#include <SiPixelRecHitsValid.h>

Inheritance diagram for SiPixelRecHitsValid:

Public Member Functions
	SiPixelRecHitsValid (const edm::ParameterSet &conf)

	~SiPixelRecHitsValid ()

Public Member Functions inherited from DQMEDAnalyzer
virtual void	beginRun (edm::Run const &, edm::EventSetup const &) final

virtual void	beginStream (edm::StreamID id) final

virtual void	dqmBeginRun (edm::Run const &, edm::EventSetup const &)

	DQMEDAnalyzer (void)

virtual void	endLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, dqmDetails::NoCache *) const final

virtual void	endRunSummary (edm::Run const &, edm::EventSetup const &, dqmDetails::NoCache *) const final

uint32_t	streamId () const

Public Member Functions inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
	EDAnalyzer ()=default

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

	EDAnalyzerBase ()

ModuleDescription const &	moduleDescription () const

virtual	~EDAnalyzerBase ()

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 (std::string const &iProcessName, std::string const &iModuleLabel, bool iPrint, std::vector< char const * > &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 ()

Protected Member Functions
virtual void	analyze (const edm::Event &e, const edm::EventSetup &c)

void	beginJob ()

void	bookHistograms (DQMStore::IBooker &ibooker, const edm::Run &run, const edm::EventSetup &es)

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)

Private Member Functions
void	fillBarrel (const SiPixelRecHit &, const PSimHit &, DetId, const PixelGeomDetUnit , const TrackerTopology tTopo)

void	fillForward (const SiPixelRecHit &, const PSimHit &, DetId, const PixelGeomDetUnit , const TrackerTopology tTopo)

Private Attributes
MonitorElement *	clustChargeDisk1Plaquettes [7]

MonitorElement *	clustChargeDisk2Plaquettes [7]

MonitorElement *	clustChargeLayer1Modules [8]

MonitorElement *	clustChargeLayer2Modules [8]

MonitorElement *	clustChargeLayer3Modules [8]

MonitorElement *	clustXSizeDisk1Plaquettes [7]

MonitorElement *	clustXSizeDisk2Plaquettes [7]

MonitorElement *	clustXSizeLayer [3]

MonitorElement *	clustYSizeDisk1Plaquettes [7]

MonitorElement *	clustYSizeDisk2Plaquettes [7]

MonitorElement *	clustYSizeModule [8]

MonitorElement *	recHitBunchB

MonitorElement *	recHitBunchF

MonitorElement *	recHitEventB

MonitorElement *	recHitEventF

MonitorElement *	recHitNsimHitDisk1

MonitorElement *	recHitNsimHitDisk2

MonitorElement *	recHitNsimHitLayer [3]

MonitorElement *	recHitXFullModules

MonitorElement *	recHitXHalfModules

MonitorElement *	recHitXPlaquetteSize1

MonitorElement *	recHitXPlaquetteSize2

MonitorElement *	recHitXPullAllB

MonitorElement *	recHitXPullAllF

MonitorElement *	recHitXPullDisk1Plaquettes [7]

MonitorElement *	recHitXPullDisk2Plaquettes [7]

MonitorElement *	recHitXPullFlippedLadderLayers [3]

MonitorElement *	recHitXPullNonFlippedLadderLayers [3]

MonitorElement *	recHitXResAllB

MonitorElement *	recHitXResAllF

MonitorElement *	recHitXResDisk1Plaquettes [7]

MonitorElement *	recHitXResDisk2Plaquettes [7]

MonitorElement *	recHitXResFlippedLadderLayers [3]

MonitorElement *	recHitXResNonFlippedLadderLayers [3]

MonitorElement *	recHitYAllModules

MonitorElement *	recHitYPlaquetteSize2

MonitorElement *	recHitYPlaquetteSize3

MonitorElement *	recHitYPlaquetteSize4

MonitorElement *	recHitYPlaquetteSize5

MonitorElement *	recHitYPullAllB

MonitorElement *	recHitYPullAllF

MonitorElement *	recHitYPullDisk1Plaquettes [7]

MonitorElement *	recHitYPullDisk2Plaquettes [7]

MonitorElement *	recHitYPullLayer1Modules [8]

MonitorElement *	recHitYPullLayer2Modules [8]

MonitorElement *	recHitYPullLayer3Modules [8]

MonitorElement *	recHitYResAllB

MonitorElement *	recHitYResAllF

MonitorElement *	recHitYResDisk1Plaquettes [7]

MonitorElement *	recHitYResDisk2Plaquettes [7]

MonitorElement *	recHitYResLayer1Modules [8]

MonitorElement *	recHitYResLayer2Modules [8]

MonitorElement *	recHitYResLayer3Modules [8]

edm::EDGetTokenT < SiPixelRecHitCollection >	siPixelRecHitCollectionToken_

TrackerHitAssociator::Config	trackerHitAssociatorConfig_

Additional Inherited Members
Public Types inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
typedef CacheContexts< T...>	CacheTypes

typedef CacheTypes::GlobalCache	GlobalCache

typedef AbilityChecker< T...>	HasAbility

typedef CacheTypes::LuminosityBlockCache	LuminosityBlockCache

typedef LuminosityBlockContextT < LuminosityBlockCache, RunCache, GlobalCache >	LuminosityBlockContext

typedef CacheTypes::LuminosityBlockSummaryCache	LuminosityBlockSummaryCache

typedef CacheTypes::RunCache	RunCache

typedef RunContextT< RunCache, GlobalCache >	RunContext

typedef CacheTypes::RunSummaryCache	RunSummaryCache

Public Types inherited from edm::stream::EDAnalyzerBase
typedef EDAnalyzerAdaptorBase	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Static Public Member Functions inherited from DQMEDAnalyzer
static std::shared_ptr < dqmDetails::NoCache >	globalBeginLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const *)

static std::shared_ptr < dqmDetails::NoCache >	globalBeginRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const *)

static void	globalEndLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const , dqmDetails::NoCache )

static void	globalEndRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const , dqmDetails::NoCache )

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

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

Detailed Description

File: SiPixelRecHitsValid.h

Author: Jason Shaev, JHU Created: 6/7/06

Definition at line 28 of file SiPixelRecHitsValid.h.

Constructor & Destructor Documentation

SiPixelRecHitsValid::SiPixelRecHitsValid ( const edm::ParameterSet & conf )

Definition at line 49 of file SiPixelRecHitsValid.cc.

   : trackerHitAssociatorConfig_(ps, consumesCollector())
   , siPixelRecHitCollectionToken_( consumes<SiPixelRecHitCollection>( ps.getParameter<edm::InputTag>( "src" ) ) ) {
 
 }

SiPixelRecHitsValid::~SiPixelRecHitsValid ( )

Definition at line 55 of file SiPixelRecHitsValid.cc.

55 {

56 }

Member Function Documentation

void SiPixelRecHitsValid::analyze	(	const edm::Event &	e,
		const edm::EventSetup &	c
	)

protectedvirtual

Implements edm::stream::EDAnalyzerBase.

Definition at line 280 of file SiPixelRecHitsValid.cc.

References TrackerHitAssociator::associateHit(), edmNew::DetSet< T >::begin(), gather_cfg::cout, edmNew::DetSet< T >::end(), edm::EventID::event(), MonitorElement::Fill(), HcalObjRepresent::Fill(), fillBarrel(), fillForward(), relativeConstraints::geom, edm::EventSetup::get(), edm::Event::getByToken(), i, edm::EventBase::id(), TrackerGeometry::idToDet(), visualization-live-secondInstance_cfg::m, edm::ESHandle< class >::product(), TrackerTopology::pxbLayer(), TrackerTopology::pxfDisk(), recHitNsimHitDisk1, recHitNsimHitDisk2, recHitNsimHitLayer, edm::EventID::run(), siPixelRecHitCollectionToken_, mathSSE::sqrt(), DetId::subdetId(), trackerHitAssociatorConfig_, PV3DBase< T, PVType, FrameType >::x(), and PV3DBase< T, PVType, FrameType >::y().

 {
 
   //Retrieve tracker topology from geometry
   edm::ESHandle<TrackerTopology> tTopoHand;
   es.get<TrackerTopologyRcd>().get(tTopoHand);
   const TrackerTopology *tTopo=tTopoHand.product();
 
   edm::LogInfo("EventInfo") << " Run = " << e.id().run() << " Event = " << e.id().event();
   if (e.id().event() % 1000 == 0)
     std::cout << " Run = " << e.id().run() << " Event = " << e.id().event() << std::endl;
   
   //Get RecHits
   edm::Handle<SiPixelRecHitCollection> recHitColl;
   e.getByToken( siPixelRecHitCollectionToken_, recHitColl );
   
   //Get event setup
   edm::ESHandle<TrackerGeometry> geom;
   es.get<TrackerDigiGeometryRecord>().get(geom); 
   const TrackerGeometry& theTracker(*geom);
   
   TrackerHitAssociator associate(e, trackerHitAssociatorConfig_);
   
   //iterate over detunits
   for (TrackerGeometry::DetContainer::const_iterator it = geom->dets().begin(); it != geom->dets().end(); it++) 
     {
       DetId detId = ((*it)->geographicalId());
       unsigned int subid=detId.subdetId();
       
       if (! ((subid==1) || (subid==2))) continue;
       
       const PixelGeomDetUnit * theGeomDet = dynamic_cast<const PixelGeomDetUnit*>(theTracker.idToDet(detId) );
       
       SiPixelRecHitCollection::const_iterator pixeldet = recHitColl->find(detId);
       if (pixeldet == recHitColl->end()) continue;
       SiPixelRecHitCollection::DetSet pixelrechitRange = *pixeldet;
       SiPixelRecHitCollection::DetSet::const_iterator pixelrechitRangeIteratorBegin = pixelrechitRange.begin();
       SiPixelRecHitCollection::DetSet::const_iterator pixelrechitRangeIteratorEnd   = pixelrechitRange.end();
       SiPixelRecHitCollection::DetSet::const_iterator pixeliter = pixelrechitRangeIteratorBegin;
       std::vector<PSimHit> matched;
       
       //----Loop over rechits for this detId
       for ( ; pixeliter != pixelrechitRangeIteratorEnd; pixeliter++) 
     {
       matched.clear();
       matched = associate.associateHit(*pixeliter);
       
       if ( !matched.empty() ) 
         {
           float closest = 9999.9;
           std::vector<PSimHit>::const_iterator closestit = matched.begin();
           LocalPoint lp = pixeliter->localPosition();
           float rechit_x = lp.x();
           float rechit_y = lp.y();
 
           //loop over sim hits and fill closet
           for (std::vector<PSimHit>::const_iterator m = matched.begin(); m<matched.end(); m++) 
         {
           float sim_x1 = (*m).entryPoint().x();
           float sim_x2 = (*m).exitPoint().x();
           float sim_xpos = 0.5*(sim_x1+sim_x2);
 
           float sim_y1 = (*m).entryPoint().y();
           float sim_y2 = (*m).exitPoint().y();
           float sim_ypos = 0.5*(sim_y1+sim_y2);
           
           float x_res = fabs(sim_xpos - rechit_x);
           float y_res = fabs(sim_ypos - rechit_y);
           
           float dist = sqrt(x_res*x_res + y_res*y_res);
 
           if ( dist < closest ) 
             {
               closest = dist;
               closestit = m;
             }
         } // end sim hit loop
           
           if (subid==1) 
         { //<----------barrel
           fillBarrel(*pixeliter, *closestit, detId, theGeomDet,tTopo);  
         } // end barrel
           if (subid==2) 
         { // <-------forward
           fillForward(*pixeliter, *closestit, detId, theGeomDet,tTopo);
         }
           
         } // end matched emtpy
 
       int NsimHit = matched.size();
       if (subid==1)
         { //<----------barrel
           for (unsigned int i=0; i<3; i++)
         if (tTopo->pxbLayer(detId) == i+1)
           recHitNsimHitLayer[i]->Fill(NsimHit);
         } // end barrel
       if (subid==2)
         { // <-------forward
           if (tTopo->pxfDisk(detId) == 1)
         recHitNsimHitDisk1->Fill(NsimHit);
           else 
         recHitNsimHitDisk2->Fill(NsimHit);
         }
     } // <-----end rechit loop 
     } // <------ end detunit loop
 }

void SiPixelRecHitsValid::beginJob ( void )

protected

Definition at line 58 of file SiPixelRecHitsValid.cc.

58 {

59 }

void SiPixelRecHitsValid::bookHistograms	(	DQMStore::IBooker &	ibooker,
		const edm::Run &	run,
		const edm::EventSetup &	es
	)

protectedvirtual

Implements DQMEDAnalyzer.

Definition at line 61 of file SiPixelRecHitsValid.cc.

References DQMStore::IBooker::book1D(), clustChargeDisk1Plaquettes, clustChargeDisk2Plaquettes, clustChargeLayer1Modules, clustChargeLayer2Modules, clustChargeLayer3Modules, clustXSizeDisk1Plaquettes, clustXSizeDisk2Plaquettes, clustXSizeLayer, clustYSizeDisk1Plaquettes, clustYSizeDisk2Plaquettes, clustYSizeModule, timingPdfMaker::histo, i, recHitBunchB, recHitBunchF, recHitEventB, recHitEventF, recHitNsimHitDisk1, recHitNsimHitDisk2, recHitNsimHitLayer, recHitXFullModules, recHitXHalfModules, recHitXPlaquetteSize1, recHitXPlaquetteSize2, recHitXPullAllB, recHitXPullAllF, recHitXPullDisk1Plaquettes, recHitXPullDisk2Plaquettes, recHitXPullFlippedLadderLayers, recHitXPullNonFlippedLadderLayers, recHitXResAllB, recHitXResAllF, recHitXResDisk1Plaquettes, recHitXResDisk2Plaquettes, recHitXResFlippedLadderLayers, recHitXResNonFlippedLadderLayers, recHitYAllModules, recHitYPlaquetteSize2, recHitYPlaquetteSize3, recHitYPlaquetteSize4, recHitYPlaquetteSize5, recHitYPullAllB, recHitYPullAllF, recHitYPullDisk1Plaquettes, recHitYPullDisk2Plaquettes, recHitYPullLayer1Modules, recHitYPullLayer2Modules, recHitYPullLayer3Modules, recHitYResAllB, recHitYResAllF, recHitYResDisk1Plaquettes, recHitYResDisk2Plaquettes, recHitYResLayer1Modules, recHitYResLayer2Modules, recHitYResLayer3Modules, and DQMStore::IBooker::setCurrentFolder().

                                                                                                             {
   ibooker.setCurrentFolder("TrackerRecHitsV/TrackerRecHits/Pixel/clustBPIX");
   
   Char_t histo[200];
   
   // ---------------------------------------------------------------
   // All histograms that depend on plaquette number have 7 indexes.
   // The first 4 (0-3) correspond to Panel 1 plaquettes 1-4.
   // The last 3 (4-6) correspond to Panel 2 plaquettes 1-3.
   // ---------------------------------------------------------------
   
   //Cluster y-size by module number for barrel
   for (int i=0; i<8; i++) {
     sprintf(histo, "Clust_y_size_Module%d", i+1);
     clustYSizeModule[i] = ibooker.book1D(histo,"Cluster y-size by Module", 20, 0.5, 20.5); 
   } // end for
   
   //Cluster x-size by layer for barrel
   for (int i=0; i<3; i++) {
     sprintf(histo, "Clust_x_size_Layer%d", i+1);
     clustXSizeLayer[i] = ibooker.book1D(histo,"Cluster x-size by Layer", 20, 0.5, 20.5);
   } // end for
   
   //Cluster charge by module for 3 layers of barrel
   for (int i=0; i<8; i++) {
     //Cluster charge by module for Layer1
     sprintf(histo, "Clust_charge_Layer1_Module%d", i+1);
     clustChargeLayer1Modules[i] = ibooker.book1D(histo, "Cluster charge Layer 1 by Module", 50, 0., 200000.);
     
     //Cluster charge by module for Layer2
     sprintf(histo, "Clust_charge_Layer2_Module%d", i+1);
     clustChargeLayer2Modules[i] = ibooker.book1D(histo, "Cluster charge Layer 2 by Module", 50, 0., 200000.);
     
     //Cluster charge by module for Layer3
     sprintf(histo, "Clust_charge_Layer3_Module%d", i+1);
     clustChargeLayer3Modules[i] = ibooker.book1D(histo, "Cluster charge Layer 3 by Module",50, 0., 200000.);    
   } // end for
   
   ibooker.setCurrentFolder("TrackerRecHitsV/TrackerRecHits/Pixel/clustFPIX");
   //Cluster x-size, y-size, and charge by plaquette for Disks in Forward
   for (int i=0; i<7; i++) {
     //Cluster x-size for Disk1 by Plaquette
     sprintf(histo, "Clust_x_size_Disk1_Plaquette%d", i+1);
     clustXSizeDisk1Plaquettes[i] = ibooker.book1D(histo, "Cluster X-size for Disk1 by Plaquette", 20, 0.5, 20.5);
     
     //Cluster x-size for Disk2 by Plaquette
     sprintf(histo, "Clust_x_size_Disk2_Plaquette%d", i+1);
     clustXSizeDisk2Plaquettes[i] = ibooker.book1D(histo, "Cluster X-size for Disk2 by Plaquette", 20, 0.5, 20.5);
     
     //Cluster y-size for Disk1 by Plaquette
     sprintf(histo, "Clust_y_size_Disk1_Plaquette%d", i+1);
     clustYSizeDisk1Plaquettes[i] = ibooker.book1D(histo, "Cluster Y-size for Disk1 by Plaquette", 20, 0.5, 20.5);
     
     //Cluster y-size for Disk2 by Plaquette
     sprintf(histo, "Clust_y_size_Disk2_Plaquette%d", i+1);
     clustYSizeDisk2Plaquettes[i] = ibooker.book1D(histo, "Cluster Y-size for Disk2 by Plaquette", 20, 0.5, 20.5);
     
     //Cluster charge for Disk1 by Plaquette
     sprintf(histo, "Clust_charge_Disk1_Plaquette%d", i+1);
     clustChargeDisk1Plaquettes[i] = ibooker.book1D(histo, "Cluster charge for Disk1 by Plaquette", 50, 0., 200000.);
     
     //Cluster charge for Disk2 by Plaquette
     sprintf(histo, "Clust_charge_Disk2_Plaquette%d", i+1);
     clustChargeDisk2Plaquettes[i] = ibooker.book1D(histo, "Cluster charge for Disk2 by Plaquette", 50, 0., 200000.);
   } // end for
   
 
 
   ibooker.setCurrentFolder("TrackerRecHitsV/TrackerRecHits/Pixel/recHitBPIX");
   //RecHit Bunch crossing all barrel hits
   recHitBunchB = ibooker.book1D("RecHit_Bunch_Barrel", "RecHit Bunch Crossing, Barrel", 20, -10., 10.);
   
   //RecHit Event, in-time bunch, all barrel hits
   recHitEventB = ibooker.book1D("RecHit_Event_Barrel", "RecHit Event (in-time bunch), Barrel", 100, 0., 100.);
   
   //RecHit X Resolution all barrel hits
   recHitXResAllB = ibooker.book1D("RecHit_xres_b_All","RecHit X Res All Modules in Barrel", 100, -200., 200.);
   
   //RecHit Y Resolution all barrel hits
   recHitYResAllB = ibooker.book1D("RecHit_yres_b_All","RecHit Y Res All Modules in Barrel", 100, -200., 200.);
   
   //RecHit X distribution for full modules for barrel
   recHitXFullModules = ibooker.book1D("RecHit_x_FullModules", "RecHit X distribution for full modules", 100,-2., 2.);
   
   //RecHit X distribution for half modules for barrel
   recHitXHalfModules = ibooker.book1D("RecHit_x_HalfModules", "RecHit X distribution for half modules", 100, -1., 1.);
   
   //RecHit Y distribution all modules for barrel
   recHitYAllModules = ibooker.book1D("RecHit_y_AllModules", "RecHit Y distribution for all modules", 100, -4., 4.);
   
   //RecHit X resolution for flipped and unflipped ladders by layer for barrel
   for (int i=0; i<3; i++) {
     //RecHit no. of matched simHits all ladders by layer
     sprintf(histo, "RecHit_NsimHit_Layer%d", i+1);
     recHitNsimHitLayer[i] = ibooker.book1D(histo, "RecHit Number of simHits by Layer", 30, 0., 30.);
 
     //RecHit X resolution for flipped ladders by layer
     sprintf(histo, "RecHit_XRes_FlippedLadder_Layer%d", i+1);
     recHitXResFlippedLadderLayers[i] = ibooker.book1D(histo, "RecHit XRes Flipped Ladders by Layer", 100, -200., 200.);
     
     //RecHit X resolution for unflipped ladders by layer
     sprintf(histo, "RecHit_XRes_UnFlippedLadder_Layer%d", i+1);
     recHitXResNonFlippedLadderLayers[i] = ibooker.book1D(histo, "RecHit XRes NonFlipped Ladders by Layer", 100, -200., 200.);
   } // end for
   
   //RecHit Y resolutions for layers by module for barrel
   for (int i=0; i<8; i++) {
     //Rec Hit Y resolution by module for Layer1
     sprintf(histo, "RecHit_YRes_Layer1_Module%d", i+1);
     recHitYResLayer1Modules[i] = ibooker.book1D(histo, "RecHit YRes Layer1 by module", 100, -200., 200.);
     
     //RecHit Y resolution by module for Layer2
     sprintf(histo, "RecHit_YRes_Layer2_Module%d", i+1);
     recHitYResLayer2Modules[i] = ibooker.book1D(histo, "RecHit YRes Layer2 by module", 100, -200., 200.);
     
     //RecHit Y resolution by module for Layer3
     sprintf(histo, "RecHit_YRes_Layer3_Module%d", i+1);
     recHitYResLayer3Modules[i] = ibooker.book1D(histo, "RecHit YRes Layer3 by module", 100, -200., 200.); 
   } // end for
   
   ibooker.setCurrentFolder("TrackerRecHitsV/TrackerRecHits/Pixel/recHitFPIX");
   //RecHit Bunch crossing all plaquettes
   recHitBunchF = ibooker.book1D("RecHit_Bunch_Forward", "RecHit Bunch Crossing, Forward", 20, -10., 10.);
   
   //RecHit Event, in-time bunch, all plaquettes
   recHitEventF = ibooker.book1D("RecHit_Event_Forward", "RecHit Event (in-time bunch), Forward", 100, 0., 100.);
 
   //RecHit No. of simHits, by disk
   recHitNsimHitDisk1 = ibooker.book1D("RecHit_NsimHit_Disk1", "RecHit Number of simHits, Disk1", 30, 0., 30.);
   recHitNsimHitDisk2 = ibooker.book1D("RecHit_NsimHit_Disk2", "RecHit Number of simHits, Disk2", 30, 0., 30.);
   
   //RecHit X resolution all plaquettes
   recHitXResAllF = ibooker.book1D("RecHit_xres_f_All", "RecHit X Res All in Forward", 100, -200., 200.);
   
   //RecHit Y resolution all plaquettes
   recHitYResAllF = ibooker.book1D("RecHit_yres_f_All", "RecHit Y Res All in Forward", 100, -200., 200.);
   
   //RecHit X distribution for plaquette with x-size 1 in forward
   recHitXPlaquetteSize1 = ibooker.book1D("RecHit_x_Plaquette_xsize1", "RecHit X Distribution for plaquette x-size1", 100, -2., 2.);
   
   //RecHit X distribution for plaquette with x-size 2 in forward
   recHitXPlaquetteSize2 = ibooker.book1D("RecHit_x_Plaquette_xsize2", "RecHit X Distribution for plaquette x-size2", 100, -2., 2.);
   
   //RecHit Y distribution for plaquette with y-size 2 in forward
   recHitYPlaquetteSize2 = ibooker.book1D("RecHit_y_Plaquette_ysize2", "RecHit Y Distribution for plaquette y-size2", 100, -4., 4.);
   
   //RecHit Y distribution for plaquette with y-size 3 in forward
   recHitYPlaquetteSize3 = ibooker.book1D("RecHit_y_Plaquette_ysize3", "RecHit Y Distribution for plaquette y-size3", 100, -4., 4.);
   
   //RecHit Y distribution for plaquette with y-size 4 in forward
   recHitYPlaquetteSize4 = ibooker.book1D("RecHit_y_Plaquette_ysize4", "RecHit Y Distribution for plaquette y-size4", 100, -4., 4.);
   
   //RecHit Y distribution for plaquette with y-size 5 in forward
   recHitYPlaquetteSize5 = ibooker.book1D("RecHit_y_Plaquette_ysize5", "RecHit Y Distribution for plaquette y-size5", 100, -4., 4.);
   
   //X and Y resolutions for both disks by plaquette in forward
   for (int i=0; i<7; i++) {
     //X resolution for Disk1 by plaquette
     sprintf(histo, "RecHit_XRes_Disk1_Plaquette%d", i+1);
     recHitXResDisk1Plaquettes[i] = ibooker.book1D(histo, "RecHit XRes Disk1 by plaquette", 100, -200., 200.); 
     //X resolution for Disk2 by plaquette
     sprintf(histo, "RecHit_XRes_Disk2_Plaquette%d", i+1);
     recHitXResDisk2Plaquettes[i] = ibooker.book1D(histo, "RecHit XRes Disk2 by plaquette", 100, -200., 200.);  
     
     //Y resolution for Disk1 by plaquette
     sprintf(histo, "RecHit_YRes_Disk1_Plaquette%d", i+1);
     recHitYResDisk1Plaquettes[i] = ibooker.book1D(histo, "RecHit YRes Disk1 by plaquette", 100, -200., 200.);
     //Y resolution for Disk2 by plaquette
     sprintf(histo, "RecHit_YRes_Disk2_Plaquette%d", i+1);
     recHitYResDisk2Plaquettes[i] = ibooker.book1D(histo, "RecHit YRes Disk2 by plaquette", 100, -200., 200.);
     
   }
 
 
   ibooker.setCurrentFolder("TrackerRecHitsV/TrackerRecHits/Pixel/recHitPullsBPIX");
   recHitXPullAllB        = ibooker.book1D("RecHit_xres_b_All"       , "RecHit X Pull All Modules in Barrel"        , 100, -10.0, 10.0);
   recHitYPullAllB        = ibooker.book1D("RecHit_yres_b_All"       , "RecHit Y Pull All Modules in Barrel"        , 100, -10.0, 10.0);
 
   for (int i=0; i<3; i++) 
     {
       sprintf(histo, "RecHit_XPull_FlippedLadder_Layer%d", i+1);
       recHitXPullFlippedLadderLayers[i] = ibooker.book1D(histo, "RecHit XPull Flipped Ladders by Layer", 100, -10.0, 10.0);
       
       sprintf(histo, "RecHit_XPull_UnFlippedLadder_Layer%d", i+1);
       recHitXPullNonFlippedLadderLayers[i] = ibooker.book1D(histo, "RecHit XPull NonFlipped Ladders by Layer", 100, -10.0, 10.0);
     }
   
   for (int i=0; i<8; i++) 
     {
       sprintf(histo, "RecHit_YPull_Layer1_Module%d", i+1);
       recHitYPullLayer1Modules[i] = ibooker.book1D(histo, "RecHit YPull Layer1 by module", 100, -10.0, 10.0);
       
       sprintf(histo, "RecHit_YPull_Layer2_Module%d", i+1);
       recHitYPullLayer2Modules[i] = ibooker.book1D(histo, "RecHit YPull Layer2 by module", 100, -10.0, 10.0);
       
       sprintf(histo, "RecHit_YPull_Layer3_Module%d", i+1);
       recHitYPullLayer3Modules[i] = ibooker.book1D(histo, "RecHit YPull Layer3 by module", 100, -10.0, 10.0); 
     }
   
   ibooker.setCurrentFolder("TrackerRecHitsV/TrackerRecHits/Pixel/recHitPullsFPIX");
   recHitXPullAllF = ibooker.book1D("RecHit_XPull_f_All", "RecHit X Pull All in Forward", 100, -10.0, 10.0);
   
   recHitYPullAllF = ibooker.book1D("RecHit_YPull_f_All", "RecHit Y Pull All in Forward", 100, -10.0, 10.0);
   
   for (int i=0; i<7; i++) 
     {
       sprintf(histo, "RecHit_XPull_Disk1_Plaquette%d", i+1);
       recHitXPullDisk1Plaquettes[i] = ibooker.book1D(histo, "RecHit XPull Disk1 by plaquette", 100, -10.0, 10.0); 
       sprintf(histo, "RecHit_XPull_Disk2_Plaquette%d", i+1);
       recHitXPullDisk2Plaquettes[i] = ibooker.book1D(histo, "RecHit XPull Disk2 by plaquette", 100, -10.0, 10.0);  
       
       sprintf(histo, "RecHit_YPull_Disk1_Plaquette%d", i+1);
       recHitYPullDisk1Plaquettes[i] = ibooker.book1D(histo, "RecHit YPull Disk1 by plaquette", 100, -10.0, 10.0);
       
       sprintf(histo, "RecHit_YPull_Disk2_Plaquette%d", i+1);
       recHitYPullDisk2Plaquettes[i] = ibooker.book1D(histo, "RecHit YPull Disk2 by plaquette", 100, -10.0, 10.0);
     }
 }

void SiPixelRecHitsValid::fillBarrel	(	const SiPixelRecHit &	recHit,
		const PSimHit &	simHit,
		DetId	detId,
		const PixelGeomDetUnit *	theGeomDet,
		const TrackerTopology *	tTopo
	)

private

Definition at line 387 of file SiPixelRecHitsValid.cc.

References EncodedEventId::bunchCrossing(), RecoTauCleanerPlugins::charge, clustChargeLayer1Modules, clustChargeLayer2Modules, clustChargeLayer3Modules, SiPixelRecHit::cluster(), clustXSizeLayer, clustYSizeModule, PSimHit::entryPoint(), EncodedEventId::event(), event(), PSimHit::eventId(), PSimHit::exitPoint(), MonitorElement::Fill(), HcalObjRepresent::Fill(), i, BaseTrackerRecHit::localPosition(), BaseTrackerRecHit::localPositionError(), PixelTopology::nrows(), PV3DBase< T, PVType, FrameType >::perp(), TrackerTopology::pxbLayer(), TrackerTopology::pxbModule(), recHitBunchB, recHitEventB, recHitXFullModules, recHitXHalfModules, recHitXPullAllB, recHitXPullFlippedLadderLayers, recHitXPullNonFlippedLadderLayers, recHitXResAllB, recHitXResFlippedLadderLayers, recHitXResNonFlippedLadderLayers, recHitYAllModules, recHitYPullAllB, recHitYPullLayer1Modules, recHitYPullLayer2Modules, recHitYPullLayer3Modules, recHitYResAllB, recHitYResLayer1Modules, recHitYResLayer2Modules, recHitYResLayer3Modules, tablePrinter::rows, PixelGeomDetUnit::specificTopology(), mathSSE::sqrt(), GeomDet::surface(), Surface::toGlobal(), PV3DBase< T, PVType, FrameType >::x(), LocalError::xx(), PV3DBase< T, PVType, FrameType >::y(), and LocalError::yy().

Referenced by analyze().

 {
   const float cmtomicron = 10000.0; 
 
   int bunch = simHit.eventId().bunchCrossing();
   int event = simHit.eventId().event();
 
   recHitBunchB->Fill(bunch);
   if (bunch == 0) recHitEventB->Fill(event);
   
   LocalPoint lp = recHit.localPosition();
   float lp_y = lp.y();  
   float lp_x = lp.x();
 
   LocalError lerr = recHit.localPositionError();
   float lerr_x = sqrt(lerr.xx());
   float lerr_y = sqrt(lerr.yy());
   
   recHitYAllModules->Fill(lp_y);
   
   float sim_x1 = simHit.entryPoint().x();
   float sim_x2 = simHit.exitPoint().x();
   float sim_xpos = 0.5*(sim_x1 + sim_x2);
   float res_x = (lp.x() - sim_xpos)*cmtomicron;
   
   recHitXResAllB->Fill(res_x);
   
   float sim_y1 = simHit.entryPoint().y();
   float sim_y2 = simHit.exitPoint().y();
   float sim_ypos = 0.5*(sim_y1 + sim_y2);
   float res_y = (lp.y() - sim_ypos)*cmtomicron;
   
   recHitYResAllB->Fill(res_y);
   
   float pull_x = ( lp_x - sim_xpos ) / lerr_x;
   float pull_y = ( lp_y - sim_ypos ) / lerr_y;
 
   recHitXPullAllB->Fill(pull_x);  
   recHitYPullAllB->Fill(pull_y);
 
   int rows = theGeomDet->specificTopology().nrows();
   
   if (rows == 160) 
     {
       recHitXFullModules->Fill(lp_x);
     } 
   else if (rows == 80) 
     {
       recHitXHalfModules->Fill(lp_x);
     }
   
   float tmp1 = theGeomDet->surface().toGlobal(Local3DPoint(0.,0.,0.)).perp();
   float tmp2 = theGeomDet->surface().toGlobal(Local3DPoint(0.,0.,1.)).perp();
   
   if (tmp2<tmp1) 
     { // flipped
       for (unsigned int i=0; i<3; i++) 
     {
       if (tTopo->pxbLayer(detId) == i+1) 
         {
           recHitXResFlippedLadderLayers[i]->Fill(res_x);
           recHitXPullFlippedLadderLayers[i]->Fill(pull_x);
         }
     }
     } 
   else 
     {
       for (unsigned int i=0; i<3; i++) 
     {
       if (tTopo->pxbLayer(detId) == i+1) 
         {
           recHitXResNonFlippedLadderLayers[i]->Fill(res_x);
           recHitXPullNonFlippedLadderLayers[i]->Fill(pull_x);
         }
     }
     }
   
   //get cluster
   SiPixelRecHit::ClusterRef const& clust = recHit.cluster();
   
   // fill module dependent info
   for (unsigned int i=0; i<8; i++) 
     {
       if (tTopo->pxbModule(detId) == i+1) 
     {
       int sizeY = (*clust).sizeY();
       clustYSizeModule[i]->Fill(sizeY);
       
       if (tTopo->pxbLayer(detId) == 1) 
         {
           float charge = (*clust).charge();
           clustChargeLayer1Modules[i]->Fill(charge);
           recHitYResLayer1Modules[i]->Fill(res_y);
           recHitYPullLayer1Modules[i]->Fill(pull_y);
         }
       else if (tTopo->pxbLayer(detId) == 2) 
         {
           float charge = (*clust).charge();
           clustChargeLayer2Modules[i]->Fill(charge);
           recHitYResLayer2Modules[i]->Fill(res_y);
           recHitYPullLayer2Modules[i]->Fill(pull_y);
         }
       else if (tTopo->pxbLayer(detId) == 3) 
         {
           float charge = (*clust).charge();
           clustChargeLayer3Modules[i]->Fill(charge);
           recHitYResLayer3Modules[i]->Fill(res_y);
           recHitYPullLayer3Modules[i]->Fill(pull_y);
         }
     }
     }
   int sizeX = (*clust).sizeX();
   if (tTopo->pxbLayer(detId) == 1) clustXSizeLayer[0]->Fill(sizeX);
   if (tTopo->pxbLayer(detId) == 2) clustXSizeLayer[1]->Fill(sizeX);
   if (tTopo->pxbLayer(detId) == 3) clustXSizeLayer[2]->Fill(sizeX);
 }

void SiPixelRecHitsValid::fillForward	(	const SiPixelRecHit &	recHit,
		const PSimHit &	simHit,
		DetId	detId,
		const PixelGeomDetUnit *	theGeomDet,
		const TrackerTopology *	tTopo
	)

private

Definition at line 506 of file SiPixelRecHitsValid.cc.

References EncodedEventId::bunchCrossing(), RecoTauCleanerPlugins::charge, clustChargeDisk1Plaquettes, clustChargeDisk2Plaquettes, SiPixelRecHit::cluster(), clustXSizeDisk1Plaquettes, clustXSizeDisk2Plaquettes, clustYSizeDisk1Plaquettes, clustYSizeDisk2Plaquettes, PSimHit::entryPoint(), EncodedEventId::event(), event(), PSimHit::eventId(), PSimHit::exitPoint(), MonitorElement::Fill(), i, BaseTrackerRecHit::localPosition(), BaseTrackerRecHit::localPositionError(), PixelTopology::ncolumns(), PixelTopology::nrows(), TrackerTopology::pxfDisk(), TrackerTopology::pxfModule(), TrackerTopology::pxfPanel(), recHitBunchF, recHitEventF, recHitXPlaquetteSize1, recHitXPlaquetteSize2, recHitXPullAllF, recHitXPullDisk1Plaquettes, recHitXPullDisk2Plaquettes, recHitXResAllF, recHitXResDisk1Plaquettes, recHitXResDisk2Plaquettes, recHitYPlaquetteSize2, recHitYPlaquetteSize3, recHitYPlaquetteSize4, recHitYPlaquetteSize5, recHitYPullAllF, recHitYPullDisk1Plaquettes, recHitYPullDisk2Plaquettes, recHitYResDisk1Plaquettes, recHitYResDisk2Plaquettes, tablePrinter::rows, PixelGeomDetUnit::specificTopology(), mathSSE::sqrt(), PV3DBase< T, PVType, FrameType >::x(), LocalError::xx(), PV3DBase< T, PVType, FrameType >::y(), and LocalError::yy().

Referenced by analyze().

 {
   int rows = theGeomDet->specificTopology().nrows();
   int cols = theGeomDet->specificTopology().ncolumns();
   
   const float cmtomicron = 10000.0;
 
   int bunch = simHit.eventId().bunchCrossing();
   int event = simHit.eventId().event();
 
   recHitBunchF->Fill(bunch);
   if (bunch == 0) recHitEventF->Fill(event);
   
   LocalPoint lp = recHit.localPosition();
   float lp_x = lp.x();
   float lp_y = lp.y();
   
   LocalError lerr = recHit.localPositionError();
   float lerr_x = sqrt(lerr.xx());
   float lerr_y = sqrt(lerr.yy());
 
   float sim_x1 = simHit.entryPoint().x();
   float sim_x2 = simHit.exitPoint().x();
   float sim_xpos = 0.5*(sim_x1 + sim_x2);
   
   float sim_y1 = simHit.entryPoint().y();
   float sim_y2 = simHit.exitPoint().y();
   float sim_ypos = 0.5*(sim_y1 + sim_y2);
   
   float pull_x = ( lp_x - sim_xpos ) / lerr_x;
   float pull_y = ( lp_y - sim_ypos ) / lerr_y;
 
 
   if (rows == 80) 
     {
       recHitXPlaquetteSize1->Fill(lp_x);
     } 
   else if (rows == 160) 
     {
       recHitXPlaquetteSize2->Fill(lp_x);
     }
   
   if (cols == 104) 
     {
       recHitYPlaquetteSize2->Fill(lp_y);
     } 
   else if (cols == 156) 
     {
       recHitYPlaquetteSize3->Fill(lp_y);
     } 
   else if (cols == 208) 
     {
       recHitYPlaquetteSize4->Fill(lp_y);
     } 
   else if (cols == 260) 
     {
       recHitYPlaquetteSize5->Fill(lp_y);
     }
   
   float res_x = (lp.x() - sim_xpos)*cmtomicron;
   
   recHitXResAllF->Fill(res_x);
   recHitXPullAllF->Fill(pull_x);
 
   float res_y = (lp.y() - sim_ypos)*cmtomicron;
   
   recHitYPullAllF->Fill(pull_y);
   
   // get cluster
   SiPixelRecHit::ClusterRef const& clust = recHit.cluster();
   
   // fill plaquette dependent info
   for (unsigned int i=0; i<7; i++) 
     {
       if (tTopo->pxfModule(detId) == i+1) 
     {
       if (tTopo->pxfDisk(detId) == 1) 
         {
           int sizeX = (*clust).sizeX();
           clustXSizeDisk1Plaquettes[i]->Fill(sizeX);
           
           int sizeY = (*clust).sizeY();
           clustYSizeDisk1Plaquettes[i]->Fill(sizeY);
           
           float charge = (*clust).charge();
           clustChargeDisk1Plaquettes[i]->Fill(charge);
           
           recHitXResDisk1Plaquettes[i]->Fill(res_x);
           recHitYResDisk1Plaquettes[i]->Fill(res_y);
 
           recHitXPullDisk1Plaquettes[i]->Fill(pull_x);
           recHitYPullDisk1Plaquettes[i]->Fill(pull_y);
         }
       else 
         {
           int sizeX = (*clust).sizeX();
           clustXSizeDisk2Plaquettes[i]->Fill(sizeX);
           
           int sizeY = (*clust).sizeY();
           clustYSizeDisk2Plaquettes[i]->Fill(sizeY);
           
           float charge = (*clust).charge();
           clustChargeDisk2Plaquettes[i]->Fill(charge);
           
           recHitXResDisk2Plaquettes[i]->Fill(res_x);
           recHitYResDisk2Plaquettes[i]->Fill(res_y);
 
           recHitXPullDisk2Plaquettes[i]->Fill(pull_x);
           recHitYPullDisk2Plaquettes[i]->Fill(pull_y);
           
         } // end else
     } // end if module
       else if (tTopo->pxfPanel(detId) == 2 && (tTopo->pxfModule(detId)+4) == i+1) 
     {
       if (tTopo->pxfDisk(detId) == 1) 
         {
           int sizeX = (*clust).sizeX();
           clustXSizeDisk1Plaquettes[i]->Fill(sizeX);
           
           int sizeY = (*clust).sizeY();
           clustYSizeDisk1Plaquettes[i]->Fill(sizeY);
           
           float charge = (*clust).charge();
           clustChargeDisk1Plaquettes[i]->Fill(charge);
           
           recHitXResDisk1Plaquettes[i]->Fill(res_x);
           recHitYResDisk1Plaquettes[i]->Fill(res_y);
 
           recHitXPullDisk1Plaquettes[i]->Fill(pull_x);
           recHitYPullDisk1Plaquettes[i]->Fill(pull_y);
         }
       else 
         {
           int sizeX = (*clust).sizeX();
           clustXSizeDisk2Plaquettes[i]->Fill(sizeX);
           
           int sizeY = (*clust).sizeY();
           clustYSizeDisk2Plaquettes[i]->Fill(sizeY);
           
           float charge = (*clust).charge();
           clustChargeDisk2Plaquettes[i]->Fill(charge);
           
           recHitXResDisk2Plaquettes[i]->Fill(res_x);
           recHitYResDisk2Plaquettes[i]->Fill(res_y);
 
           recHitXPullDisk2Plaquettes[i]->Fill(pull_x);
           recHitYPullDisk2Plaquettes[i]->Fill(pull_y);
 
         } // end else
         } // end else
     } // end for
 }