#include <MagneticFieldMap.h>

Public Member Functions
const GlobalVector	inInverseGeV (const GlobalPoint &) const

double	inInverseGeVZ (const GlobalPoint &) const

const GlobalVector	inKGauss (const GlobalPoint &) const

double	inKGaussZ (const GlobalPoint &) const

const GlobalVector	inTesla (const GlobalPoint &) const

const GlobalVector	inTesla (const TrackerLayer &aLayer, double coord, int success) const

double	inTeslaZ (const GlobalPoint &) const

double	inTeslaZ (const TrackerLayer &aLayer, double coord, int success) const

const MagneticField &	magneticField () const

	MagneticFieldMap (const MagneticField pmF, const TrackerInteractionGeometry myGeo)

Private Member Functions
void	initialize ()

const std::vector< double > *	theFieldBarrelHisto (unsigned layer) const

const std::vector< double > *	theFieldEndcapHisto (unsigned layer) const

Private Attributes
unsigned	bins

std::vector< double >	fieldBarrelBinWidth

std::vector< std::vector< double > >	fieldBarrelHistos

std::vector< double >	fieldBarrelZMin

std::vector< double >	fieldEndcapBinWidth

std::vector< std::vector< double > >	fieldEndcapHistos

std::vector< double >	fieldEndcapRMin

const TrackerInteractionGeometry *	geometry_

const MagneticField *	pMF_

Detailed Description

Definition at line 18 of file MagneticFieldMap.h.

Constructor & Destructor Documentation

◆ MagneticFieldMap()

MagneticFieldMap::MagneticFieldMap	(	const MagneticField *	pmF,
		const TrackerInteractionGeometry *	myGeo
	)

Definition at line 7 of file MagneticFieldMap.cc.

     : pMF_(pMF),
       geometry_(myGeo),
       bins(101),
       fieldBarrelHistos(200, static_cast<std::vector<double> >(std::vector<double>(bins, static_cast<double>(0.)))),
       fieldEndcapHistos(200, static_cast<std::vector<double> >(std::vector<double>(bins, static_cast<double>(0.)))),
       fieldBarrelBinWidth(200, static_cast<double>(0.)),
       fieldBarrelZMin(200, static_cast<double>(0.)),
       fieldEndcapBinWidth(200, static_cast<double>(0.)),
       fieldEndcapRMin(200, static_cast<double>(0.))
  
 {
   std::list<TrackerLayer>::const_iterator cyliter;
   std::list<TrackerLayer>::const_iterator cylitBeg = geometry_->cylinderBegin();
   std::list<TrackerLayer>::const_iterator cylitEnd = geometry_->cylinderEnd();
  
   // Prepare the histograms
   // std::cout << "Prepare magnetic field local database for FAMOS speed-up" << std::endl;
   for (cyliter = cylitBeg; cyliter != cylitEnd; ++cyliter) {
     int layer = cyliter->layerNumber();
     //    cout << " Fill Histogram " << hist << endl;
  
     // Cylinder bounds
     double zmin = 0.;
     double zmax;
     double rmin = 0.;
     double rmax;
     if (cyliter->forward()) {
       zmax = cyliter->disk()->position().z();
       rmax = cyliter->disk()->outerRadius();
     } else {
       zmax = cyliter->cylinder()->bounds().length() / 2.;
       rmax = cyliter->cylinder()->bounds().width() / 2. - cyliter->cylinder()->bounds().thickness() / 2.;
     }
  
     // Histograms
     double step;
  
     // Disk histogram characteristics
     step = (rmax - rmin) / (bins - 1);
     fieldEndcapBinWidth[layer] = step;
     fieldEndcapRMin[layer] = rmin;
  
     // Fill the histo
     int endcapBin = 0;
     for (double radius = rmin + step / 2.; radius < rmax + step; radius += step) {
       double field = inTeslaZ(GlobalPoint(radius, 0., zmax));
       fieldEndcapHistos[layer][endcapBin++] = field;
     }
  
     // Barrel Histogram characteritics
     step = (zmax - zmin) / (bins - 1);
     fieldBarrelBinWidth[layer] = step;
     fieldBarrelZMin[layer] = zmin;
  
     // Fill the histo
     int barrelBin = 0;
     for (double zed = zmin + step / 2.; zed < zmax + step; zed += step) {
       double field = inTeslaZ(GlobalPoint(rmax, 0., zed));
       fieldBarrelHistos[layer][barrelBin++] = field;
     }
   }
 }

References bins, TrackerInteractionGeometry::cylinderBegin(), TrackerInteractionGeometry::cylinderEnd(), fieldBarrelBinWidth, fieldBarrelHistos, fieldBarrelZMin, fieldEndcapBinWidth, fieldEndcapHistos, fieldEndcapRMin, geometry_, inTeslaZ(), CosmicsPD_Skims::radius, SiStripMonitorCluster_cfi::zmax, and SiStripMonitorCluster_cfi::zmin.

Member Function Documentation

◆ inInverseGeV()

const GlobalVector MagneticFieldMap::inInverseGeV ( const GlobalPoint & gp ) const

Definition at line 89 of file MagneticFieldMap.cc.

89 { return inKGauss(gp) * 2.99792458e-4; }

References runTauDisplay::gp, and inKGauss().

◆ inInverseGeVZ()

double MagneticFieldMap::inInverseGeVZ ( const GlobalPoint & gp ) const

Definition at line 131 of file MagneticFieldMap.cc.

131 { return inKGaussZ(gp) * 2.99792458e-4; }

References runTauDisplay::gp, and inKGaussZ().

◆ initialize()

void MagneticFieldMap::initialize ( )

private

◆ inKGauss()

const GlobalVector MagneticFieldMap::inKGauss ( const GlobalPoint & gp ) const

Definition at line 87 of file MagneticFieldMap.cc.

87 { return inTesla(gp) * 10.; }

References runTauDisplay::gp, and inTesla().

Referenced by inInverseGeV().

◆ inKGaussZ()

double MagneticFieldMap::inKGaussZ ( const GlobalPoint & gp ) const

Definition at line 129 of file MagneticFieldMap.cc.

129 { return inTeslaZ(gp) / 10.; }

References runTauDisplay::gp, and inTeslaZ().

Referenced by inInverseGeVZ().

◆ inTesla() [1/2]

const GlobalVector MagneticFieldMap::inTesla ( const GlobalPoint & gp ) const

Definition at line 71 of file MagneticFieldMap.cc.

                                                                         {
   if (!pMF_) {
     return GlobalVector(0., 0., 4.);
   } else {
     return pMF_->inTesla(gp);
   }
 }

References runTauDisplay::gp, MagneticField::inTesla(), and pMF_.

Referenced by inKGauss().

◆ inTesla() [2/2]

const GlobalVector MagneticFieldMap::inTesla	(	const TrackerLayer &	aLayer,
		double	coord,
		int	success
	)		const

Definition at line 79 of file MagneticFieldMap.cc.

                                                                                                         {
   if (!pMF_) {
     return GlobalVector(0., 0., 4.);
   } else {
     return GlobalVector(0., 0., inTeslaZ(aLayer, coord, success));
   }
 }

References inTeslaZ(), pMF_, and summarizeEdmComparisonLogfiles::success.

◆ inTeslaZ() [1/2]

double MagneticFieldMap::inTeslaZ ( const GlobalPoint & gp ) const

Definition at line 91 of file MagneticFieldMap.cc.

91 { return pMF_ ? pMF_->inTesla(gp).z() : 4.0; }

References runTauDisplay::gp, MagneticField::inTesla(), pMF_, and PV3DBase< T, PVType, FrameType >::z().

Referenced by ParticlePropagator::fieldMap(), inKGaussZ(), inTesla(), MagneticFieldMap(), and FamosManager::setupGeometryAndField().

◆ inTeslaZ() [2/2]

double MagneticFieldMap::inTeslaZ	(	const TrackerLayer &	aLayer,
		double	coord,
		int	success
	)		const

Definition at line 93 of file MagneticFieldMap.cc.

                                                                                              {
   if (!pMF_) {
     return 4.;
   } else {
     // Find the relevant histo
     double theBinWidth;
     double theXMin;
     unsigned layer = aLayer.layerNumber();
     const std::vector<double>* theHisto;
  
     if (success == 1) {
       theHisto = theFieldBarrelHisto(layer);
       theBinWidth = fieldBarrelBinWidth[layer];
       theXMin = fieldBarrelZMin[layer];
     } else {
       theHisto = theFieldEndcapHisto(layer);
       theBinWidth = fieldEndcapBinWidth[layer];
       theXMin = fieldEndcapRMin[layer];
     }
  
     // Find the relevant bin
     double x = fabs(coord);
     unsigned bin = (unsigned)((x - theXMin) / theBinWidth);
     if (bin + 1 == (unsigned)bins)
       bin -= 1;  // Add a protection against coordinates near the layer edge
     double x1 = theXMin + (bin - 0.5) * theBinWidth;
     double x2 = x1 + theBinWidth;
  
     // Determine the field
     double field1 = (*theHisto)[bin];
     double field2 = (*theHisto)[bin + 1];
  
     return field1 + (field2 - field1) * (x - x1) / (x2 - x1);
   }
 }

References newFWLiteAna::bin, bins, fieldBarrelBinWidth, fieldBarrelZMin, fieldEndcapBinWidth, fieldEndcapRMin, TrackerLayer::layerNumber(), pMF_, summarizeEdmComparisonLogfiles::success, theFieldBarrelHisto(), theFieldEndcapHisto(), x, testProducerWithPsetDescEmpty_cfi::x1, and testProducerWithPsetDescEmpty_cfi::x2.

◆ magneticField()

const MagneticField& MagneticFieldMap::magneticField ( ) const

inline

Definition at line 32 of file MagneticFieldMap.h.

32 { return *pMF_; }

References pMF_.

◆ theFieldBarrelHisto()

const std::vector<double>* MagneticFieldMap::theFieldBarrelHisto ( unsigned layer ) const

inlineprivate

Definition at line 39 of file MagneticFieldMap.h.

39 { return &(fieldBarrelHistos[layer]); }

References fieldBarrelHistos.

Referenced by inTeslaZ().

◆ theFieldEndcapHisto()

const std::vector<double>* MagneticFieldMap::theFieldEndcapHisto ( unsigned layer ) const

inlineprivate

Definition at line 37 of file MagneticFieldMap.h.

37 { return &(fieldEndcapHistos[layer]); }

References fieldEndcapHistos.

Referenced by inTeslaZ().

Member Data Documentation

◆ bins

unsigned MagneticFieldMap::bins

private

Definition at line 43 of file MagneticFieldMap.h.

Referenced by inTeslaZ(), and MagneticFieldMap().

◆ fieldBarrelBinWidth

std::vector<double> MagneticFieldMap::fieldBarrelBinWidth

private

Definition at line 46 of file MagneticFieldMap.h.

Referenced by inTeslaZ(), and MagneticFieldMap().

◆ fieldBarrelHistos

std::vector<std::vector<double> > MagneticFieldMap::fieldBarrelHistos

private

Definition at line 44 of file MagneticFieldMap.h.

Referenced by MagneticFieldMap(), and theFieldBarrelHisto().

◆ fieldBarrelZMin

std::vector<double> MagneticFieldMap::fieldBarrelZMin

private

Definition at line 47 of file MagneticFieldMap.h.

Referenced by inTeslaZ(), and MagneticFieldMap().

◆ fieldEndcapBinWidth

std::vector<double> MagneticFieldMap::fieldEndcapBinWidth

private

Definition at line 48 of file MagneticFieldMap.h.

Referenced by inTeslaZ(), and MagneticFieldMap().

◆ fieldEndcapHistos

std::vector<std::vector<double> > MagneticFieldMap::fieldEndcapHistos

private

Definition at line 45 of file MagneticFieldMap.h.

Referenced by MagneticFieldMap(), and theFieldEndcapHisto().

◆ fieldEndcapRMin

std::vector<double> MagneticFieldMap::fieldEndcapRMin

private

Definition at line 49 of file MagneticFieldMap.h.

Referenced by inTeslaZ(), and MagneticFieldMap().

◆ geometry_

const TrackerInteractionGeometry* MagneticFieldMap::geometry_

private

Definition at line 42 of file MagneticFieldMap.h.

Referenced by MagneticFieldMap().

◆ pMF_

const MagneticField* MagneticFieldMap::pMF_

private

Definition at line 41 of file MagneticFieldMap.h.

Referenced by inTesla(), inTeslaZ(), and magneticField().

Public Member Functions

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

◆ MagneticFieldMap()

Member Function Documentation

◆ inInverseGeV()

◆ inInverseGeVZ()

◆ initialize()

◆ inKGauss()

◆ inKGaussZ()

◆ inTesla() [1/2]

◆ inTesla() [2/2]

◆ inTeslaZ() [1/2]

◆ inTeslaZ() [2/2]

◆ magneticField()

◆ theFieldBarrelHisto()

◆ theFieldEndcapHisto()

Member Data Documentation

◆ bins

◆ fieldBarrelBinWidth

◆ fieldBarrelHistos

◆ fieldBarrelZMin

◆ fieldEndcapBinWidth

◆ fieldEndcapHistos

◆ fieldEndcapRMin

◆ geometry_

◆ pMF_