#include <SiTrackerGaussianSmearingRecHitConverter.h>

Inheritance diagram for SiTrackerGaussianSmearingRecHitConverter:

Public Member Functions
virtual void	beginRun (edm::Run const &run, const edm::EventSetup &es) override

virtual void	produce (edm::Event &e, const edm::EventSetup &c) override

	SiTrackerGaussianSmearingRecHitConverter (const edm::ParameterSet &conf)

virtual	~SiTrackerGaussianSmearingRecHitConverter ()

Public Member Functions inherited from edm::stream::EDProducer<>
	EDProducer ()=default

Public Member Functions inherited from edm::stream::EDProducerBase
	EDProducerBase ()

ModuleDescription const &	moduleDescription () const

virtual	~EDProducerBase ()

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

	ProducerBase ()

void	registerProducts (ProducerBase , ProductRegistry , ModuleDescription const &)

std::function< void(BranchDescription const &)>	registrationCallback () const
	used by the fwk to register list of products More...

virtual	~ProducerBase ()

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 ()

Private Types
typedef edm::PSimHitContainer::const_iterator	SimHiterator

Private Member Functions
void	loadPixelData ()

void	loadPixelData (TFile pixelDataFile, unsigned int nMultiplicity, std::string histName, std::vector< TH1F > &theMultiplicityCumulativeProbabilities, bool bigPixels=false)

bool	smear (const PSimHit &simHit, Local3DPoint &position, LocalError &error, const TrackerTopology tTopo, RandomEngineAndDistribution const )

Private Attributes
double	deltaRaysPCut

std::vector < SiPixelQuality::disabledModuleType > *	disabledModules

bool	doDisableChannels

double	ElectronsPerADC

const TrackerGeometry *	geometry

double	GevPerElectron

double	localPositionResolution_TEC1x

double	localPositionResolution_TEC1y

double	localPositionResolution_TEC2x

double	localPositionResolution_TEC2y

double	localPositionResolution_TEC3x

double	localPositionResolution_TEC3y

double	localPositionResolution_TEC4x

double	localPositionResolution_TEC4y

double	localPositionResolution_TEC5x

double	localPositionResolution_TEC5y

double	localPositionResolution_TEC6x

double	localPositionResolution_TEC6y

double	localPositionResolution_TEC7x

double	localPositionResolution_TEC7y

double	localPositionResolution_TIB1x

double	localPositionResolution_TIB1y

double	localPositionResolution_TIB2x

double	localPositionResolution_TIB2y

double	localPositionResolution_TIB3x

double	localPositionResolution_TIB3y

double	localPositionResolution_TIB4x

double	localPositionResolution_TIB4y

double	localPositionResolution_TID1x

double	localPositionResolution_TID1y

double	localPositionResolution_TID2x

double	localPositionResolution_TID2y

double	localPositionResolution_TID3x

double	localPositionResolution_TID3y

double	localPositionResolution_TOB1x

double	localPositionResolution_TOB1y

double	localPositionResolution_TOB2x

double	localPositionResolution_TOB2y

double	localPositionResolution_TOB3x

double	localPositionResolution_TOB3y

double	localPositionResolution_TOB4x

double	localPositionResolution_TOB4y

double	localPositionResolution_TOB5x

double	localPositionResolution_TOB5y

double	localPositionResolution_TOB6x

double	localPositionResolution_TOB6y

double	localPositionResolution_z

const TrackerGeometry *	misAlignedGeometry

unsigned int	nAlphaBarrel

unsigned int	nAlphaForward

unsigned int	nBetaBarrel

unsigned int	nBetaForward

unsigned int	numberOfDisabledModules

edm::ParameterSet	pset_

double	resAlphaBarrel_binMin

unsigned int	resAlphaBarrel_binN

double	resAlphaBarrel_binWidth

double	resAlphaForward_binMin

unsigned int	resAlphaForward_binN

double	resAlphaForward_binWidth

double	resBetaBarrel_binMin

unsigned int	resBetaBarrel_binN

double	resBetaBarrel_binWidth

double	resBetaForward_binMin

unsigned int	resBetaForward_binN

double	resBetaForward_binWidth

edm::InputTag	simHitLabel

edm::EDGetTokenT < edm::PSimHitContainer >	simHitToken

std::vector< TH1F * >	theBarrelMultiplicityAlphaCumulativeProbabilities

std::vector< TH1F * >	theBarrelMultiplicityBetaCumulativeProbabilities

std::vector< TH1F * >	theForwardMultiplicityAlphaCumulativeProbabilities

std::vector< TH1F * >	theForwardMultiplicityBetaCumulativeProbabilities

double	theHitFindingProbability_PXB

double	theHitFindingProbability_PXF

double	theHitFindingProbability_TEC1

double	theHitFindingProbability_TEC2

double	theHitFindingProbability_TEC3

double	theHitFindingProbability_TEC4

double	theHitFindingProbability_TEC5

double	theHitFindingProbability_TEC6

double	theHitFindingProbability_TEC7

double	theHitFindingProbability_TIB1

double	theHitFindingProbability_TIB2

double	theHitFindingProbability_TIB3

double	theHitFindingProbability_TIB4

double	theHitFindingProbability_TID1

double	theHitFindingProbability_TID2

double	theHitFindingProbability_TID3

double	theHitFindingProbability_TOB1

double	theHitFindingProbability_TOB2

double	theHitFindingProbability_TOB3

double	theHitFindingProbability_TOB4

double	theHitFindingProbability_TOB5

double	theHitFindingProbability_TOB6

SiPixelGaussianSmearingRecHitConverterAlgorithm *	thePixelBarrelParametrization

TFile *	thePixelBarrelResolutionFile

std::string	thePixelBarrelResolutionFileName

TFile *	thePixelDataFile

SiPixelGaussianSmearingRecHitConverterAlgorithm *	thePixelEndcapParametrization

TFile *	thePixelForwardResolutionFile

std::string	thePixelForwardResolutionFileName

std::string	thePixelMultiplicityFileName

SiStripGaussianSmearingRecHitConverterAlgorithm *	theSiStripErrorParametrization

bool	trackingPSimHits

bool	useCMSSWPixelParameterization

Additional Inherited Members
Public Types inherited from edm::stream::EDProducer<>
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::EDProducerBase
typedef EDProducerAdaptorBase	ModuleType

Public Types inherited from edm::ProducerBase
typedef ProductRegistryHelper::TypeLabelList	TypeLabelList

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

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

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

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

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

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

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

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

void	consumesMany (const TypeToGet &id)

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

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

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

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

Detailed Description

Definition at line 50 of file SiTrackerGaussianSmearingRecHitConverter.h.

Member Typedef Documentation

typedef edm::PSimHitContainer::const_iterator SiTrackerGaussianSmearingRecHitConverter::SimHiterator

private

Definition at line 214 of file SiTrackerGaussianSmearingRecHitConverter.h.

Constructor & Destructor Documentation

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

explicit

SiTrackerGaussianSmearingRecHitConverter.cc

Description: see SiTrackerGaussianSmearingRecHitConverter.h Authors: R. Ranieri (CERN), P. Azzi, A. Schmidt, M. Galanti

History: Sep 27, 2006 - initial version

Definition at line 64 of file SiTrackerGaussianSmearingRecHitConverter.cc.

   : pset_(conf)
 {
   thePixelDataFile = 0;
   thePixelBarrelResolutionFile = 0;
   thePixelForwardResolutionFile = 0;
   thePixelBarrelParametrization = 0;
   thePixelEndcapParametrization = 0;
   theSiStripErrorParametrization = 0;
   numberOfDisabledModules = 0;
 
 #ifdef FAMOS_DEBUG
   std::cout << "SiTrackerGaussianSmearingRecHitConverter instantiated" << std::endl;
 #endif
 
   produces<FastTrackerRecHitCollection>();
   produces<FastTrackerRecHitRefCollection>("simHit2RecHitMap");
 
   //--- PSimHit Containers
   //  trackerContainers.clear();
   //  trackerContainers = conf.getParameter<std::vector<edm::InputTag> >("ROUList");
   simHitLabel = conf.getParameter<edm::InputTag>("InputSimHits"); 
   simHitToken = consumes<edm::PSimHitContainer>(simHitLabel);
   //--- delta rays p cut [GeV/c] to filter PSimHits with p>
   deltaRaysPCut = conf.getParameter<double>("DeltaRaysMomentumCut");
 
   //--- switch to have RecHit == PSimHit
   trackingPSimHits = conf.getParameter<bool>("trackingPSimHits");
   if(trackingPSimHits) std::cout << "### trackingPSimHits chosen " << trackingPSimHits << std::endl;
 
   // disable/enable dead channels
   doDisableChannels = conf.getParameter<bool>("killDeadChannels");
 
   // Switch between old (ORCA) and new (CMSSW) pixel parameterization
   useCMSSWPixelParameterization = conf.getParameter<bool>("UseCMSSWPixelParametrization");
 #ifdef FAMOS_DEBUG
   std::cout << (useCMSSWPixelParameterization? "CMSSW" : "ORCA") << " pixel parametrization chosen in config file." << std::endl;
 #endif
 
   //
   // TIB
   localPositionResolution_TIB1x = conf.getParameter<double>("TIB1x");
   localPositionResolution_TIB1y = conf.getParameter<double>("TIB1y");
   localPositionResolution_TIB2x = conf.getParameter<double>("TIB2x");
   localPositionResolution_TIB2y = conf.getParameter<double>("TIB2y");
   localPositionResolution_TIB3x = conf.getParameter<double>("TIB3x");
   localPositionResolution_TIB3y = conf.getParameter<double>("TIB3y");
   localPositionResolution_TIB4x = conf.getParameter<double>("TIB4x");
   localPositionResolution_TIB4y = conf.getParameter<double>("TIB4y");
   //
   // TID
   localPositionResolution_TID1x = conf.getParameter<double>("TID1x");
   localPositionResolution_TID1y = conf.getParameter<double>("TID1y");
   localPositionResolution_TID2x = conf.getParameter<double>("TID2x");
   localPositionResolution_TID2y = conf.getParameter<double>("TID2y");
   localPositionResolution_TID3x = conf.getParameter<double>("TID3x");
   localPositionResolution_TID3y = conf.getParameter<double>("TID3y");
   //
   // TOB
   localPositionResolution_TOB1x = conf.getParameter<double>("TOB1x");
   localPositionResolution_TOB1y = conf.getParameter<double>("TOB1y");
   localPositionResolution_TOB2x = conf.getParameter<double>("TOB2x");
   localPositionResolution_TOB2y = conf.getParameter<double>("TOB2y");
   localPositionResolution_TOB3x = conf.getParameter<double>("TOB3x");
   localPositionResolution_TOB3y = conf.getParameter<double>("TOB3y");
   localPositionResolution_TOB4x = conf.getParameter<double>("TOB4x");
   localPositionResolution_TOB4y = conf.getParameter<double>("TOB4y");
   localPositionResolution_TOB5x = conf.getParameter<double>("TOB5x");
   localPositionResolution_TOB5y = conf.getParameter<double>("TOB5y");
   localPositionResolution_TOB6x = conf.getParameter<double>("TOB6x");
   localPositionResolution_TOB6y = conf.getParameter<double>("TOB6y");
   //
   // TEC
   localPositionResolution_TEC1x = conf.getParameter<double>("TEC1x");
   localPositionResolution_TEC1y = conf.getParameter<double>("TEC1y");
   localPositionResolution_TEC2x = conf.getParameter<double>("TEC2x");
   localPositionResolution_TEC2y = conf.getParameter<double>("TEC2y");
   localPositionResolution_TEC3x = conf.getParameter<double>("TEC3x");
   localPositionResolution_TEC3y = conf.getParameter<double>("TEC3y");
   localPositionResolution_TEC4x = conf.getParameter<double>("TEC4x");
   localPositionResolution_TEC4y = conf.getParameter<double>("TEC4y");
   localPositionResolution_TEC5x = conf.getParameter<double>("TEC5x");
   localPositionResolution_TEC5y = conf.getParameter<double>("TEC5y");
   localPositionResolution_TEC6x = conf.getParameter<double>("TEC6x");
   localPositionResolution_TEC6y = conf.getParameter<double>("TEC6y");
   localPositionResolution_TEC7x = conf.getParameter<double>("TEC7x");
   localPositionResolution_TEC7y = conf.getParameter<double>("TEC7y");
   //
   localPositionResolution_z = 0.0001; // not to be changed, set to minimum (1 um), Kalman Filter will crash if errors are exactly 0, setting 1 um means 0
   //
 #ifdef FAMOS_DEBUG
   std::cout << "RecHit local position error set to" << "\n"
         << "\tTIB1\tx = " << localPositionResolution_TIB1x 
         << " cm\ty = " << localPositionResolution_TIB1y << " cm" << "\n"
         << "\tTIB2\tx = " << localPositionResolution_TIB2x 
         << " cm\ty = " << localPositionResolution_TIB2y << " cm" << "\n"
         << "\tTIB3\tx = " << localPositionResolution_TIB3x 
         << " cm\ty = " << localPositionResolution_TIB3y << " cm" << "\n"
         << "\tTIB4\tx = " << localPositionResolution_TIB4x 
         << " cm\ty = " << localPositionResolution_TIB4y << " cm" << "\n"
         << "\tTID1\tx = " << localPositionResolution_TID1x 
         << " cm\ty = " << localPositionResolution_TID1y << " cm" << "\n"
         << "\tTID2\tx = " << localPositionResolution_TID2x 
         << " cm\ty = " << localPositionResolution_TID2y << " cm" << "\n"
         << "\tTID3\tx = " << localPositionResolution_TID3x 
         << " cm\ty = " << localPositionResolution_TID3y << " cm" << "\n"
         << "\tTOB1\tx = " << localPositionResolution_TOB1x 
         << " cm\ty = " << localPositionResolution_TOB1y << " cm" << "\n"
         << "\tTOB2\tx = " << localPositionResolution_TOB2x 
         << " cm\ty = " << localPositionResolution_TOB2y << " cm" << "\n"
         << "\tTOB3\tx = " << localPositionResolution_TOB3x 
         << " cm\ty = " << localPositionResolution_TOB3y << " cm" << "\n"
         << "\tTOB4\tx = " << localPositionResolution_TOB4x 
         << " cm\ty = " << localPositionResolution_TOB4y << " cm" << "\n"
         << "\tTOB5\tx = " << localPositionResolution_TOB5x 
         << " cm\ty = " << localPositionResolution_TOB5y << " cm" << "\n"
         << "\tTOB6\tx = " << localPositionResolution_TOB6x 
         << " cm\ty = " << localPositionResolution_TOB6y << " cm" << "\n"
         << "\tTEC1\tx = " << localPositionResolution_TEC1x 
         << " cm\ty = " << localPositionResolution_TEC1y << " cm" << "\n"
         << "\tTEC2\tx = " << localPositionResolution_TEC2x 
         << " cm\ty = " << localPositionResolution_TEC2y << " cm" << "\n"
         << "\tTEC3\tx = " << localPositionResolution_TEC3x 
         << " cm\ty = " << localPositionResolution_TEC3y << " cm" << "\n"
         << "\tTEC4\tx = " << localPositionResolution_TEC4x 
         << " cm\ty = " << localPositionResolution_TEC4y << " cm" << "\n"
         << "\tTEC5\tx = " << localPositionResolution_TEC5x 
         << " cm\ty = " << localPositionResolution_TEC5y << " cm" << "\n"
         << "\tTEC6\tx = " << localPositionResolution_TEC6x 
         << " cm\ty = " << localPositionResolution_TEC6y << " cm" << "\n"
         << "\tTEC7\tx = " << localPositionResolution_TEC7x 
         << " cm\ty = " << localPositionResolution_TEC7y << " cm" << "\n"
         << "\tAll:\tz = " << localPositionResolution_z     << " cm" 
         << std::endl;
 #endif
 
   //--- Number of histograms for alpha/beta barrel/forward multiplicity
   if(useCMSSWPixelParameterization) {
     nAlphaBarrel  = conf.getParameter<int>("AlphaBarrelMultiplicityNew");
     nBetaBarrel   = conf.getParameter<int>("BetaBarrelMultiplicityNew");
     nAlphaForward = conf.getParameter<int>("AlphaForwardMultiplicityNew");
     nBetaForward  = conf.getParameter<int>("BetaForwardMultiplicityNew");
   } else {
     nAlphaBarrel  = conf.getParameter<int>("AlphaBarrelMultiplicity");
     nBetaBarrel   = conf.getParameter<int>("BetaBarrelMultiplicity");
     nAlphaForward = conf.getParameter<int>("AlphaForwardMultiplicity");
     nBetaForward  = conf.getParameter<int>("BetaForwardMultiplicity");
   }
 #ifdef FAMOS_DEBUG
   std::cout << "Pixel maximum multiplicity set to " 
         << "\nBarrel"  << "\talpha " << nAlphaBarrel  
         << "\tbeta " << nBetaBarrel
         << "\nForward" << "\talpha " << nAlphaForward 
         << "\tbeta " << nBetaForward
         << std::endl;
 #endif
   
   // Resolution Barrel    
   if(useCMSSWPixelParameterization) {
     resAlphaBarrel_binMin   = conf.getParameter<double>("AlphaBarrel_BinMinNew"  );
     resAlphaBarrel_binWidth = conf.getParameter<double>("AlphaBarrel_BinWidthNew");
     resAlphaBarrel_binN     = conf.getParameter<int>(   "AlphaBarrel_BinNNew"    );
     resBetaBarrel_binMin    = conf.getParameter<double>("BetaBarrel_BinMinNew"   );
     resBetaBarrel_binWidth  = conf.getParameter<double>("BetaBarrel_BinWidthNew" );
     resBetaBarrel_binN      = conf.getParameter<int>(   "BetaBarrel_BinNNew"     );
   } else {
     resAlphaBarrel_binMin   = conf.getParameter<double>("AlphaBarrel_BinMin"  );
     resAlphaBarrel_binWidth = conf.getParameter<double>("AlphaBarrel_BinWidth");
     resAlphaBarrel_binN     = conf.getParameter<int>(   "AlphaBarrel_BinN"    );
     resBetaBarrel_binMin    = conf.getParameter<double>("BetaBarrel_BinMin"   );
     resBetaBarrel_binWidth  = conf.getParameter<double>("BetaBarrel_BinWidth" );
     resBetaBarrel_binN      = conf.getParameter<int>(   "BetaBarrel_BinN"     );
   }
   
   // Resolution Forward
   if(useCMSSWPixelParameterization) {
     resAlphaForward_binMin   = conf.getParameter<double>("AlphaForward_BinMinNew"   );
     resAlphaForward_binWidth = conf.getParameter<double>("AlphaForward_BinWidthNew" );
     resAlphaForward_binN     = conf.getParameter<int>(   "AlphaForward_BinNNew"     );
     resBetaForward_binMin    = conf.getParameter<double>("BetaForward_BinMinNew"    );
     resBetaForward_binWidth  = conf.getParameter<double>("BetaForward_BinWidthNew"  );
     resBetaForward_binN      = conf.getParameter<int>(   "BetaForward_BinNNew"      );
   } else {
     resAlphaForward_binMin   = conf.getParameter<double>("AlphaForward_BinMin"   );
     resAlphaForward_binWidth = conf.getParameter<double>("AlphaForward_BinWidth" );
     resAlphaForward_binN     = conf.getParameter<int>(   "AlphaForward_BinN"     );
     resBetaForward_binMin    = conf.getParameter<double>("BetaForward_BinMin"    );
     resBetaForward_binWidth  = conf.getParameter<double>("BetaForward_BinWidth"  );
     resBetaForward_binN      = conf.getParameter<int>(   "BetaForward_BinN"      );
   }
 
   // Hit Finding Probability
   theHitFindingProbability_PXB  = conf.getParameter<double>("HitFindingProbability_PXB" );
   theHitFindingProbability_PXF  = conf.getParameter<double>("HitFindingProbability_PXF" );
   theHitFindingProbability_TIB1 = conf.getParameter<double>("HitFindingProbability_TIB1");
   theHitFindingProbability_TIB2 = conf.getParameter<double>("HitFindingProbability_TIB2");
   theHitFindingProbability_TIB3 = conf.getParameter<double>("HitFindingProbability_TIB3");
   theHitFindingProbability_TIB4 = conf.getParameter<double>("HitFindingProbability_TIB4");
   theHitFindingProbability_TID1 = conf.getParameter<double>("HitFindingProbability_TID1");
   theHitFindingProbability_TID2 = conf.getParameter<double>("HitFindingProbability_TID2");
   theHitFindingProbability_TID3 = conf.getParameter<double>("HitFindingProbability_TID3");
   theHitFindingProbability_TOB1 = conf.getParameter<double>("HitFindingProbability_TOB1");
   theHitFindingProbability_TOB2 = conf.getParameter<double>("HitFindingProbability_TOB2");
   theHitFindingProbability_TOB3 = conf.getParameter<double>("HitFindingProbability_TOB3");
   theHitFindingProbability_TOB4 = conf.getParameter<double>("HitFindingProbability_TOB4");
   theHitFindingProbability_TOB5 = conf.getParameter<double>("HitFindingProbability_TOB5");
   theHitFindingProbability_TOB6 = conf.getParameter<double>("HitFindingProbability_TOB6");
   theHitFindingProbability_TEC1 = conf.getParameter<double>("HitFindingProbability_TEC1");
   theHitFindingProbability_TEC2 = conf.getParameter<double>("HitFindingProbability_TEC2");
   theHitFindingProbability_TEC3 = conf.getParameter<double>("HitFindingProbability_TEC3");
   theHitFindingProbability_TEC4 = conf.getParameter<double>("HitFindingProbability_TEC4");
   theHitFindingProbability_TEC5 = conf.getParameter<double>("HitFindingProbability_TEC5");
   theHitFindingProbability_TEC6 = conf.getParameter<double>("HitFindingProbability_TEC6");
   theHitFindingProbability_TEC7 = conf.getParameter<double>("HitFindingProbability_TEC7");
   //
 #ifdef FAMOS_DEBUG
   std::cout << "RecHit finding probability set to" << "\n"
         << "\tPXB  = " << theHitFindingProbability_PXB  << "\n"
         << "\tPXF  = " << theHitFindingProbability_PXF  << "\n"
         << "\tTIB1 = " << theHitFindingProbability_TIB1 << "\n"
         << "\tTIB2 = " << theHitFindingProbability_TIB2 << "\n"
         << "\tTIB3 = " << theHitFindingProbability_TIB3 << "\n"
         << "\tTIB4 = " << theHitFindingProbability_TIB4 << "\n"
         << "\tTID1 = " << theHitFindingProbability_TID1 << "\n"
         << "\tTID2 = " << theHitFindingProbability_TID2 << "\n"
         << "\tTID3 = " << theHitFindingProbability_TID3 << "\n"
         << "\tTOB1 = " << theHitFindingProbability_TOB1 << "\n"
         << "\tTOB2 = " << theHitFindingProbability_TOB2 << "\n"
         << "\tTOB3 = " << theHitFindingProbability_TOB3 << "\n"
         << "\tTOB4 = " << theHitFindingProbability_TOB4 << "\n"
         << "\tTOB5 = " << theHitFindingProbability_TOB5 << "\n"
         << "\tTOB6 = " << theHitFindingProbability_TOB6 << "\n"
         << "\tTEC1 = " << theHitFindingProbability_TEC1 << "\n"
         << "\tTEC2 = " << theHitFindingProbability_TEC2 << "\n"
         << "\tTEC3 = " << theHitFindingProbability_TEC3 << "\n"
         << "\tTEC4 = " << theHitFindingProbability_TEC4 << "\n"
         << "\tTEC5 = " << theHitFindingProbability_TEC5 << "\n"
         << "\tTEC6 = " << theHitFindingProbability_TEC6 << "\n"
         << "\tTEC7 = " << theHitFindingProbability_TEC7 << "\n"
         << std::endl;
 #endif
 
   // Initialize the si strip error parametrization
   theSiStripErrorParametrization = 
     new SiStripGaussianSmearingRecHitConverterAlgorithm;
 
   // Initialization of pixel parameterization posponed to beginRun(), since it depends on the magnetic field
 
 }

SiTrackerGaussianSmearingRecHitConverter::~SiTrackerGaussianSmearingRecHitConverter ( )

virtual

Definition at line 448 of file SiTrackerGaussianSmearingRecHitConverter.cc.

References disabledModules, numberOfDisabledModules, theBarrelMultiplicityAlphaCumulativeProbabilities, theBarrelMultiplicityBetaCumulativeProbabilities, theForwardMultiplicityAlphaCumulativeProbabilities, theForwardMultiplicityBetaCumulativeProbabilities, thePixelBarrelParametrization, thePixelBarrelResolutionFile, thePixelDataFile, thePixelEndcapParametrization, thePixelForwardResolutionFile, and theSiStripErrorParametrization.

                                                                                     {
   theBarrelMultiplicityAlphaCumulativeProbabilities.clear();
   theBarrelMultiplicityBetaCumulativeProbabilities.clear();
   theForwardMultiplicityAlphaCumulativeProbabilities.clear();
   theForwardMultiplicityBetaCumulativeProbabilities.clear();
   
   if(thePixelDataFile) delete thePixelDataFile;
   if(thePixelBarrelResolutionFile) delete thePixelBarrelResolutionFile;
   if(thePixelForwardResolutionFile) delete thePixelForwardResolutionFile;
   if(thePixelBarrelParametrization) delete thePixelBarrelParametrization;
   if(thePixelEndcapParametrization) delete thePixelEndcapParametrization;
   if(theSiStripErrorParametrization) delete theSiStripErrorParametrization;
 
   if (numberOfDisabledModules>0) delete disabledModules;
 }  

Member Function Documentation

void SiTrackerGaussianSmearingRecHitConverter::beginRun	(	edm::Run const &	run,
		const edm::EventSetup &	es
	)

overridevirtual

Reimplemented from edm::stream::EDProducerBase.

Definition at line 465 of file SiTrackerGaussianSmearingRecHitConverter.cc.

References gather_cfg::cout, disabledModules, doDisableChannels, geometry, edm::EventSetup::get(), edm::ParameterSet::getParameter(), MagneticField::inTesla(), loadPixelData(), PV3DBase< T, PVType, FrameType >::mag(), HLT_ES_cff::magfield, misAlignedGeometry, nAlphaBarrel, nAlphaForward, nBetaBarrel, nBetaForward, numberOfDisabledModules, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, pset_, resAlphaBarrel_binMin, resAlphaBarrel_binN, resAlphaBarrel_binWidth, resAlphaForward_binMin, resAlphaForward_binN, resAlphaForward_binWidth, resBetaBarrel_binMin, resBetaBarrel_binN, resBetaBarrel_binWidth, resBetaForward_binMin, resBetaForward_binN, resBetaForward_binWidth, AlCaHLTBitMon_QueryRunRegistry::string, thePixelBarrelParametrization, thePixelBarrelResolutionFileName, thePixelEndcapParametrization, thePixelForwardResolutionFileName, thePixelMultiplicityFileName, and useCMSSWPixelParameterization.

 {
 
   // Initialize the Tracker Geometry
   edm::ESHandle<TrackerGeometry> theGeometry;
   es.get<TrackerDigiGeometryRecord> ().get (theGeometry);
   geometry = &(*theGeometry);
 
   edm::ESHandle<TrackerGeometry> theMisAlignedGeometry;
   es.get<TrackerDigiGeometryRecord>().get("MisAligned",theMisAlignedGeometry);
   misAlignedGeometry = &(*theMisAlignedGeometry);
 
   const MagneticField* magfield;
   edm::ESHandle<MagneticField> magField;
   es.get<IdealMagneticFieldRecord>().get(magField);
   magfield=&(*magField);
   GlobalPoint center(0.0, 0.0, 0.0);
   double magFieldAtCenter = magfield->inTesla(center).mag();
 
   // For new parameterization: select multiplicity and resolution files according to magnetic field
   if(useCMSSWPixelParameterization) {
     if(magFieldAtCenter > 3.9) {
       thePixelMultiplicityFileName = pset_.getParameter<std::string>( "PixelMultiplicityFile40T");
       thePixelBarrelResolutionFileName = pset_.getParameter<std::string>( "PixelBarrelResolutionFile40T");
       thePixelForwardResolutionFileName = pset_.getParameter<std::string>( "PixelForwardResolutionFile40T");
     } else {
       thePixelMultiplicityFileName = pset_.getParameter<std::string>( "PixelMultiplicityFile38T");
       thePixelBarrelResolutionFileName = pset_.getParameter<std::string>( "PixelBarrelResolutionFile38T");      
       thePixelForwardResolutionFileName = pset_.getParameter<std::string>( "PixelForwardResolutionFile38T");
     }
   } else {
     thePixelMultiplicityFileName = pset_.getParameter<std::string>( "PixelMultiplicityFile" );
     thePixelBarrelResolutionFileName = pset_.getParameter<std::string>( "PixelBarrelResolutionFile");
     thePixelForwardResolutionFileName = pset_.getParameter<std::string>( "PixelForwardResolutionFile");
   }
 
 
   // Reading the list of dead pixel modules from DB:
   edm::ESHandle<SiPixelQuality> siPixelBadModule;
   es.get<SiPixelQualityRcd>().get(siPixelBadModule);
   numberOfDisabledModules = 0;
   if (doDisableChannels) {
     disabledModules = new std::vector<SiPixelQuality::disabledModuleType> ( siPixelBadModule->getBadComponentList() );
     numberOfDisabledModules = disabledModules->size();
     size_t numberOfRecoverableModules = 0;
     for (size_t id=0;id<numberOfDisabledModules;id++) {
       //  errortype "whole" = int 0 in DB //
       //  errortype "tbmA" = int 1 in DB  //
       //  errortype "tbmB" = int 2 in DB  //
       //  errortype "none" = int 3 in DB  //
       if ( (*disabledModules)[id-numberOfRecoverableModules].errorType != 0 ){
     // Disable only the modules  totally in error:
     disabledModules->erase(disabledModules->begin()+id-numberOfRecoverableModules);
     numberOfRecoverableModules++;
       }
     }
     numberOfDisabledModules = disabledModules->size();
   }
   
 
 
 #ifdef FAMOS_DEBUG
   std::cout << "Pixel multiplicity data are taken from file " << thePixelMultiplicityFileName << std::endl;
 
   std::cout << "Pixel maximum multiplicity set to " 
         << "\nBarrel"  << "\talpha " << nAlphaBarrel  
         << "\tbeta " << nBetaBarrel
         << "\nForward" << "\talpha " << nAlphaForward 
         << "\tbeta " << nBetaForward
         << std::endl;
 
   std::cout << "Barrel Pixel resolution data are taken from file " 
         << thePixelBarrelResolutionFileName << "\n"
         << "Alpha bin min = " << resAlphaBarrel_binMin
         << "\twidth = "       << resAlphaBarrel_binWidth
         << "\tbins = "        << resAlphaBarrel_binN
         << "\n"
         << " Beta bin min = " << resBetaBarrel_binMin
         << "\twidth = "       << resBetaBarrel_binWidth
         << "\tbins = "        << resBetaBarrel_binN
         << std::endl;
 
   std::cout << "Forward Pixel resolution data are taken from file " 
         << thePixelForwardResolutionFileName << "\n"
         << "Alpha bin min = " << resAlphaForward_binMin
         << "\twidth = "       << resAlphaForward_binWidth
         << "\tbins = "        << resAlphaForward_binN
         << "\n"
         << " Beta bin min = " << resBetaForward_binMin
         << "\twidth = "       << resBetaForward_binWidth
         << "\tbins = "        << resBetaForward_binN
         << std::endl;
 #endif 
   //
 
   //    
   // load pixel data
   loadPixelData();
   //
 
   // Initialize and open relevant files for the pixel barrel error parametrization
   thePixelBarrelParametrization = 
     new SiPixelGaussianSmearingRecHitConverterAlgorithm(
         pset_,
     GeomDetEnumerators::PixelBarrel);
   // Initialize and open relevant files for the pixel forward error parametrization 
   thePixelEndcapParametrization = 
     new SiPixelGaussianSmearingRecHitConverterAlgorithm(
         pset_,
     GeomDetEnumerators::PixelEndcap);
 }

void SiTrackerGaussianSmearingRecHitConverter::loadPixelData ( )

private

Definition at line 316 of file SiTrackerGaussianSmearingRecHitConverter.cc.

References contentValuesFiles::fullPath, nAlphaBarrel, nAlphaForward, nBetaBarrel, nBetaForward, AlCaHLTBitMon_QueryRunRegistry::string, theBarrelMultiplicityAlphaCumulativeProbabilities, theBarrelMultiplicityBetaCumulativeProbabilities, theForwardMultiplicityAlphaCumulativeProbabilities, theForwardMultiplicityBetaCumulativeProbabilities, thePixelBarrelResolutionFile, thePixelBarrelResolutionFileName, thePixelDataFile, thePixelForwardResolutionFile, thePixelForwardResolutionFileName, thePixelMultiplicityFileName, and useCMSSWPixelParameterization.

Referenced by beginRun().

                                                              {
   // load multiplicity cumulative probabilities
   // root files
   thePixelDataFile              = new TFile ( edm::FileInPath( thePixelMultiplicityFileName      ).fullPath().c_str() , "READ" );
   thePixelBarrelResolutionFile  = new TFile ( edm::FileInPath( thePixelBarrelResolutionFileName  ).fullPath().c_str() , "READ" );
   thePixelForwardResolutionFile = new TFile ( edm::FileInPath( thePixelForwardResolutionFileName ).fullPath().c_str() , "READ" );
   //
 
   // alpha barrel
   loadPixelData( thePixelDataFile, 
          nAlphaBarrel  , 
          std::string("hist_alpha_barrel")  , 
          theBarrelMultiplicityAlphaCumulativeProbabilities  );
   // 
   // beta barrel
   loadPixelData( thePixelDataFile, 
          nBetaBarrel   , 
          std::string("hist_beta_barrel")   , 
          theBarrelMultiplicityBetaCumulativeProbabilities   );
   // 
   // alpha forward
   loadPixelData( thePixelDataFile, 
          nAlphaForward , 
          std::string("hist_alpha_forward") , 
          theForwardMultiplicityAlphaCumulativeProbabilities );
   // 
   // beta forward
   loadPixelData( thePixelDataFile, 
          nBetaForward  , 
          std::string("hist_beta_forward")  , 
          theForwardMultiplicityBetaCumulativeProbabilities  );
 
   // Load also big pixel data if CMSSW parametrization is on
   // They are pushed back into the vectors after the normal pixels data:
   // [0, ..., (size/2)-1] -> Normal pixels
   // [size/2, ..., size-1] -> Big pixels
   if(useCMSSWPixelParameterization) {
     // alpha barrel
     loadPixelData( thePixelDataFile, 
                    nAlphaBarrel  , 
                    std::string("hist_alpha_barrel_big")  , 
                    theBarrelMultiplicityAlphaCumulativeProbabilities,
                    true );
     // 
     // beta barrel
     loadPixelData( thePixelDataFile, 
                    nBetaBarrel   , 
                    std::string("hist_beta_barrel_big")   , 
                    theBarrelMultiplicityBetaCumulativeProbabilities,
                    true );
     // 
     // alpha forward
     loadPixelData( thePixelDataFile, 
                    nAlphaForward , 
                    std::string("hist_alpha_forward_big") , 
                    theForwardMultiplicityAlphaCumulativeProbabilities, 
                    true );
     // 
     // beta forward
     loadPixelData( thePixelDataFile, 
                    nBetaForward  , 
                    std::string("hist_beta_forward_big")  , 
                    theForwardMultiplicityBetaCumulativeProbabilities, 
                    true );
   }
   // 
 }

void SiTrackerGaussianSmearingRecHitConverter::loadPixelData	(	TFile *	pixelDataFile,
		unsigned int	nMultiplicity,
		std::string	histName,
		std::vector< TH1F * > &	theMultiplicityCumulativeProbabilities,
		bool	bigPixels = `false`
	)

private

Definition at line 384 of file SiTrackerGaussianSmearingRecHitConverter.cc.

References gather_cfg::cout, i, AlCaHLTBitMon_QueryRunRegistry::string, and useCMSSWPixelParameterization.

 {
 
   std::string histName_i = histName + "_%u"; // needed to open histograms with a for
   if(!bigPixels)
     theMultiplicityCumulativeProbabilities.clear();
   //
   // What's this vector? Not needed - MG
 //  std::vector<double> mult; // vector with fixed multiplicity
   for(unsigned int i = 0; i<nMultiplicity; ++i) {
     TH1F addHist = *((TH1F*) pixelDataFile->Get( Form( histName_i.c_str() ,i+1 )));
     if(i==0) {
       theMultiplicityCumulativeProbabilities.push_back( new TH1F(addHist) );
     } else {
       TH1F sumHist;
       if(bigPixels)
         sumHist = *(theMultiplicityCumulativeProbabilities[nMultiplicity+i-1]);
       else
         sumHist = *(theMultiplicityCumulativeProbabilities[i-1]);
       sumHist.Add(&addHist);
       theMultiplicityCumulativeProbabilities.push_back( new TH1F(sumHist) );
     }
   }
 
   // Logger
 #ifdef FAMOS_DEBUG
   const unsigned int maxMult = theMultiplicityCumulativeProbabilities.size();
   unsigned int iMult, multSize;
   if(useCMSSWPixelParameterization) {
     if(bigPixels) {     
       iMult = maxMult / 2;
       multSize = maxMult ;
     } else {                
       iMult = 0;
       multSize = maxMult;
     }
   } else {
     iMult = 0;
     multSize = maxMult ;
   }
   std::cout << " Multiplicity cumulated probability " << histName << std::endl;
   for(/* void */; iMult<multSize; ++iMult) {
     for(int iBin = 1; iBin<=theMultiplicityCumulativeProbabilities[iMult]->GetNbinsX(); ++iBin) {
       std::cout
     << " Multiplicity " << iMult+1 
     << " bin " << iBin 
     << " low edge = " 
     << theMultiplicityCumulativeProbabilities[iMult]->GetBinLowEdge(iBin)
     << " prob = " 
     << (theMultiplicityCumulativeProbabilities[iMult])->GetBinContent(iBin) 
     // remember in ROOT bin starts from 1 (0 underflow, nBin+1 overflow)
     << std::endl;
     }
   }
 #endif
 
 }

void SiTrackerGaussianSmearingRecHitConverter::produce	(	edm::Event &	e,
		const edm::EventSetup &	c
	)

overridevirtual

Implements edm::stream::EDProducerBase.

Definition at line 579 of file SiTrackerGaussianSmearingRecHitConverter.cc.

References PSimHit::detUnitId(), disabledModules, relativeConstraints::error, geometry, edm::EventSetup::get(), edm::Event::getByToken(), edm::Event::getRefBeforePut(), TrackerGeometry::idToDet(), TrackerGeometry::idToDetUnit(), TrackerGeomDet::localAlignmentError(), misAlignedGeometry, eostools::move(), numberOfDisabledModules, position, edm::Event::put(), random, DetId::rawId(), simHitToken, fastTrackerRecHitType::siPixel, fastTrackerRecHitType::siStrip2D, smear(), edm::Event::streamID(), PSimHit::trackId(), LocalError::xx(), LocalError::xy(), and LocalError::yy().

Referenced by JSONExport.JsonExport::export(), HTMLExport.HTMLExport::export(), and HTMLExport.HTMLExportStatic::export().

 {
   RandomEngineAndDistribution random(e.streamID());
 
   //Retrieve tracker topology from geometry
   edm::ESHandle<TrackerTopology> tTopoHand;
   es.get<TrackerTopologyRcd>().get(tTopoHand);
   const TrackerTopology *tTopo=tTopoHand.product();
 
   // input: simHits
   edm::Handle<edm::PSimHitContainer> allTrackerHits_handle;
   e.getByToken(simHitToken,allTrackerHits_handle);
   const edm::PSimHitContainer& allTrackerHits=*allTrackerHits_handle;
 
   // output: recHits
   std::unique_ptr<FastTrackerRecHitCollection> output_recHits(new FastTrackerRecHitCollection);
   output_recHits->reserve(allTrackerHits.size());
   
   // output: map simHit -> recHit
   // by default, each simHit is associated to a null ref
   edm::RefProd<FastTrackerRecHitCollection> output_recHits_refProd = e.getRefBeforePut<FastTrackerRecHitCollection>();
   std::unique_ptr<FastTrackerRecHitRefCollection> output_recHitRefs(new FastTrackerRecHitRefCollection(allTrackerHits.size(),FastTrackerRecHitRef()));
   
   // loop on PSimHits
   for (unsigned simHitCounter = 0;simHitCounter<allTrackerHits.size();++simHitCounter) {
       
     const PSimHit & simHit = allTrackerHits[simHitCounter]; 
     
     // skip hits on bad modules
     DetId det(simHit.detUnitId());
     bool isBad = false;
     unsigned int geoId  = det.rawId();
     for (size_t id=0;id<numberOfDisabledModules;id++) {
       if(geoId==(*disabledModules)[id].DetID){
     isBad = true;
     break;
       }
     }    
     if(isBad)      continue;
 
     // smear
     Local3DPoint position;
     LocalError error;
     bool isCreated = smear(simHit, position, error,tTopo, &random);
     unsigned int subdet = det.subdetId();
     
     if(isCreated) {
       
       // Inflate errors in case of geometry misaligniment  
       // (still needed! what done in constructor of BaseTrackerRecHit is not effective ad geometry is not missaligned)
       auto theMADet = misAlignedGeometry->idToDet(det);
       auto const & lape  =  theMADet->localAlignmentError();
       if ( lape.valid() )
     error = LocalError ( error.xx()+lape.xx(),
                  error.xy()+lape.xy(),
                  error.yy()+lape.yy() );
 
       // insert rechit in rechit collection
       std::auto_ptr<FastSingleTrackerRecHit> recHit (new FastSingleTrackerRecHit(position, error, 
                                          *geometry->idToDetUnit(det),
                                          subdet > 2 
                                          ? fastTrackerRecHitType::siStrip2D
                                          : fastTrackerRecHitType::siPixel));
       recHit->addSimTrackId(simHit.trackId());
       recHit->setId(output_recHits->size());
       output_recHits->push_back(recHit);
                 
 
       // update map simHit->recHit
       (*output_recHitRefs)[simHitCounter] = FastTrackerRecHitRef(output_recHits_refProd,output_recHits->size()-1);
     } // end if(isCreated)
 
   } // end loop on PSimHits
 
 
   // put products in event
   e.put(std::move(output_recHits));
   e.put(std::move(output_recHitRefs),"simHit2RecHitMap");
   
 }

bool SiTrackerGaussianSmearingRecHitConverter::smear	(	const PSimHit &	simHit,
		Local3DPoint &	position,
		LocalError &	error,
		const TrackerTopology *	tTopo,
		RandomEngineAndDistribution const *	random
	)

private

Definition at line 662 of file SiTrackerGaussianSmearingRecHitConverter.cc.

Referenced by produce().

 {
 
   // A few caracteritics of the detid the SimHit belongs to.
   unsigned int subdet   = DetId(simHit.detUnitId()).subdetId();
   unsigned int detid    = DetId(simHit.detUnitId()).rawId();
   const GeomDetUnit* theDetUnit = geometry->idToDetUnit((DetId)simHit.detUnitId());
   const BoundPlane& theDetPlane = theDetUnit->surface();
   const Bounds& theBounds = theDetPlane.bounds();
   double boundX = theBounds.width()/2.;
   double boundY = theBounds.length()/2.;
   
 #ifdef FAMOS_DEBUG
   std::cout << "\tSubdetector " << subdet 
         << " rawid " << detid
         << std::endl;
 #endif
   if(trackingPSimHits) {
     // z is fixed for all detectors, in case of errors resolution is fixed also for x and y to 1 um (zero)
     // The Matrix is the Covariance Matrix, sigma^2 on diagonal!!!
     error = LocalError( localPositionResolution_z * localPositionResolution_z , 
             0.0 , 
             localPositionResolution_z * localPositionResolution_z  );
     //
     // starting from PSimHit local position
     position = simHit.localPosition();
 #ifdef FAMOS_DEBUG
     std::cout << " Tracking PSimHit position set to  " << position;
 #endif
     return true; // RecHit == PSimHit with 100% hit finding efficiency
   }
   //
   
   // hit finding probability --> RecHit will be created if and only if hitFindingProbability <= theHitFindingProbability_###
   double hitFindingProbability = random->flatShoot();
 #ifdef FAMOS_DEBUG
   std::cout << " Hit finding probability draw: " << hitFindingProbability << std::endl;;
 #endif
   
   switch (subdet) {
     // Pixel Barrel
   case 1:
     {
 #ifdef FAMOS_DEBUG
       
       unsigned int theLayer = tTopo->pxbLayer(detid);
       std::cout << "\tPixel Barrel Layer " << theLayer << std::endl;
 #endif
       if( hitFindingProbability > theHitFindingProbability_PXB ) return false;
       // Hit smearing
       const PixelGeomDetUnit* pixelDetUnit = dynamic_cast<const PixelGeomDetUnit*>(theDetUnit);
       thePixelBarrelParametrization->smearHit(simHit, pixelDetUnit, boundX, boundY, random);
       position  = thePixelBarrelParametrization->getPosition();
       error     = thePixelBarrelParametrization->getError();
       return true;
       break;
     }
     // Pixel Forward
   case 2:
     {
 #ifdef FAMOS_DEBUG
       
       unsigned int theDisk = tTopo->pxfDisk(detid);
       std::cout << "\tPixel Forward Disk " << theDisk << std::endl;
 #endif
       if( hitFindingProbability > theHitFindingProbability_PXF ) return false;
       // Hit smearing
       const PixelGeomDetUnit* pixelDetUnit = dynamic_cast<const PixelGeomDetUnit*>(theDetUnit);
       thePixelEndcapParametrization->smearHit(simHit, pixelDetUnit, boundX, boundY, random);
       position = thePixelEndcapParametrization->getPosition();
       error    = thePixelEndcapParametrization->getError();
       return true;
       break;
     }
     // TIB
   case 3:
     {
       
       unsigned int theLayer  = tTopo->tibLayer(detid);
 #ifdef FAMOS_DEBUG
       std::cout << "\tTIB Layer " << theLayer << std::endl;
 #endif
       //
       double resolutionX, resolutionY, resolutionZ;
       resolutionZ = localPositionResolution_z;
       
       switch (theLayer) {
       case 1:
     {
       resolutionX = localPositionResolution_TIB1x;
       resolutionY = localPositionResolution_TIB1y;
       if( hitFindingProbability > theHitFindingProbability_TIB1 ) return false;
       break;
     }
       case 2:
     {
       resolutionX = localPositionResolution_TIB2x;
       resolutionY = localPositionResolution_TIB2y;
       if( hitFindingProbability > theHitFindingProbability_TIB2 ) return false;
       break;
     }
       case 3:
     {
       resolutionX = localPositionResolution_TIB3x;
       resolutionY = localPositionResolution_TIB3y;
       if( hitFindingProbability > theHitFindingProbability_TIB3 ) return false;
       break;
     }
       case 4:
     {
       resolutionX = localPositionResolution_TIB4x;
       resolutionY = localPositionResolution_TIB4y;
       if( hitFindingProbability > theHitFindingProbability_TIB4 ) return false;
       break;
     }
       default:
     {
       edm::LogError ("SiTrackerGaussianSmearingRecHits") 
         << "\tTIB Layer not valid " << theLayer << std::endl;
       return false;
       break;
     }
       }
 
       // Gaussian smearing
       theSiStripErrorParametrization->smearHit(simHit, resolutionX, resolutionY, resolutionZ, boundX, boundY, random);
       position = theSiStripErrorParametrization->getPosition();
       error    = theSiStripErrorParametrization->getError();
       return true;
       break;
     } // TIB
     
     // TID
   case 4:
     {
       
       unsigned int theRing  = tTopo->tidRing(detid);
       double resolutionFactorY = 
     1. - simHit.localPosition().y() / theDetPlane.position().perp(); 
 
 #ifdef FAMOS_DEBUG
       std::cout << "\tTID Ring " << theRing << std::endl;
 #endif
       double resolutionX, resolutionY, resolutionZ;
       resolutionZ = localPositionResolution_z;
       
       switch (theRing) {
       case 1:
     {
       resolutionX = localPositionResolution_TID1x * resolutionFactorY;
       resolutionY = localPositionResolution_TID1y;
       if( hitFindingProbability > theHitFindingProbability_TID1 ) return false;
       break;
     }
       case 2:
     {
       resolutionX = localPositionResolution_TID2x * resolutionFactorY;
       resolutionY = localPositionResolution_TID2y;
       if( hitFindingProbability > theHitFindingProbability_TID2 ) return false;
       break;
     }
       case 3:
     {
       resolutionX = localPositionResolution_TID3x * resolutionFactorY;
       resolutionY = localPositionResolution_TID3y;
       if( hitFindingProbability > theHitFindingProbability_TID3 ) return false;
       break;
     }
       default:
     {
       edm::LogError ("SiTrackerGaussianSmearingRecHits") 
         << "\tTID Ring not valid " << theRing << std::endl;
       return false;
       break;
     }
       }
 
       boundX *=  resolutionFactorY;
 
       theSiStripErrorParametrization->smearHit(simHit, resolutionX, resolutionY, resolutionZ, boundX, boundY, random);
       position = theSiStripErrorParametrization->getPosition();
       error    = theSiStripErrorParametrization->getError();
       return true;
       break;
     } // TID
     
     // TOB
   case 5:
     {
       
       unsigned int theLayer  = tTopo->tobLayer(detid);
 #ifdef FAMOS_DEBUG
       std::cout << "\tTOB Layer " << theLayer << std::endl;
 #endif
       double resolutionX, resolutionY, resolutionZ;
       resolutionZ = localPositionResolution_z;
       
       switch (theLayer) {
       case 1:
     {
       resolutionX = localPositionResolution_TOB1x;
       resolutionY = localPositionResolution_TOB1y;
       if( hitFindingProbability > theHitFindingProbability_TOB1 ) return false;
       break;
     }
       case 2:
     {
       resolutionX = localPositionResolution_TOB2x;
       resolutionY = localPositionResolution_TOB2y;
       if( hitFindingProbability > theHitFindingProbability_TOB2 ) return false;
       break;
     }
       case 3:
     {
       resolutionX = localPositionResolution_TOB3x;
       resolutionY = localPositionResolution_TOB3y;
       if( hitFindingProbability > theHitFindingProbability_TOB3 ) return false;
       break;
     }
       case 4:
     {
       resolutionX = localPositionResolution_TOB4x;
       resolutionY = localPositionResolution_TOB4y;
       if( hitFindingProbability > theHitFindingProbability_TOB4 ) return false;
       break;
     }
       case 5:
     {
       resolutionX = localPositionResolution_TOB5x;
       resolutionY = localPositionResolution_TOB5y;
       if( hitFindingProbability > theHitFindingProbability_TOB5 ) return false;
       break;
     }
       case 6:
     {
       resolutionX = localPositionResolution_TOB6x;
       resolutionY = localPositionResolution_TOB6y;
       if( hitFindingProbability > theHitFindingProbability_TOB6 ) return false;
       break;
     }
       default:
     {
       edm::LogError ("SiTrackerGaussianSmearingRecHits") 
         << "\tTOB Layer not valid " << theLayer << std::endl;
       return false;
       break;
     }
       }
       theSiStripErrorParametrization->smearHit(simHit, resolutionX, resolutionY, resolutionZ, boundX, boundY, random);
       position = theSiStripErrorParametrization->getPosition();
       error    = theSiStripErrorParametrization->getError();
       return true;
       break;
     } // TOB
     
     // TEC
   case 6:
     {
       
       unsigned int theRing  = tTopo->tecRing(detid);
       double resolutionFactorY = 
     1. - simHit.localPosition().y() / theDetPlane.position().perp(); 
 
 #ifdef FAMOS_DEBUG
       std::cout << "\tTEC Ring " << theRing << std::endl;
 #endif
       double resolutionX, resolutionY, resolutionZ;
       resolutionZ = localPositionResolution_z * localPositionResolution_z;
       
       switch (theRing) {
       case 1:
     {
       resolutionX = localPositionResolution_TEC1x * resolutionFactorY;
       resolutionY = localPositionResolution_TEC1y;
       if( hitFindingProbability > theHitFindingProbability_TEC1 ) return false;
       break;
     }
       case 2:
     {
       resolutionX = localPositionResolution_TEC2x * resolutionFactorY;
       resolutionY = localPositionResolution_TEC2y;
       if( hitFindingProbability > theHitFindingProbability_TEC2 ) return false;
       break;
     }
       case 3:
     {
       resolutionX = localPositionResolution_TEC3x * resolutionFactorY;
       resolutionY = localPositionResolution_TEC3y;
       if( hitFindingProbability > theHitFindingProbability_TEC3 ) return false;
       break;
     }
       case 4:
     {
       resolutionX = localPositionResolution_TEC4x * resolutionFactorY;
       resolutionY = localPositionResolution_TEC4y;
       if( hitFindingProbability > theHitFindingProbability_TEC4 ) return false;
       break;
     }
       case 5:
     {
       resolutionX = localPositionResolution_TEC5x * resolutionFactorY;
       resolutionY = localPositionResolution_TEC5y;
       if( hitFindingProbability > theHitFindingProbability_TEC5 ) return false;
       break;
     }
       case 6:
     {
       resolutionX = localPositionResolution_TEC6x * resolutionFactorY;
       resolutionY = localPositionResolution_TEC6y;
       if( hitFindingProbability > theHitFindingProbability_TEC6 ) return false;
       break;
     }
       case 7:
     {
       resolutionX = localPositionResolution_TEC7x * resolutionFactorY;
       resolutionY = localPositionResolution_TEC7y;
       if( hitFindingProbability > theHitFindingProbability_TEC7 ) return false;
       break;
     }
       default:
     {
       edm::LogError ("SiTrackerGaussianSmearingRecHits") 
         << "\tTEC Ring not valid " << theRing << std::endl;
       return false;
       break;
     }
       }
 
       boundX *= resolutionFactorY;
       theSiStripErrorParametrization->smearHit(simHit, resolutionX, resolutionY, resolutionZ, boundX, boundY, random);
       position = theSiStripErrorParametrization->getPosition();
       error    = theSiStripErrorParametrization->getError();
       return true;
       break;
     } // TEC
     
   default:
     {
       edm::LogError ("SiTrackerGaussianSmearingRecHits") << "\tTracker subdetector not valid " << subdet << std::endl;
       return false;
       break;
     }
     
   } // subdetector case
     //
 }   

Member Data Documentation

double SiTrackerGaussianSmearingRecHitConverter::deltaRaysPCut

private

Definition at line 83 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter().

std::vector<SiPixelQuality::disabledModuleType>* SiTrackerGaussianSmearingRecHitConverter::disabledModules

private

Definition at line 90 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), produce(), and ~SiTrackerGaussianSmearingRecHitConverter().

bool SiTrackerGaussianSmearingRecHitConverter::doDisableChannels

private

Definition at line 86 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::ElectronsPerADC

private

Definition at line 96 of file SiTrackerGaussianSmearingRecHitConverter.h.

const TrackerGeometry* SiTrackerGaussianSmearingRecHitConverter::geometry

private

Definition at line 99 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), Vispa.Gui.ConnectableWidget.ConnectableWidget::leaveEvent(), produce(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::GevPerElectron

private

Definition at line 97 of file SiTrackerGaussianSmearingRecHitConverter.h.

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC1x

private

Definition at line 180 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC1y

private

Definition at line 181 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC2x

private

Definition at line 182 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC2y

private

Definition at line 183 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC3x

private

Definition at line 184 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC3y

private

Definition at line 185 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC4x

private

Definition at line 186 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC4y

private

Definition at line 187 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC5x

private

Definition at line 188 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC5y

private

Definition at line 189 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC6x

private

Definition at line 190 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC6y

private

Definition at line 191 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC7x

private

Definition at line 192 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TEC7y

private

Definition at line 193 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB1x

private

Definition at line 132 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB1y

private

Definition at line 133 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB2x

private

Definition at line 134 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB2y

private

Definition at line 135 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB3x

private

Definition at line 136 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB3y

private

Definition at line 137 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB4x

private

Definition at line 138 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TIB4y

private

Definition at line 139 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TID1x

private

Definition at line 147 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TID1y

private

Definition at line 148 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TID2x

private

Definition at line 149 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TID2y

private

Definition at line 150 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TID3x

private

Definition at line 151 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TID3y

private

Definition at line 152 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB1x

private

Definition at line 159 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB1y

private

Definition at line 160 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB2x

private

Definition at line 161 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB2y

private

Definition at line 162 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB3x

private

Definition at line 163 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB3y

private

Definition at line 164 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB4x

private

Definition at line 165 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB4y

private

Definition at line 166 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB5x

private

Definition at line 167 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB5y

private

Definition at line 168 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB6x

private

Definition at line 169 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_TOB6y

private

Definition at line 170 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::localPositionResolution_z

private

Definition at line 204 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

const TrackerGeometry* SiTrackerGaussianSmearingRecHitConverter::misAlignedGeometry

private

Definition at line 100 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and produce().

unsigned int SiTrackerGaussianSmearingRecHitConverter::nAlphaBarrel

private

Definition at line 111 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), loadPixelData(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::nAlphaForward

private

Definition at line 111 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), loadPixelData(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::nBetaBarrel

private

Definition at line 111 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), loadPixelData(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::nBetaForward

private

Definition at line 111 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), loadPixelData(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::numberOfDisabledModules

private

Definition at line 91 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), produce(), SiTrackerGaussianSmearingRecHitConverter(), and ~SiTrackerGaussianSmearingRecHitConverter().

edm::ParameterSet SiTrackerGaussianSmearingRecHitConverter::pset_

private

Definition at line 82 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun().

double SiTrackerGaussianSmearingRecHitConverter::resAlphaBarrel_binMin

private

Definition at line 118 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::resAlphaBarrel_binN

private

Definition at line 119 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::resAlphaBarrel_binWidth

private

Definition at line 118 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::resAlphaForward_binMin

private

Definition at line 122 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::resAlphaForward_binN

private

Definition at line 123 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::resAlphaForward_binWidth

private

Definition at line 122 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::resBetaBarrel_binMin

private

Definition at line 120 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::resBetaBarrel_binN

private

Definition at line 121 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::resBetaBarrel_binWidth

private

Definition at line 120 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::resBetaForward_binMin

private

Definition at line 124 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

unsigned int SiTrackerGaussianSmearingRecHitConverter::resBetaForward_binN

private

Definition at line 125 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::resBetaForward_binWidth

private

Definition at line 124 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and SiTrackerGaussianSmearingRecHitConverter().

edm::InputTag SiTrackerGaussianSmearingRecHitConverter::simHitLabel

private

Definition at line 80 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter().

edm::EDGetTokenT<edm::PSimHitContainer> SiTrackerGaussianSmearingRecHitConverter::simHitToken

private

Definition at line 81 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by produce(), and SiTrackerGaussianSmearingRecHitConverter().

std::vector<TH1F*> SiTrackerGaussianSmearingRecHitConverter::theBarrelMultiplicityAlphaCumulativeProbabilities

private

Definition at line 113 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by loadPixelData(), and ~SiTrackerGaussianSmearingRecHitConverter().

std::vector<TH1F*> SiTrackerGaussianSmearingRecHitConverter::theBarrelMultiplicityBetaCumulativeProbabilities

private

Definition at line 114 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by loadPixelData(), and ~SiTrackerGaussianSmearingRecHitConverter().

std::vector<TH1F*> SiTrackerGaussianSmearingRecHitConverter::theForwardMultiplicityAlphaCumulativeProbabilities

private

Definition at line 115 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by loadPixelData(), and ~SiTrackerGaussianSmearingRecHitConverter().

std::vector<TH1F*> SiTrackerGaussianSmearingRecHitConverter::theForwardMultiplicityBetaCumulativeProbabilities

private

Definition at line 116 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by loadPixelData(), and ~SiTrackerGaussianSmearingRecHitConverter().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_PXB

private

Definition at line 127 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_PXF

private

Definition at line 128 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TEC1

private

Definition at line 195 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TEC2

private

Definition at line 196 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TEC3

private

Definition at line 197 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TEC4

private

Definition at line 198 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TEC5

private

Definition at line 199 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TEC6

private

Definition at line 200 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TEC7

private

Definition at line 201 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TIB1

private

Definition at line 141 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TIB2

private

Definition at line 142 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TIB3

private

Definition at line 143 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TIB4

private

Definition at line 144 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TID1

private

Definition at line 154 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TID2

private

Definition at line 155 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TID3

private

Definition at line 156 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TOB1

private

Definition at line 172 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TOB2

private

Definition at line 173 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TOB3

private

Definition at line 174 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TOB4

private

Definition at line 175 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TOB5

private

Definition at line 176 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

double SiTrackerGaussianSmearingRecHitConverter::theHitFindingProbability_TOB6

private

Definition at line 177 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

SiPixelGaussianSmearingRecHitConverterAlgorithm* SiTrackerGaussianSmearingRecHitConverter::thePixelBarrelParametrization

private

Definition at line 208 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), SiTrackerGaussianSmearingRecHitConverter(), smear(), and ~SiTrackerGaussianSmearingRecHitConverter().

TFile* SiTrackerGaussianSmearingRecHitConverter::thePixelBarrelResolutionFile

private

Definition at line 107 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by loadPixelData(), SiTrackerGaussianSmearingRecHitConverter(), and ~SiTrackerGaussianSmearingRecHitConverter().

std::string SiTrackerGaussianSmearingRecHitConverter::thePixelBarrelResolutionFileName

private

Definition at line 104 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and loadPixelData().

TFile* SiTrackerGaussianSmearingRecHitConverter::thePixelDataFile

private

Definition at line 106 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by loadPixelData(), SiTrackerGaussianSmearingRecHitConverter(), and ~SiTrackerGaussianSmearingRecHitConverter().

SiPixelGaussianSmearingRecHitConverterAlgorithm* SiTrackerGaussianSmearingRecHitConverter::thePixelEndcapParametrization

private

Definition at line 210 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), SiTrackerGaussianSmearingRecHitConverter(), smear(), and ~SiTrackerGaussianSmearingRecHitConverter().

TFile* SiTrackerGaussianSmearingRecHitConverter::thePixelForwardResolutionFile

private

Definition at line 108 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by loadPixelData(), SiTrackerGaussianSmearingRecHitConverter(), and ~SiTrackerGaussianSmearingRecHitConverter().

std::string SiTrackerGaussianSmearingRecHitConverter::thePixelForwardResolutionFileName

private

Definition at line 105 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and loadPixelData().

std::string SiTrackerGaussianSmearingRecHitConverter::thePixelMultiplicityFileName

private

Definition at line 103 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), and loadPixelData().

SiStripGaussianSmearingRecHitConverterAlgorithm* SiTrackerGaussianSmearingRecHitConverter::theSiStripErrorParametrization

private

Definition at line 212 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), smear(), and ~SiTrackerGaussianSmearingRecHitConverter().

bool SiTrackerGaussianSmearingRecHitConverter::trackingPSimHits

private

Definition at line 84 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by SiTrackerGaussianSmearingRecHitConverter(), and smear().

bool SiTrackerGaussianSmearingRecHitConverter::useCMSSWPixelParameterization

private

Definition at line 95 of file SiTrackerGaussianSmearingRecHitConverter.h.

Referenced by beginRun(), loadPixelData(), and SiTrackerGaussianSmearingRecHitConverter().

Public Member Functions

Private Types

Private Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Member Typedef Documentation

Constructor & Destructor Documentation

SiTrackerGaussianSmearingRecHitConverter.cc

History: Sep 27, 2006 - initial version

Member Function Documentation

Member Data Documentation