSizeYBlade_ = iBooker.book1D("sizeY_" + hid,"Cluster y-width (columns)",15,0.,15.);
       meSizeYBlade_->setAxisTitle("Cluster y-size [columns]",1);
     }
   }
   if(type==5 && endcap){
     uint32_t disk;
     disk = PixelEndcapName(DetId(id_),pTT,isUpgrade).diskName();
     
     char sdisk[80]; sprintf(sdisk, "Disk_%i",disk);
     hid = src.label() + "_" + sdisk;
     // Number of clusters
     meNClustersDisk_ = iBooker.book1D("nclusters_" + hid,"Number of Clusters",8,0.,8.);
     meNClustersDisk_->setAxisTitle("Number of Clusters",1);
     // Total cluster charge in MeV
     meChargeDisk_ = iBooker.book1D("charge_" + hid,"Cluster charge",100,0.,200.);
     meChargeDisk_->setAxisTitle("Charge [kilo electrons]",1);
     // Total cluster size (in pixels)
     meSizeDisk_ = iBooker.book1D("size_" + hid,"Total cluster size",30,0.,30.);
     meSizeDisk_->setAxisTitle("Cluster size [number of pixels]",1);
     if(!reducedSet){
       // Lowest cluster row
       meMinRowDisk_ = iBooker.book1D("minrow_" + hid,"Lowest cluster row",200,0.,200.);
       meMinRowDisk_->setAxisTitle("Lowest cluster row",1);
       // Highest cluster row
       meMaxRowDisk_ = iBooker.book1D("maxrow_" + hid,"Highest cluster row",200,0.,200.);
       meMaxRowDisk_->setAxisTitle("Highest cluster row",1);
       // Lowest cluster column
       meMinColDisk_ = iBooker.book1D("mincol_" + hid,"Lowest cluster column",500,0.,500.);
       meMinColDisk_->setAxisTitle("Lowest cluster column",1);
       // Highest cluster column
       meMaxColDisk_ = iBooker.book1D("maxcol_" + hid,"Highest cluster column",500,0.,500.);
       meMaxColDisk_->setAxisTitle("Highest cluster column",1);
       // Cluster barycenter X position
       meXDisk_ = iBooker.book1D("x_" + hid,"Cluster barycenter X (row #)",200,0.,200.);
       meXDisk_->setAxisTitle("Barycenter x-position [row #]",1);
       // Cluster barycenter Y position
       meYDisk_ = iBooker.book1D("y_" + hid,"Cluster barycenter Y (column #)",500,0.,500.);
       meYDisk_->setAxisTitle("Barycenter y-position [column #]",1);
       // Cluster width on the x-axis
       meSizeXDisk_ = iBooker.book1D("sizeX_" + hid,"Cluster x-width (rows)",10,0.,10.);
       meSizeXDisk_->setAxisTitle("Cluster x-size [rows]",1);
       // Cluster width on the y-axis
       meSizeYDisk_ = iBooker.book1D("sizeY_" + hid,"Cluster y-width (columns)",15,0.,15.);
       meSizeYDisk_->setAxisTitle("Cluster y-size [columns]",1);
     }
   }
 
   if(type==6 && endcap){
     uint32_t panel;
     uint32_t module;
     panel= PixelEndcapName(DetId(id_),pTT,isUpgrade).pannelName();
     module= PixelEndcapName(DetId(id_),pTT,isUpgrade).plaquetteName();
     
     char slab[80]; sprintf(slab, "Panel_%i_Ring_%i",panel, module);
     hid = src.label() + "_" + slab;
     // Number of clusters
     meNClustersRing_ = iBooker.book1D("nclusters_" + hid,"Number of Clusters",8,0.,8.);
     meNClustersRing_->setAxisTitle("Number of Clusters",1);
     // Total cluster charge in MeV
     meChargeRing_ = iBooker.book1D("charge_" + hid,"Cluster charge",100,0.,200.);
     meChargeRing_->setAxisTitle("Charge [kilo electrons]",1);
     // Total cluster size (in pixels)
     meSizeRing_ = iBooker.book1D("size_" + hid,"Total cluster size",30,0.,30.);
     meSizeRing_->setAxisTitle("Cluster size [number of pixels]",1);
     if(!reducedSet){
       // Lowest cluster row
       meMinRowRing_ = iBooker.book1D("minrow_" + hid,"Lowest cluster row",200,0.,200.);
       meMinRowRing_->setAxisTitle("Lowest cluster row",1);
       // Highest cluster row
       meMaxRowRing_ = iBooker.book1D("maxrow_" + hid,"Highest cluster row",200,0.,200.);
       meMaxRowRing_->setAxisTitle("Highest cluster row",1);
       // Lowest cluster column
       meMinColRing_ = iBooker.book1D("mincol_" + hid,"Lowest cluster column",500,0.,500.);
       meMinColRing_->setAxisTitle("Lowest cluster column",1);
       // Highest cluster column
       meMaxColRing_ = iBooker.book1D("maxcol_" + hid,"Highest cluster column",500,0.,500.);
       meMaxColRing_->setAxisTitle("Highest cluster column",1);
       // Cluster barycenter X position
       meXRing_ = iBooker.book1D("x_" + hid,"Cluster barycenter X (row #)",200,0.,200.);
       meXRing_->setAxisTitle("Barycenter x-position [row #]",1);
       // Cluster barycenter Y position
       meYRing_ = iBooker.book1D("y_" + hid,"Cluster barycenter Y (column #)",500,0.,500.);
       meYRing_->setAxisTitle("Barycenter y-position [column #]",1);
       // Cluster width on the x-axis
       meSizeXRing_ = iBooker.book1D("sizeX_" + hid,"Cluster x-width (rows)",10,0.,10.);
       meSizeXRing_->setAxisTitle("Cluster x-size [rows]",1);
       // Cluster width on the y-axis
       meSizeYRing_ = iBooker.book1D("sizeY_" + hid,"Cluster y-width (columns)",15,0.,15.);
       meSizeYRing_->setAxisTitle("Cluster y-size [columns]",1);
       if(twoD){
         // 2D hit map
         mePixClustersRing_ = iBooker.book2D("hitmap_" + hid,"Number of Clusters (1bin=four pixels)",nbinx,0.,float(ncols_),nbiny,0.,float(nrows_));
         mePixClustersRing_->setAxisTitle("Columns",1);
         mePixClustersRing_->setAxisTitle("Rows",2);
       }else{
         // projections of hitmap
         mePixClustersRing_px_ = iBooker.book1D("hitmap_" + hid+"_px","Number of Clusters (1bin=two columns)",nbinx,0.,float(ncols_));
         mePixClustersRing_py_ = iBooker.book1D("hitmap_" + hid+"_py","Number of Clusters (1bin=two rows)",nbiny,0.,float(nrows_));
         mePixClustersRing_px_->setAxisTitle("Columns",1);
         mePixClustersRing_py_->setAxisTitle("Rows",1);
       }
     }
   }
 
 }

int SiPixelClusterModule::fill	(	const edmNew::DetSetVector< SiPixelCluster > &	input,
		const TrackerGeometry *	tracker,
		std::vector< MonitorElement * > &	layers,
		std::vector< MonitorElement * > &	diskspz,
		std::vector< MonitorElement * > &	disksmz,
		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`,
		bool	smileyon = `false`,
		bool	isUpgrade = `false`
	)

Fill histograms.

Definition at line 483 of file SiPixelClusterModule.cc.

References Reference_intrackfit_cff::barrel, edmNew::DetSetVector< T >::begin(), RecoTauCleanerPlugins::charge, PixelEndcapName::diskName(), edmNew::DetSetVector< T >::end(), Reference_intrackfit_cff::endcap, PV3DBase< T, PVType, FrameType >::eta(), MonitorElement::Fill(), HcalObjRepresent::Fill(), edmNew::DetSetVector< T >::find(), id_, TrackerGeometry::idToDet(), PixelBarrelName::layerName(), Topology::localPosition(), meCharge_, meChargeBlade_, meChargeDisk_, meChargeLad_, meChargeLay_, meChargePhi_, meChargeRing_, meMaxCol_, meMaxColBlade_, meMaxColDisk_, meMaxColLad_, meMaxColLay_, meMaxColPhi_, meMaxColRing_, meMaxRow_, meMaxRowBlade_, meMaxRowDisk_, meMaxRowLad_, meMaxRowLay_, meMaxRowPhi_, meMaxRowRing_, meMinCol_, meMinColBlade_, meMinColDisk_, meMinColLad_, meMinColLay_, meMinColPhi_, meMinColRing_, meMinRow_, meMinRowBlade_, meMinRowDisk_, meMinRowLad_, meMinRowLay_, meMinRowPhi_, meMinRowRing_, meNClusters_, meNClustersBlade_, meNClustersDisk_, meNClustersLad_, meNClustersLay_, meNClustersPhi_, meNClustersRing_, mePixClusters_, mePixClusters_px_, mePixClusters_py_, mePixClustersLad_, mePixClustersLad_px_, mePixClustersLad_py_, mePixClustersLay_, mePixClustersLay_px_, mePixClustersLay_py_, mePixClustersPhi_, mePixClustersPhi_px_, mePixClustersPhi_py_, mePixClustersRing_, mePixClustersRing_px_, mePixClustersRing_py_, meSize_, meSizeBlade_, meSizeDisk_, meSizeLad_, meSizeLay_, meSizePhi_, meSizeRing_, meSizeX_, meSizeXBlade_, meSizeXDisk_, meSizeXLad_, meSizeXLay_, meSizeXPhi_, meSizeXRing_, meSizeY_, meSizeYBlade_, meSizeYDisk_, meSizeYLad_, meSizeYLay_, meSizeYPhi_, meSizeYRing_, meSizeYvsEtaBarrel_, meX_, meXBlade_, meXDisk_, meXLad_, meXLay_, meXPhi_, meXRing_, meY_, meYBlade_, meYDisk_, meYLad_, meYLay_, meYPhi_, meYRing_, PV3DBase< T, PVType, FrameType >::phi(), PixelSubdetector::PixelBarrel, PixelSubdetector::PixelEndcap, pTT, edmNew::DetSet< T >::size(), findQualityFiles::size, PixelGeomDetUnit::specificTopology(), DetId::subdetId(), GeomDet::surface(), Surface::toGlobal(), x, PV3DBase< T, PVType, FrameType >::x(), detailsBasic3DVector::y, PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

                                                                                                                                                                                                                                                                                                                                                                            {
   
   bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
   bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
   
   edmNew::DetSetVector<SiPixelCluster>::const_iterator isearch = input.find(id_); // search  clusters of detid
   unsigned int numberOfClusters = 0;
   unsigned int numberOfFpixClusters = 0;
   
   if( isearch != input.end() ) {  // Not an empty iterator
 
     
     // Look at clusters now
     edmNew::DetSet<SiPixelCluster>::const_iterator  di;
     for(di = isearch->begin(); di != isearch->end(); di++) {
       numberOfClusters++;
       if(endcap) numberOfFpixClusters++;
       float charge = 0.001*(di->charge()); // total charge of cluster
       float x = di->x();                   // barycenter x position
       float y = di->y();                   // barycenter y position
       int size = di->size();               // total size of cluster (in pixels)
       int sizeX = di->sizeX();             // size of cluster in x-direction
       int sizeY = di->sizeY();             // size of cluster in y-direction
       int minPixelRow = di->minPixelRow(); // min x index
       int maxPixelRow = di->maxPixelRow(); // max x index
       int minPixelCol = di->minPixelCol(); // min y index
       int maxPixelCol = di->maxPixelCol(); // max y index
 
       const PixelGeomDetUnit* theGeomDet = dynamic_cast<const PixelGeomDetUnit*> ( tracker->idToDet(DetId(id_)) );
 
       const PixelTopology * topol = &(theGeomDet->specificTopology());
       LocalPoint clustlp = topol->localPosition( MeasurementPoint(x, y) );
       GlobalPoint clustgp = theGeomDet->surface().toGlobal( clustlp );
       if(modon) meCharge_->Fill((float)charge);
       if(modon) meSize_->Fill((float)size);
 
       if(barrel){
         uint32_t DBlayer = PixelBarrelName(DetId(id_), pTT, isUpgrade).layerName();
         if (!(DBlayer > layers.size()) && (layers[DBlayer-1])) layers[DBlayer-1]->Fill(clustgp.z(),clustgp.phi());
       }else if(endcap){
    uint32_t DBdisk = PixelEndcapName(DetId(id_), pTT, isUpgrade).diskName();
     if(clustgp.z()>0){
      if (!(DBdisk > diskspz.size()) && (diskspz[DBdisk-1])) diskspz[DBdisk-1]->Fill(clustgp.x(),clustgp.y());
     }else{
      if (!(DBdisk > disksmz.size()) && (disksmz[DBdisk-1])) disksmz[DBdisk-1]->Fill(clustgp.x(),clustgp.y());
     } 
       }
       if(!reducedSet)
     {
       (meMinRow_)->Fill((int)minPixelRow);
       (meMaxRow_)->Fill((int)maxPixelRow);
       (meMinCol_)->Fill((int)minPixelCol);
       (meMaxCol_)->Fill((int)maxPixelCol);
       (meSizeX_)->Fill((int)sizeX);
       (meSizeY_)->Fill((int)sizeY);
       (meX_)->Fill((float)x);
       (meY_)->Fill((float)y);
       if(twoD)(mePixClusters_)->Fill((float)y,(float)x);
       else{
           (mePixClusters_px_)->Fill((float)y);
             (mePixClusters_py_)->Fill((float)x);
       }
     }
 
       if(barrel && smileyon){
         (meSizeYvsEtaBarrel_)->Fill(clustgp.eta(),sizeY);
     //std::cout << "Cluster Global x y z theta eta " << clustgp.x() << " " << clustgp.y() << " " << clustgp.z() << " " << clustgp.theta() << " " << clustgp.eta() << std::endl;
       }      
       if(ladon && barrel){
     (meChargeLad_)->Fill((float)charge);
     (meSizeLad_)->Fill((int)size);
     if(!reducedSet)
     {
     (meMinRowLad_)->Fill((int)minPixelRow);
     (meMaxRowLad_)->Fill((int)maxPixelRow);
     (meMinColLad_)->Fill((int)minPixelCol);
     (meMaxColLad_)->Fill((int)maxPixelCol);
     (meXLad_)->Fill((float)x);
     (meYLad_)->Fill((float)y);
     (meSizeXLad_)->Fill((int)sizeX);
     (meSizeYLad_)->Fill((int)sizeY);
     if(twoD) (mePixClustersLad_)->Fill((float)y,(float)x);
     else{
       (mePixClustersLad_px_)->Fill((float)y);
       (mePixClustersLad_py_)->Fill((float)x);
     }
     }
       }
       if(layon && barrel){
     (meChargeLay_)->Fill((float)charge);
     (meSizeLay_)->Fill((int)size);
     if(!reducedSet)
     {
     (meMinRowLay_)->Fill((int)minPixelRow);
     (meMaxRowLay_)->Fill((int)maxPixelRow);
     (meMinColLay_)->Fill((int)minPixelCol);
     (meMaxColLay_)->Fill((int)maxPixelCol);
     (meXLay_)->Fill((float)x);
     (meYLay_)->Fill((float)y);
     (meSizeXLay_)->Fill((int)sizeX);
     (meSizeYLay_)->Fill((int)sizeY);
     if(twoD) (mePixClustersLay_)->Fill((float)y,(float)x);
     else{
       (mePixClustersLay_px_)->Fill((float)y);
       (mePixClustersLay_py_)->Fill((float)x);
     }
     }
       }
       if(phion && barrel){
     (meChargePhi_)->Fill((float)charge);
     (meSizePhi_)->Fill((int)size);
     if(!reducedSet)
     {
     (meMinRowPhi_)->Fill((int)minPixelRow);
     (meMaxRowPhi_)->Fill((int)maxPixelRow);
     (meMinColPhi_)->Fill((int)minPixelCol);
     (meMaxColPhi_)->Fill((int)maxPixelCol);
     (meXPhi_)->Fill((float)x);
     (meYPhi_)->Fill((float)y);
     (meSizeXPhi_)->Fill((int)sizeX);
     (meSizeYPhi_)->Fill((int)sizeY);
     if(twoD) (mePixClustersPhi_)->Fill((float)y,(float)x);
     else{
       (mePixClustersPhi_px_)->Fill((float)y);
       (mePixClustersPhi_py_)->Fill((float)x);
     }
     }
       }
       if(bladeon && endcap){
     (meChargeBlade_)->Fill((float)charge);
     (meSizeBlade_)->Fill((int)size);
     if(!reducedSet)
     {
     (meMinRowBlade_)->Fill((int)minPixelRow);
     (meMaxRowBlade_)->Fill((int)maxPixelRow);
     (meMinColBlade_)->Fill((int)minPixelCol);
     (meMaxColBlade_)->Fill((int)maxPixelCol);
     (meXBlade_)->Fill((float)x);
     (meYBlade_)->Fill((float)y);
     (meSizeXBlade_)->Fill((int)sizeX);
     (meSizeYBlade_)->Fill((int)sizeY);
     }
       }
       if(diskon && endcap){
     (meChargeDisk_)->Fill((float)charge);
     (meSizeDisk_)->Fill((int)size);
     if(!reducedSet)
     {
     (meMinRowDisk_)->Fill((int)minPixelRow);
     (meMaxRowDisk_)->Fill((int)maxPixelRow);
     (meMinColDisk_)->Fill((int)minPixelCol);
     (meMaxColDisk_)->Fill((int)maxPixelCol);
     (meXDisk_)->Fill((float)x);
     (meYDisk_)->Fill((float)y);
     (meSizeXDisk_)->Fill((int)sizeX);
     (meSizeYDisk_)->Fill((int)sizeY);
     }
       }
       
       if(ringon && endcap){
     (meChargeRing_)->Fill((float)charge);
     (meSizeRing_)->Fill((int)size);
     if(!reducedSet)
     {
     (meMinRowRing_)->Fill((int)minPixelRow);
     (meMaxRowRing_)->Fill((int)maxPixelRow);
     (meMinColRing_)->Fill((int)minPixelCol);
     (meMaxColRing_)->Fill((int)maxPixelCol);
     (meXRing_)->Fill((float)x);
     (meYRing_)->Fill((float)y);
     (meSizeXRing_)->Fill((int)sizeX);
     (meSizeYRing_)->Fill((int)sizeY);
     if(twoD) (mePixClustersRing_)->Fill((float)y,(float)x);
     else{
       (mePixClustersRing_px_)->Fill((float)y);
       (mePixClustersRing_py_)->Fill((float)x);
     }
     }
       }
     }
     if(modon) (meNClusters_)->Fill((float)numberOfClusters);
     if(ladon && barrel) (meNClustersLad_)->Fill((float)numberOfClusters);
     if(layon && barrel) (meNClustersLay_)->Fill((float)numberOfClusters);
     if(phion && barrel) (meNClustersPhi_)->Fill((float)numberOfClusters);
     if(bladeon && endcap) (meNClustersBlade_)->Fill((float)numberOfClusters);
     if(diskon && endcap) (meNClustersDisk_)->Fill((float)numberOfClusters);
     if(ringon && endcap) (meNClustersRing_)->Fill((float)numberOfClusters);
 
       
 
   }
   
   
   //std::cout<<"number of detector units="<<numberOfDetUnits<<std::endl;
   return numberOfFpixClusters;
   
 }

Member Data Documentation

uint32_t SiPixelClusterModule::id_

private

Definition at line 79 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meCharge_

private

Definition at line 85 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meChargeBlade_

private

Definition at line 161 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meChargeDisk_

private

Definition at line 174 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meChargeLad_

private

Definition at line 113 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meChargeLay_

private

Definition at line 130 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meChargePhi_

private

Definition at line 145 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meChargeRing_

private

Definition at line 187 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meClPosDisk1mz

private

Definition at line 105 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosDisk1pz

private

Definition at line 102 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosDisk2mz

private

Definition at line 106 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosDisk2pz

private

Definition at line 103 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosDisk3mz

private

Definition at line 107 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosDisk3pz

private

Definition at line 104 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosLayer1

private

Definition at line 98 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosLayer2

private

Definition at line 99 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosLayer3

private

Definition at line 100 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meClPosLayer4

private

Definition at line 101 of file SiPixelClusterModule.h.

MonitorElement* SiPixelClusterModule::meMaxCol_

private

Definition at line 92 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxColBlade_

private

Definition at line 168 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxColDisk_

private

Definition at line 181 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxColLad_

private

Definition at line 120 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxColLay_

private

Definition at line 137 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxColPhi_

private

Definition at line 152 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxColRing_

private

Definition at line 194 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxRow_

private

Definition at line 90 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxRowBlade_

private

Definition at line 166 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxRowDisk_

private

Definition at line 179 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxRowLad_

private

Definition at line 118 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxRowLay_

private

Definition at line 135 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxRowPhi_

private

Definition at line 150 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMaxRowRing_

private

Definition at line 192 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinCol_

private

Definition at line 91 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinColBlade_

private

Definition at line 167 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinColDisk_

private

Definition at line 180 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinColLad_

private

Definition at line 119 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinColLay_

private

Definition at line 136 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinColPhi_

private

Definition at line 151 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinColRing_

private

Definition at line 193 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinRow_

private

Definition at line 89 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinRowBlade_

private

Definition at line 165 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinRowDisk_

private

Definition at line 178 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinRowLad_

private

Definition at line 117 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinRowLay_

private

Definition at line 134 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinRowPhi_

private

Definition at line 149 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meMinRowRing_

private

Definition at line 191 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meNClusters_

private

Definition at line 82 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meNClustersBlade_

private

Definition at line 158 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meNClustersDisk_

private

Definition at line 171 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meNClustersLad_

private

Definition at line 110 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meNClustersLay_

private

Definition at line 127 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meNClustersPhi_

private

Definition at line 142 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meNClustersRing_

private

Definition at line 184 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClusters_

private

Definition at line 93 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClusters_px_

private

Definition at line 94 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClusters_py_

private

Definition at line 95 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersLad_

private

Definition at line 121 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersLad_px_

private

Definition at line 122 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersLad_py_

private

Definition at line 123 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersLay_

private

Definition at line 138 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersLay_px_

private

Definition at line 139 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersLay_py_

private

Definition at line 140 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersPhi_

private

Definition at line 153 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersPhi_px_

private

Definition at line 154 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersPhi_py_

private

Definition at line 155 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersRing_

private

Definition at line 195 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersRing_px_

private

Definition at line 196 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::mePixClustersRing_py_

private

Definition at line 197 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSize_

private

Definition at line 86 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeBlade_

private

Definition at line 162 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeDisk_

private

Definition at line 175 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeLad_

private

Definition at line 114 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeLay_

private

Definition at line 131 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizePhi_

private

Definition at line 146 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeRing_

private

Definition at line 188 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeX_

private

Definition at line 87 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeXBlade_

private

Definition at line 163 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeXDisk_

private

Definition at line 176 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeXLad_

private

Definition at line 115 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeXLay_

private

Definition at line 132 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeXPhi_

private

Definition at line 147 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeXRing_

private

Definition at line 189 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeY_

private

Definition at line 88 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeYBlade_

private

Definition at line 164 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeYDisk_

private

Definition at line 177 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeYLad_

private

Definition at line 116 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeYLay_

private

Definition at line 133 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeYPhi_

private

Definition at line 148 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeYRing_

private

Definition at line 190 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meSizeYvsEtaBarrel_

private

Definition at line 125 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meX_

private

Definition at line 84 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meXBlade_

private

Definition at line 160 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meXDisk_

private

Definition at line 173 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meXLad_

private

Definition at line 112 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meXLay_

private

Definition at line 129 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meXPhi_

private

Definition at line 144 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meXRing_

private

Definition at line 186 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meY_

private

Definition at line 83 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meYBlade_

private

Definition at line 159 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meYDisk_

private

Definition at line 172 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meYLad_

private

Definition at line 111 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meYLay_

private

Definition at line 128 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meYPhi_

private

Definition at line 143 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

MonitorElement* SiPixelClusterModule::meYRing_

private

Definition at line 185 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

int SiPixelClusterModule::ncols_

private

Definition at line 80 of file SiPixelClusterModule.h.

Referenced by book().

int SiPixelClusterModule::nrows_

private

Definition at line 81 of file SiPixelClusterModule.h.

Referenced by book().

const TrackerTopology* SiPixelClusterModule::pTT

private

Definition at line 77 of file SiPixelClusterModule.h.

Referenced by book(), and fill().

Public Types

Public Member Functions

Private Attributes

Detailed Description

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation