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TkLasBeamFitter Class Reference

#include <Alignment/LaserAlignment/plugins/TkLasBeamFitter.cc>

Inheritance diagram for TkLasBeamFitter:
edm::one::EDProducer< edm::EndRunProducer > edm::one::EDProducerBase edm::ProducerBase edm::EDConsumerBase edm::ProductRegistryHelper

Public Member Functions

virtual void endRunProduce (edm::Run &run, const edm::EventSetup &setup) override
 
virtual void produce (edm::Event &event, const edm::EventSetup &setup) override
 
 TkLasBeamFitter (const edm::ParameterSet &config)
 
 ~TkLasBeamFitter ()
 
- Public Member Functions inherited from edm::one::EDProducer< edm::EndRunProducer >
 EDProducer ()=default
 
- Public Member Functions inherited from edm::one::EDProducerBase
 EDProducerBase ()
 
ModuleDescription const & moduleDescription () const
 
virtual ~EDProducerBase ()
 
- Public Member Functions inherited from edm::ProducerBase
 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
 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 (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const
 
bool registeredToConsume (ProductHolderIndex, bool, BranchType) const
 
bool registeredToConsumeMany (TypeID const &, BranchType) const
 
void updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
 
virtual ~EDConsumerBase ()
 

Private Member Functions

void buildTrajectory (TkFittedLasBeam &beam, unsigned int &hit, vector< const GeomDetUnit * > &gd, std::vector< GlobalPoint > &globPtrack, vector< TrajectoryStateOnSurface > &tsosLas, GlobalPoint &globPref)
 
bool fitBeam (TkFittedLasBeam &beam, AlgebraicSymMatrix &covMatrix, unsigned int &hitsAtTecPlus, unsigned int &nFitParams, double &offset, double &slope, vector< GlobalPoint > &globPtrack, double &bsAngleParam, double &chi2)
 
void fitter (TkFittedLasBeam &beam, AlgebraicSymMatrix &covMatrix, unsigned int &hitsAtTecPlus, unsigned int &nFitParams, std::vector< double > &hitPhi, std::vector< double > &hitPhiError, std::vector< double > &hitZprimeError, double &zMin, double &zMax, double &bsAngleParam, double &offset, double &offsetError, double &slope, double &slopeError, double &phiAtMinusParam, double &phiAtPlusParam, double &atThetaSplitParam)
 
void getLasBeams (TkFittedLasBeam &beam, vector< TrajectoryStateOnSurface > &tsosLas)
 
void getLasHits (TkFittedLasBeam &beam, const SiStripLaserRecHit2D &hit, vector< const GeomDetUnit * > &gd, vector< GlobalPoint > &globHit, unsigned int &hitsAtTecPlus)
 
void globalTrackPoint (TkFittedLasBeam &beam, unsigned int &hit, unsigned int &hitsAtTecPlus, double &trackPhi, double &trackPhiRef, std::vector< GlobalPoint > &globHit, std::vector< GlobalPoint > &globPtrack, GlobalPoint &globPref, std::vector< double > &hitPhiError)
 
void trackPhi (TkFittedLasBeam &beam, unsigned int &hit, double &trackPhi, double &trackPhiRef, double &offset, double &slope, double &bsAngleParam, double &phiAtMinusParam, double &phiAtPlusParam, double &atThetaSplitParam, std::vector< GlobalPoint > &globHit)
 

Static Private Member Functions

static double atFunction (double *x, double *par)
 
static double tecMinusFunction (double *x, double *par)
 
static double tecPlusFunction (double *x, double *par)
 

Private Attributes

bool fitBeamSplitters_
 
edm::Service< TFileServicefs
 
TH1F * h_bsAngle
 
TH2F * h_bsAngleVsBeam
 
TH1F * h_chi2
 
TH1F * h_chi2ndof
 
TH1F * h_hitX
 
TH1F * h_hitXAt
 
TH1F * h_hitXTecMinus
 
TH1F * h_hitXTecPlus
 
TH2F * h_hitXvsZAt
 
TH2F * h_hitXvsZTecMinus
 
TH2F * h_hitXvsZTecPlus
 
TH1F * h_pull
 
TH1F * h_res
 
TH1F * h_resAt
 
TH1F * h_resTecMinus
 
TH1F * h_resTecPlus
 
TH2F * h_resVsHitAt
 
TH2F * h_resVsHitTecMinus
 
TH2F * h_resVsHitTecPlus
 
TH2F * h_resVsZAt
 
TH2F * h_resVsZTecMinus
 
TH2F * h_resVsZTecPlus
 
unsigned int nAtParameters_
 
const edm::InputTag src_
 

Static Private Attributes

static vector< double > gBarrelModuleOffset
 
static vector< double > gBarrelModuleRadius
 
static double gBeamR = 0.0
 
static double gBeamSplitterZprime = 0.0
 
static double gBeamZ0 = 0.0
 
static double gBSparam = 0.0
 
static bool gFitBeamSplitters = 0
 
static unsigned int gHitsAtTecMinus = 0
 
static vector< double > gHitZprime
 
static bool gIsInnerBarrel = 0
 
static float gTIBparam = 0.097614
 
static float gTOBparam = 0.034949
 

Additional Inherited Members

- Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase ModuleType
 
- Public Types inherited from edm::ProducerBase
typedef
ProductRegistryHelper::TypeLabelList 
TypeLabelList
 
- Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &descriptions)
 
- Protected Member Functions inherited from edm::ProducerBase
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
- 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

Original Authors: Gero Flucke/Kolja Kaschube Created: Wed May 6 08:43:02 CEST 2009

Id:
TkLasBeamFitter.cc,v 1.12 2012/01/25 17:30:30 innocent Exp

Description: Fitting LAS beams with track model and providing TrajectoryStateOnSurface for hits.

Implementation:

Definition at line 65 of file TkLasBeamFitter.cc.

Constructor & Destructor Documentation

TkLasBeamFitter::TkLasBeamFitter ( const edm::ParameterSet config)
explicit

Definition at line 181 of file TkLasBeamFitter.cc.

181  :
182  src_(iConfig.getParameter<edm::InputTag>("src")),
183  fitBeamSplitters_(iConfig.getParameter<bool>("fitBeamSplitters")),
184  nAtParameters_(iConfig.getParameter<unsigned int>("numberOfFittedAtParameters")),
186  h_hitXAt(0), h_chi2(0), h_chi2ndof(0), h_pull(0), h_res(0),
191 {
192  // declare the products to produce
193  this->produces<TkFittedLasBeamCollection, edm::InRun>();
194  this->produces<TsosVectorCollection, edm::InRun>();
195 
196  //now do what ever other initialization is needed
197 }
unsigned int nAtParameters_
const edm::InputTag src_
TkLasBeamFitter::~TkLasBeamFitter ( )

Definition at line 200 of file TkLasBeamFitter.cc.

201 {
202 
203  // do anything here that needs to be done at desctruction time
204  // (e.g. close files, deallocate resources etc.)
205 
206 }

Member Function Documentation

double TkLasBeamFitter::atFunction ( double *  x,
double *  par 
)
staticprivate

Definition at line 618 of file TkLasBeamFitter.cc.

References gBeamR, gBeamSplitterZprime, gBeamZ0, gBSparam, gFitBeamSplitters, gIsInnerBarrel, gTIBparam, gTOBparam, and detailsBasic3DVector::z.

Referenced by fitter().

619 {
620  double z = x[0]; // 'primed'? -> yes!!!
621  // TECminus
622  if(z < -gBeamSplitterZprime - 2.0*gBeamZ0){
623  return par[0] + par[1] * z;
624  }
625  // BarrelMinus
626  else if(-gBeamSplitterZprime - 2.0*gBeamZ0 < z && z < -gBeamZ0){
627  // z value includes module offset from main beam axis
628  // TOB
629  if(!gIsInnerBarrel){
630  return par[0] + par[1] * z + gTOBparam * (par[2] + par[4]);
631  }
632  // TIB
633  else{
634  return par[0] + par[1] * z - gTIBparam * (par[2] - par[4]);
635  }
636  }
637  // BarrelPlus
638  else if(-gBeamZ0 < z && z < gBeamSplitterZprime){
639  // z value includes module offset from main beam axis
640  // TOB
641  if(!gIsInnerBarrel){
642  return par[0] + par[1] * z + gTOBparam * (par[3] - par[4]);
643  }
644  // TIB
645  else{
646  return par[0] + par[1] * z - gTIBparam * (par[3] + par[4]);
647  }
648  }
649  // TECplus
650  else{
651  if(gFitBeamSplitters){
652  // par[2] = 2*tan(BeamSplitterAngle/2.0)
653  return par[0] + par[1] * z - par[5] * (z - gBeamSplitterZprime)/gBeamR; // BS par: 5, 4, or 2
654  }
655  else{
656  return par[0] + par[1] * z - gBSparam * (z - gBeamSplitterZprime)/gBeamR;
657  }
658  }
659 }
static float gTOBparam
static double gBeamR
static bool gFitBeamSplitters
float float float z
static bool gIsInnerBarrel
static double gBeamSplitterZprime
static double gBSparam
static float gTIBparam
Definition: DDAxes.h:10
static double gBeamZ0
void TkLasBeamFitter::buildTrajectory ( TkFittedLasBeam beam,
unsigned int &  hit,
vector< const GeomDetUnit * > &  gd,
std::vector< GlobalPoint > &  globPtrack,
vector< TrajectoryStateOnSurface > &  tsosLas,
GlobalPoint globPref 
)
private

Definition at line 841 of file TkLasBeamFitter.cc.

References SurfaceSideDefinition::beforeSurface, fieldHandle, gBeamSplitterZprime, gBeamZ0, gHitZprime, TkLasBeam::isTecInternal(), and edm::ESHandle< class >::product().

Referenced by getLasBeams().

844 {
845  const MagneticField* magneticField = fieldHandle.product();
846  GlobalVector trajectoryState;
847 
848  // TECplus
849  if(beam.isTecInternal(1)){
850  trajectoryState = GlobalVector(globPref-globPtrack[hit]);
851  }
852  // TECminus
853  else if(beam.isTecInternal(-1)){
854  trajectoryState = GlobalVector(globPtrack[hit]-globPref);
855  }
856  // ATs
857  else{
858  // TECminus
860  trajectoryState = GlobalVector(globPtrack[hit]-globPref);
861  }
862  // TECplus
863  else if(gHitZprime[hit] > gBeamSplitterZprime){
864  trajectoryState = GlobalVector(globPref-globPtrack[hit]);
865  }
866  // Barrel
867  else{
868  trajectoryState = GlobalVector(globPtrack[hit]-globPref);
869  }
870  }
871 // cout << "trajectory: " << trajectoryState << endl;
872  const FreeTrajectoryState ftsLas = FreeTrajectoryState(globPtrack[hit],trajectoryState,0,magneticField);
873  tsosLas.push_back(TrajectoryStateOnSurface(ftsLas,gd[hit]->surface(),
875 }
ESHandle< MagneticField > fieldHandle
static vector< double > gHitZprime
bool isTecInternal(int side=0) const
true if this is a TEC internal beam (from 10^2 digit of beamId). side parameter: -1 = ask if TEC-...
Definition: TkLasBeam.cc:4
static double gBeamSplitterZprime
T const * product() const
Definition: ESHandle.h:62
Global3DVector GlobalVector
Definition: GlobalVector.h:10
static double gBeamZ0
void TkLasBeamFitter::endRunProduce ( edm::Run run,
const edm::EventSetup setup 
)
overridevirtual

Definition at line 222 of file TkLasBeamFitter.cc.

References EcalCondDBWriter_cfi::beam, gather_cfg::cout, fieldHandle, fitBeamSplitters_, fs, gBSparam, geometry, edm::EventSetup::get(), edm::Run::getByLabel(), getLasBeams(), gFitBeamSplitters, h_bsAngle, h_bsAngleVsBeam, h_chi2, h_chi2ndof, h_hitX, h_hitXAt, h_hitXTecMinus, h_hitXTecPlus, h_hitXvsZAt, h_hitXvsZTecMinus, h_hitXvsZTecPlus, h_pull, h_res, h_resAt, h_resTecMinus, h_resTecPlus, h_resVsHitAt, h_resVsHitTecMinus, h_resVsHitTecPlus, h_resVsZAt, h_resVsZTecMinus, h_resVsZTecPlus, laserBeams, TFileService::make(), and edm::Run::put().

223 {
224 // }
225 // // FIXME!
226 // // Indeed, that should be in endRun(..) - as soon as AlignmentProducer can call
227 // // the algorithm's endRun correctly!
228 //
229 //
230 // void TkLasBeamFitter::beginRun(edm::Run &run, const edm::EventSetup &setup)
231 // {
232 
233  // book histograms
234  h_hitX = fs->make<TH1F>("hitX","local x of LAS hits;local x [cm];N",100,-0.5,0.5);
235  h_hitXTecPlus = fs->make<TH1F>("hitXTecPlus","local x of LAS hits in TECplus;local x [cm];N",100,-0.5,0.5);
236  h_hitXTecMinus = fs->make<TH1F>("hitXTecMinus","local x of LAS hits in TECminus;local x [cm];N",100,-0.5,0.5);
237  h_hitXAt = fs->make<TH1F>("hitXAt","local x of LAS hits in ATs;local x [cm];N",100,-2.5,2.5);
238  h_hitXvsZTecPlus = fs->make<TH2F>("hitXvsZTecPlus","local x vs z in TECplus;z [cm];local x [cm]",80,120,280,100,-0.5,0.5);
239  h_hitXvsZTecMinus = fs->make<TH2F>("hitXvsZTecMinus","local x vs z in TECMinus;z [cm];local x [cm]",80,-280,-120,100,-0.5,0.5);
240  h_hitXvsZAt = fs->make<TH2F>("hitXvsZAt","local x vs z in ATs;z [cm];local x [cm]",200,-200,200,100,-0.5,0.5);
241  h_chi2 = fs->make<TH1F>("chi2","#chi^{2};#chi^{2};N",100,0,2000);
242  h_chi2ndof = fs->make<TH1F>("chi2ndof","#chi^{2} per degree of freedom;#chi^{2}/N_{dof};N",100,0,300);
243  h_pull = fs->make<TH1F>("pull","pulls of #phi residuals;pull;N",50,-10,10);
244  h_res = fs->make<TH1F>("res","#phi residuals;#phi_{track} - #phi_{hit} [rad];N",60,-0.0015,0.0015);
245  h_resTecPlus = fs->make<TH1F>("resTecPlus","#phi residuals in TECplus;#phi_{track} - #phi_{hit} [rad];N",30,-0.0015,0.0015);
246  h_resTecMinus = fs->make<TH1F>("resTecMinus","#phi residuals in TECminus;#phi_{track} - #phi_{hit} [rad];N",60,-0.0015,0.0015);
247  h_resAt = fs->make<TH1F>("resAt","#phi residuals in ATs;#phi_{track} - #phi_{hit} [rad];N",30,-0.0015,0.0015);
248  h_resVsZTecPlus = fs->make<TH2F>("resVsZTecPlus","phi residuals vs. z in TECplus;z [cm];#phi_{track} - #phi_{hit} [rad]",
249  80,120,280,100,-0.0015,0.0015);
250  h_resVsZTecMinus = fs->make<TH2F>("resVsZTecMinus","phi residuals vs. z in TECminus;z [cm];#phi_{track} - #phi_{hit} [rad]",
251  80,-280,-120,100,-0.0015,0.0015);
252  h_resVsZAt = fs->make<TH2F>("resVsZAt","#phi residuals vs. z in ATs;N;#phi_{track} - #phi_{hit} [rad]",
253  200,-200,200,100,-0.0015,0.0015);
254  h_resVsHitTecPlus = fs->make<TH2F>("resVsHitTecPlus","#phi residuals vs. hits in TECplus;hit no.;#phi_{track} - #phi_{hit} [rad]",
255  144,0,144,100,-0.0015,0.0015);
256  h_resVsHitTecMinus = fs->make<TH2F>("resVsHitTecMinus","#phi residuals vs. hits in TECminus;hit no.;#phi_{track} - #phi_{hit} [rad]",
257  144,0,144,100,-0.0015,0.0015);
258  h_resVsHitAt = fs->make<TH2F>("resVsHitAt","#phi residuals vs. hits in ATs;hit no.;#phi_{track} - #phi_{hit} [rad]",
259  176,0,176,100,-0.0015,0.0015);
260  h_bsAngle = fs->make<TH1F>("bsAngle","fitted beam splitter angle;BS angle [rad];N",40,-0.004,0.004);
261  h_bsAngleVsBeam = fs->make<TH2F>("bsAngleVsBeam","fitted beam splitter angle per beam;Beam no.;BS angle [rad]",
262  40,0,300,100,-0.004,0.004);
263 
264  // Create output collections - they are parallel.
265  // (edm::Ref etc. and thus edm::AssociationVector are not supported for edm::Run...)
266  std::auto_ptr<TkFittedLasBeamCollection> fittedBeams(new TkFittedLasBeamCollection);
267  // One std::vector<TSOS> for each TkFittedLasBeam:
268  std::auto_ptr<TsosVectorCollection> tsosesVec(new TsosVectorCollection);
269 
270  // get TkLasBeams, Tracker geometry, magnetic field
271  run.getByLabel( "LaserAlignment", "tkLaserBeams", laserBeams );
272  setup.get<TrackerDigiGeometryRecord>().get(geometry);
274 
275  // hack for fixed BSparams (ugly!)
276 // double bsParams[34] = {-0.000266,-0.000956,-0.001205,-0.000018,-0.000759,0.002554,
277 // 0.000465,0.000975,0.001006,0.002027,-0.001263,-0.000763,
278 // -0.001702,0.000906,-0.002120,0.001594,0.000661,-0.000457,
279 // -0.000447,0.000347,-0.002266,-0.000446,0.000659,0.000018,
280 // -0.001630,-0.000324,
281 // // ATs
282 // -999.,-0.001709,-0.002091,-999.,
283 // -0.001640,-999.,-0.002444,-0.002345};
284 
285  double bsParams[40] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
286  0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
287 
288  // beam counter
289  unsigned int beamNo(0);
290  // fit BS? If false, values from bsParams are taken
292  if(fitBeamSplitters_) cout << "Fitting BS!" << endl;
293  else cout << "BS fixed, not fitted!" << endl;
294 
295  // loop over LAS beams
296  for(TkLasBeamCollection::const_iterator iBeam = laserBeams->begin(), iEnd = laserBeams->end();
297  iBeam != iEnd; ++iBeam){
298 
299  TkFittedLasBeam beam(*iBeam);
300  vector<TrajectoryStateOnSurface> tsosLas;
301 
302  // set BS param for fit
303  gBSparam = bsParams[beamNo];
304 
305  // call main function; all other functions are called inside getLasBeams(..)
306  this->getLasBeams(beam, tsosLas);
307 
308  // fill output products
309  fittedBeams->push_back(beam);
310  tsosesVec->push_back(tsosLas);
311 
312 // if(!this->fitBeam(fittedBeams->back(), tsosesVec->back())){
313 // edm::LogError("BadFit")
314 // << "Problems fitting TkLasBeam, id " << fittedBeams->back().getBeamId() << ".";
315 // fittedBeams->pop_back(); // remove last entry added just before
316 // tsosesVec->pop_back(); // dito
317 // }
318 
319  beamNo++;
320  }
321 
322  // finally, put fitted beams and TSOS vectors into run
323  run.put(fittedBeams);
324  run.put(tsosesVec);
325 }
ESHandle< MagneticField > fieldHandle
bool getByLabel(std::string const &label, Handle< PROD > &result) const
Definition: Run.h:200
T * make(const Args &...args) const
make new ROOT object
Definition: TFileService.h:64
static bool gFitBeamSplitters
Handle< TkLasBeamCollection > laserBeams
static double gBSparam
const T & get() const
Definition: EventSetup.h:55
ESHandle< TrackerGeometry > geometry
std::vector< TkFittedLasBeam > TkFittedLasBeamCollection
tuple cout
Definition: gather_cfg.py:121
void put(std::auto_ptr< PROD > product)
Put a new product.
Definition: Run.h:107
void getLasBeams(TkFittedLasBeam &beam, vector< TrajectoryStateOnSurface > &tsosLas)
std::vector< std::vector< TrajectoryStateOnSurface > > TsosVectorCollection
edm::Service< TFileService > fs
bool TkLasBeamFitter::fitBeam ( TkFittedLasBeam beam,
AlgebraicSymMatrix covMatrix,
unsigned int &  hitsAtTecPlus,
unsigned int &  nFitParams,
double &  offset,
double &  slope,
vector< GlobalPoint > &  globPtrack,
double &  bsAngleParam,
double &  chi2 
)
private

Definition at line 879 of file TkLasBeamFitter.cc.

References fitBeamSplitters_, gBarrelModuleOffset, gBeamSplitterZprime, gBeamZ0, gHitsAtTecMinus, gHitZprime, TkLasBeam::isAlignmentTube(), TkLasBeam::isTecInternal(), evf::evtn::offset(), TkFittedLasBeam::setParameters(), and slope.

Referenced by getLasBeams().

883 {
884  // set beam parameters for beam output
885  unsigned int paramType(0);
886  if(!fitBeamSplitters_) paramType = 1;
887  if(beam.isAlignmentTube() && hitsAtTecPlus == 0) paramType = 0;
888 // const unsigned int nPedeParams = nFitParams + paramType;
889 
890  // test without BS params
891  const unsigned int nPedeParams(nFitParams);
892 // cout << "number of Pede parameters: " << nPedeParams << endl;
893 
894  std::vector<TkFittedLasBeam::Scalar> params(nPedeParams);
895  params[0] = offset;
896  params[1] = slope;
897  // no BS parameter for AT beams without TECplus hits
898 // if(beam.isTecInternal() || hitsAtTecPlus > 0) params[2] = bsAngleParam;
899 
900  AlgebraicMatrix derivatives(gHitZprime.size(), nPedeParams);
901  // fill derivatives matrix with local track derivatives
902  for(unsigned int hit = 0; hit < gHitZprime.size(); ++hit){
903 
904  // d(delta phi)/d(offset) is identical for every hit
905  derivatives[hit][0] = 1.0;
906 
907  // d(delta phi)/d(slope) and d(delta phi)/d(bsAngleParam) depend on parametrizations
908  // TECplus
909  if(beam.isTecInternal(1)){
910  derivatives[hit][1] = globPtrack[hit].z();
911 // if(gHitZprime[hit] < gBeamSplitterZprime){
912 // derivatives[hit][2] = 0.0;
913 // }
914 // else{
915 // derivatives[hit][2] = - (globPtrack[hit].z() - gBeamSplitterZprime) / gBeamR;
916 // }
917  }
918  // TECminus
919  else if(beam.isTecInternal(-1)){
920  derivatives[hit][1] = globPtrack[hit].z();
921 // if(gHitZprime[hit] > gBeamSplitterZprime){
922 // derivatives[hit][2] = 0.0;
923 // }
924 // else{
925 // derivatives[hit][2] = (globPtrack[hit].z() - gBeamSplitterZprime) / gBeamR;
926 // }
927  }
928  // ATs
929  else{
930  // TECminus
932  derivatives[hit][1] = globPtrack[hit].z();
933 // if(hitsAtTecPlus > 0){
934 // derivatives[hit][2] = 0.0;
935 // }
936  }
937  // TECplus
938  else if(gHitZprime[hit] > gBeamSplitterZprime){
939  derivatives[hit][1] = globPtrack[hit].z();
940 // if(hitsAtTecPlus > 0){
941 // derivatives[hit][2] = - (globPtrack[hit].z() - gBeamSplitterZprime) / gBeamR;
942 // }
943  }
944  // Barrel
945  else{
946  derivatives[hit][1] = globPtrack[hit].z() - gBarrelModuleOffset[hit-gHitsAtTecMinus];
947 // if(hitsAtTecPlus > 0){
948 // derivatives[hit][2] = 0.0;
949 // }
950  }
951  }
952  }
953 
954  unsigned int firstFixedParam(covMatrix.num_col()); // FIXME! --> no, is fine!!!
955 // unsigned int firstFixedParam = nPedeParams - 1;
956 // if(beam.isAlignmentTube() && hitsAtTecPlus == 0) firstFixedParam = nPedeParams;
957 // cout << "first fixed parameter: " << firstFixedParam << endl;
958  // set fit results
959  beam.setParameters(paramType, params, covMatrix, derivatives, firstFixedParam, chi2);
960 
961  return true; // return false in case of problems
962 }
static vector< double > gHitZprime
static const double slope[3]
bool isTecInternal(int side=0) const
true if this is a TEC internal beam (from 10^2 digit of beamId). side parameter: -1 = ask if TEC-...
Definition: TkLasBeam.cc:4
CLHEP::HepMatrix AlgebraicMatrix
static double gBeamSplitterZprime
unsigned int offset(bool)
static unsigned int gHitsAtTecMinus
static vector< double > gBarrelModuleOffset
bool isAlignmentTube(void) const
true if this is an AT beam (from 10^2 digit of beamId)
Definition: TkLasBeam.h:46
void setParameters(unsigned int parametrisation, const std::vector< Scalar > &params, const AlgebraicSymMatrix &paramCovariance, const AlgebraicMatrix &derivatives, unsigned int firstFixedParam, float chi2)
static double gBeamZ0
void TkLasBeamFitter::fitter ( TkFittedLasBeam beam,
AlgebraicSymMatrix covMatrix,
unsigned int &  hitsAtTecPlus,
unsigned int &  nFitParams,
std::vector< double > &  hitPhi,
std::vector< double > &  hitPhiError,
std::vector< double > &  hitZprimeError,
double &  zMin,
double &  zMax,
double &  bsAngleParam,
double &  offset,
double &  offsetError,
double &  slope,
double &  slopeError,
double &  phiAtMinusParam,
double &  phiAtPlusParam,
double &  atThetaSplitParam 
)
private

Definition at line 663 of file TkLasBeamFitter.cc.

References asciidump::at, atFunction(), cuy::col, fitBeamSplitters_, gBSparam, gHitZprime, fitWZ::gMinuit, TkLasBeam::isAlignmentTube(), TkLasBeam::isTecInternal(), tecMinusFunction(), and tecPlusFunction().

Referenced by getLasBeams().

669 {
670  TGraphErrors *lasData = new TGraphErrors(gHitZprime.size(),
671  &(gHitZprime[0]), &(hitPhi[0]),
672  &(hitZprimeError[0]), &(hitPhiError[0]));
673 
674  // do fit (R = entire range)
675  if(beam.isTecInternal(1)){
676  TF1 tecPlus("tecPlus", tecPlusFunction, zMin, zMax, nFitParams );
677  tecPlus.SetParameter( 1, 0 ); // slope
678  tecPlus.SetParameter( nFitParams - 1, 0 ); // BS
679  lasData->Fit("tecPlus", "R"); // "R", "RV" or "RQ"
680  }
681  else if(beam.isTecInternal(-1)){
682  TF1 tecMinus("tecMinus", tecMinusFunction, zMin, zMax, nFitParams );
683  tecMinus.SetParameter( 1, 0 ); // slope
684  tecMinus.SetParameter( nFitParams - 1, 0 ); // BS
685  lasData->Fit("tecMinus", "R");
686  }
687  else{
688  TF1 at("at", atFunction, zMin, zMax, nFitParams );
689  at.SetParameter( 1, 0 ); // slope
690  at.SetParameter( nFitParams - 1, 0 ); // BS
691  lasData->Fit("at","R");
692  }
693 
694  // get values and errors for offset and slope
695  gMinuit->GetParameter(0, offset, offsetError);
696  gMinuit->GetParameter(1, slope, slopeError);
697 
698  // additional AT parameters
699  // define param errors that are not used later
700  double bsAngleParamError(0.), phiAtMinusParamError(0.),
701  phiAtPlusParamError(0.), atThetaSplitParamError(0.);
702 
703  if(beam.isAlignmentTube()){
704  gMinuit->GetParameter(2, phiAtMinusParam, phiAtMinusParamError);
705  gMinuit->GetParameter(3, phiAtPlusParam, phiAtPlusParamError);
706  gMinuit->GetParameter(4, atThetaSplitParam, atThetaSplitParamError);
707  }
708  // get Beam Splitter parameters
709  if(fitBeamSplitters_){
710  if(beam.isAlignmentTube() && hitsAtTecPlus == 0){
711  bsAngleParam = gBSparam;
712  }
713  else{
714  gMinuit->GetParameter( nFitParams - 1 , bsAngleParam, bsAngleParamError);
715  }
716  }
717  else{
718  bsAngleParam = gBSparam;
719  }
720 
721  // fill covariance matrix
722  vector<double> vec( covMatrix.num_col() * covMatrix.num_col() );
723  gMinuit->mnemat( &vec[0], covMatrix.num_col() );
724  for(int col = 0; col < covMatrix.num_col(); col++){
725  for(int row = 0; row < covMatrix.num_col(); row++){
726  covMatrix[col][row] = vec[row + covMatrix.num_col()*col];
727  }
728  }
729  // compute correlation between parameters
730 // double corr01 = covMatrix[1][0]/(offsetError*slopeError);
731 
732  delete lasData;
733 }
static vector< double > gHitZprime
static double tecMinusFunction(double *x, double *par)
static double tecPlusFunction(double *x, double *par)
static const double slope[3]
bool isTecInternal(int side=0) const
true if this is a TEC internal beam (from 10^2 digit of beamId). side parameter: -1 = ask if TEC-...
Definition: TkLasBeam.cc:4
unsigned int offset(bool)
static double gBSparam
tuple gMinuit
Definition: fitWZ.py:35
static double atFunction(double *x, double *par)
int col
Definition: cuy.py:1008
bool isAlignmentTube(void) const
true if this is an AT beam (from 10^2 digit of beamId)
Definition: TkLasBeam.h:46
list at
Definition: asciidump.py:428
void TkLasBeamFitter::getLasBeams ( TkFittedLasBeam beam,
vector< TrajectoryStateOnSurface > &  tsosLas 
)
private

Fit 'beam' using info from its base class TkLasBeam and set its parameters. Also fill 'tsoses' with TSOS for each LAS hit.

Definition at line 330 of file TkLasBeamFitter.cc.

References funct::abs(), TkLasBeam::begin(), buildTrajectory(), gather_cfg::cout, TkLasBeam::end(), fitBeam(), fitBeamSplitters_, fitter(), gBarrelModuleOffset, gBarrelModuleRadius, gBeamR, gBeamSplitterZprime, gBeamZ0, TkLasBeam::getBeamId(), getLasHits(), gHitsAtTecMinus, gHitZprime, gIsInnerBarrel, globalTrackPoint(), h_bsAngle, h_bsAngleVsBeam, h_chi2, h_chi2ndof, h_hitX, h_hitXAt, h_hitXTecMinus, h_hitXTecPlus, h_hitXvsZAt, h_hitXvsZTecMinus, h_hitXvsZTecPlus, h_pull, h_res, h_resAt, h_resTecMinus, h_resTecPlus, h_resVsHitAt, h_resVsHitTecMinus, h_resVsHitTecPlus, h_resVsZAt, h_resVsZTecMinus, h_resVsZTecPlus, TkLasBeam::isAlignmentTube(), TkLasBeam::isRing6(), TkLasBeam::isTecInternal(), SiStripLaserRecHit2D::localPosition(), nAtParameters_, evf::evtn::offset(), perp(), phi, slope, trackPhi(), and detailsBasic3DVector::z.

Referenced by endRunProduce().

331 {
332  cout << "---------------------------------------" << endl;
333  cout << "beam id: " << beam.getBeamId() // << " isTec: " << (beam.isTecInternal() ? "Y" : "N")
334  << " isTec+: " << (beam.isTecInternal(1) ? "Y" : "N") << " isTec-: " << (beam.isTecInternal(-1) ? "Y" : "N")
335  << " isAt: " << (beam.isAlignmentTube() ? "Y" : "N") << " isR6: " << (beam.isRing6() ? "Y" : "N")
336  << endl;
337 
338  // reset static variables
339  gHitsAtTecMinus = 0;
340  gHitZprime.clear();
341  gBarrelModuleRadius.clear();
342  gBarrelModuleOffset.clear();
343 
344  // set right beam radius
345  gBeamR = beam.isRing6() ? 84.0 : 56.4;
346 
347  vector<const GeomDetUnit*> gd;
348  vector<GlobalPoint> globHit;
349  unsigned int hitsAtTecPlus(0);
350  double sumZ(0.);
351 
352  // loop over hits
353  for( TkLasBeam::const_iterator iHit = beam.begin(); iHit < beam.end(); ++iHit ){
354  // iHit is a SiStripLaserRecHit2D
355 
356  const SiStripLaserRecHit2D hit(*iHit);
357 
358  this->getLasHits(beam, hit, gd, globHit, hitsAtTecPlus);
359  sumZ += globHit.back().z();
360 
361  // fill histos
362  h_hitX->Fill(hit.localPosition().x());
363  // TECplus
364  if(beam.isTecInternal(1)){
365  h_hitXTecPlus->Fill(hit.localPosition().x());
366  h_hitXvsZTecPlus->Fill(globHit.back().z(),hit.localPosition().x());
367  }
368  // TECminus
369  else if(beam.isTecInternal(-1)){
370  h_hitXTecMinus->Fill(hit.localPosition().x());
371  h_hitXvsZTecMinus->Fill(globHit.back().z(),hit.localPosition().x());
372  }
373  // ATs
374  else{
375  h_hitXAt->Fill(hit.localPosition().x());
376  h_hitXvsZAt->Fill(globHit.back().z(),hit.localPosition().x());
377  }
378  }
379 
380  gBeamZ0 = sumZ / globHit.size();
381  double zMin(0.), zMax(0.);
382  // TECplus
383  if(beam.isTecInternal(1)){
384  gBeamSplitterZprime = 205.75 - gBeamZ0;
385  zMin = 120.0 - gBeamZ0;
386  zMax = 280.0 - gBeamZ0;
387  }
388  // TECminus
389  else if(beam.isTecInternal(-1)){
390  gBeamSplitterZprime = -205.75 - gBeamZ0;
391  zMin = -280.0 - gBeamZ0;
392  zMax = -120.0 - gBeamZ0;
393  }
394  // AT
395  else{
396  gBeamSplitterZprime = 112.3 - gBeamZ0;
397  zMin = -200.0 - gBeamZ0;
398  zMax = 200.0 - gBeamZ0;
399  }
400 
401  // fill vectors for fitted quantities
402  vector<double> hitPhi, hitPhiError, hitZprimeError;
403 
404  for(unsigned int hit = 0; hit < globHit.size(); ++hit){
405  hitPhi.push_back(static_cast<double>(globHit[hit].phi()));
406  // localPositionError[hit] or assume 0.003, 0.006
407  hitPhiError.push_back( 0.003 / globHit[hit].perp());
408  // no errors on z, fill with zeros
409  hitZprimeError.push_back(0.0);
410  // barrel-specific values
411  if(beam.isAlignmentTube() && abs(globHit[hit].z()) < 112.3){
412  gBarrelModuleRadius.push_back(globHit[hit].perp());
413  gBarrelModuleOffset.push_back(gBarrelModuleRadius.back() - gBeamR);
414  // TIB/TOB flag
415  if(gBarrelModuleOffset.back() < 0.0){
416  gIsInnerBarrel = 1;
417  }
418  else{
419  gIsInnerBarrel = 0;
420  }
421  gHitZprime.push_back(globHit[hit].z() - gBeamZ0 - abs(gBarrelModuleOffset.back()));
422  }
423  // non-barrel z'
424  else{
425  gHitZprime.push_back(globHit[hit].z() - gBeamZ0);
426  }
427  }
428 
429  // number of fit parameters, 3 for TECs (always!); 3, 5, or 6 for ATs
430  unsigned int tecParams(3), atParams(0);
431  if(nAtParameters_ == 3) atParams = 3;
432  else if(nAtParameters_ == 5) atParams = 5;
433  else atParams = 6; // <-- default value, recommended
434  unsigned int nFitParams(0);
435  if(!fitBeamSplitters_ ||
436  (hitsAtTecPlus == 0 && beam.isAlignmentTube() ) ){
437  tecParams = tecParams - 1;
438  atParams = atParams - 1;
439  }
440  if(beam.isTecInternal()){
441  nFitParams = tecParams;
442  }
443  else{
444  nFitParams = atParams;
445  }
446 
447  // fit parameter definitions
448  double offset(0.), offsetError(0.), slope(0.), slopeError(0.),
449  bsAngleParam(0.), phiAtMinusParam(0.), phiAtPlusParam(0.),
450  atThetaSplitParam(0.);
451  AlgebraicSymMatrix covMatrix;
452  if(!fitBeamSplitters_ || (beam.isAlignmentTube() && hitsAtTecPlus == 0)){
453  covMatrix = AlgebraicSymMatrix(nFitParams, 1);
454  }
455  else{
456  covMatrix = AlgebraicSymMatrix(nFitParams - 1, 1);
457  }
458 
459  this->fitter(beam, covMatrix,
460  hitsAtTecPlus, nFitParams,
461  hitPhi, hitPhiError, hitZprimeError,
462  zMin, zMax, bsAngleParam,
463  offset, offsetError, slope, slopeError,
464  phiAtMinusParam, phiAtPlusParam,
465  atThetaSplitParam);
466 
467  vector<GlobalPoint> globPtrack;
468  GlobalPoint globPref;
469  double chi2(0.);
470 
471  for(unsigned int hit = 0; hit < gHitZprime.size(); ++hit){
472 
473  // additional phi value (trackPhiRef) for trajectory calculation
474  double trackPhi(0.), trackPhiRef(0.);
475 
476  this->trackPhi(beam, hit, trackPhi, trackPhiRef,
477  offset, slope, bsAngleParam,
478  phiAtMinusParam, phiAtPlusParam,
479  atThetaSplitParam, globHit);
480 
481  cout << "track phi = " << trackPhi
482  << ", hit phi = " << hitPhi[hit]
483  << ", zPrime = " << gHitZprime[hit]
484  << " r = " << globHit[hit].perp() << endl;
485 
486  this->globalTrackPoint(beam, hit, hitsAtTecPlus,
487  trackPhi, trackPhiRef,
488  globHit, globPtrack, globPref,
489  hitPhiError);
490 
491  // calculate residuals = pred - hit (in global phi)
492  const double phiResidual = globPtrack[hit].phi() - globHit[hit].phi();
493  // pull calculation (FIX!!!)
494  const double phiResidualPull = phiResidual / hitPhiError[hit];
495  // sqrt(hitPhiError[hit]*hitPhiError[hit] +
496  // (offsetError*offsetError + globPtrack[hit].z()*globPtrack[hit].z() * slopeError*slopeError));
497 
498  // calculate chi2
499  chi2 += phiResidual*phiResidual / (hitPhiError[hit]*hitPhiError[hit]);
500 
501  // fill histos
502  h_res->Fill(phiResidual);
503  // TECplus
504  if(beam.isTecInternal(1)){
505  h_pull->Fill(phiResidualPull);
506  h_resTecPlus->Fill(phiResidual);
507  h_resVsZTecPlus->Fill(globPtrack[hit].z(), phiResidual);
508  // Ring 6
509  if(beam.isRing6()){
510  h_resVsHitTecPlus->Fill(hit+(beam.getBeamId()-1)/10*9+72, phiResidual);
511  }
512  // Ring 4
513  else{
514  h_resVsHitTecPlus->Fill(hit+beam.getBeamId()/10*9, phiResidual);
515  }
516  }
517  // TECminus
518  else if(beam.isTecInternal(-1)){
519  h_pull->Fill(phiResidualPull);
520  h_resTecMinus->Fill(phiResidual);
521  h_resVsZTecMinus->Fill(globPtrack[hit].z(), phiResidual);
522  // Ring 6
523  if(beam.isRing6()){
524  h_resVsHitTecMinus->Fill(hit+(beam.getBeamId()-101)/10*9+72, phiResidual);
525  }
526  // Ring 4
527  else{
528  h_resVsHitTecMinus->Fill(hit+(beam.getBeamId()-100)/10*9, phiResidual);
529  }
530  }
531  // ATs
532  else{
533  h_pull->Fill(phiResidualPull);
534  h_resAt->Fill(phiResidual);
535  h_resVsZAt->Fill(globPtrack[hit].z(), phiResidual);
536  h_resVsHitAt->Fill(hit+(beam.getBeamId()-200)/10*22, phiResidual);
537  }
538 
539  this->buildTrajectory(beam, hit, gd, globPtrack, tsosLas, globPref);
540  }
541 
542  cout << "chi^2 = " << chi2 << ", chi^2/ndof = " << chi2/(gHitZprime.size() - nFitParams) << endl;
543  this->fitBeam(beam, covMatrix, hitsAtTecPlus, nFitParams,
544  offset, slope, globPtrack, bsAngleParam, chi2);
545 
546  cout << "bsAngleParam = " << bsAngleParam << endl;
547 
548  // fill histos
549  // include slope, offset, covariance plots here
550  h_chi2->Fill(chi2);
551  h_chi2ndof->Fill(chi2/(gHitZprime.size() - nFitParams));
552  if(bsAngleParam != 0.0){
553  h_bsAngle->Fill(2.0*atan(0.5*bsAngleParam));
554  h_bsAngleVsBeam->Fill(beam.getBeamId(), 2.0*atan(0.5*bsAngleParam));
555  }
556 }
static vector< double > gHitZprime
static double gBeamR
static const double slope[3]
bool isRing6(void) const
true if this beam hits TEC R6 (last digit of beamId)
Definition: TkLasBeam.h:49
static vector< double > gBarrelModuleRadius
bool fitBeam(TkFittedLasBeam &beam, AlgebraicSymMatrix &covMatrix, unsigned int &hitsAtTecPlus, unsigned int &nFitParams, double &offset, double &slope, vector< GlobalPoint > &globPtrack, double &bsAngleParam, double &chi2)
bool isTecInternal(int side=0) const
true if this is a TEC internal beam (from 10^2 digit of beamId). side parameter: -1 = ask if TEC-...
Definition: TkLasBeam.cc:4
float float float z
static bool gIsInnerBarrel
unsigned int nAtParameters_
unsigned int getBeamId(void) const
return the full beam identifier
Definition: TkLasBeam.h:25
void globalTrackPoint(TkFittedLasBeam &beam, unsigned int &hit, unsigned int &hitsAtTecPlus, double &trackPhi, double &trackPhiRef, std::vector< GlobalPoint > &globHit, std::vector< GlobalPoint > &globPtrack, GlobalPoint &globPref, std::vector< double > &hitPhiError)
static double gBeamSplitterZprime
std::vector< SiStripLaserRecHit2D >::const_iterator end(void) const
access iterator to the collection of hits
Definition: TkLasBeam.h:34
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
std::vector< SiStripLaserRecHit2D >::const_iterator begin(void) const
access iterator to the collection of hits
Definition: TkLasBeam.h:31
unsigned int offset(bool)
static unsigned int gHitsAtTecMinus
void fitter(TkFittedLasBeam &beam, AlgebraicSymMatrix &covMatrix, unsigned int &hitsAtTecPlus, unsigned int &nFitParams, std::vector< double > &hitPhi, std::vector< double > &hitPhiError, std::vector< double > &hitZprimeError, double &zMin, double &zMax, double &bsAngleParam, double &offset, double &offsetError, double &slope, double &slopeError, double &phiAtMinusParam, double &phiAtPlusParam, double &atThetaSplitParam)
void buildTrajectory(TkFittedLasBeam &beam, unsigned int &hit, vector< const GeomDetUnit * > &gd, std::vector< GlobalPoint > &globPtrack, vector< TrajectoryStateOnSurface > &tsosLas, GlobalPoint &globPref)
static vector< double > gBarrelModuleOffset
T perp() const
Magnitude of transverse component.
void trackPhi(TkFittedLasBeam &beam, unsigned int &hit, double &trackPhi, double &trackPhiRef, double &offset, double &slope, double &bsAngleParam, double &phiAtMinusParam, double &phiAtPlusParam, double &atThetaSplitParam, std::vector< GlobalPoint > &globHit)
CLHEP::HepSymMatrix AlgebraicSymMatrix
tuple cout
Definition: gather_cfg.py:121
void getLasHits(TkFittedLasBeam &beam, const SiStripLaserRecHit2D &hit, vector< const GeomDetUnit * > &gd, vector< GlobalPoint > &globHit, unsigned int &hitsAtTecPlus)
std::vector< SiStripLaserRecHit2D >::const_iterator const_iterator
Definition: TkLasBeam.h:16
bool isAlignmentTube(void) const
true if this is an AT beam (from 10^2 digit of beamId)
Definition: TkLasBeam.h:46
static double gBeamZ0
Definition: DDAxes.h:10
void TkLasBeamFitter::getLasHits ( TkFittedLasBeam beam,
const SiStripLaserRecHit2D hit,
vector< const GeomDetUnit * > &  gd,
vector< GlobalPoint > &  globHit,
unsigned int &  hitsAtTecPlus 
)
private

Definition at line 560 of file TkLasBeamFitter.cc.

References funct::abs(), geometry, SiStripLaserRecHit2D::getDetId(), gHitsAtTecMinus, TkLasBeam::isAlignmentTube(), SiStripLaserRecHit2D::localPosition(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by getLasBeams().

563 {
564  // get global position of LAS hits
565  gd.push_back(geometry->idToDetUnit(hit.getDetId()));
566  GlobalPoint globPtemp(gd.back()->toGlobal(hit.localPosition()));
567 
568  // testing: globPtemp should be right
569  globHit.push_back(globPtemp);
570 
571  if(beam.isAlignmentTube()){
572  if(abs(globPtemp.z()) > 112.3){
573  if(globPtemp.z() < 112.3) gHitsAtTecMinus++ ;
574  else hitsAtTecPlus++ ;
575  }
576  }
577 }
virtual LocalPoint localPosition() const
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
static unsigned int gHitsAtTecMinus
const SiStripDetId & getDetId(void) const
ESHandle< TrackerGeometry > geometry
bool isAlignmentTube(void) const
true if this is an AT beam (from 10^2 digit of beamId)
Definition: TkLasBeam.h:46
void TkLasBeamFitter::globalTrackPoint ( TkFittedLasBeam beam,
unsigned int &  hit,
unsigned int &  hitsAtTecPlus,
double &  trackPhi,
double &  trackPhiRef,
std::vector< GlobalPoint > &  globHit,
std::vector< GlobalPoint > &  globPtrack,
GlobalPoint globPref,
std::vector< double > &  hitPhiError 
)
private

Definition at line 808 of file TkLasBeamFitter.cc.

References gBeamR, gHitsAtTecMinus, gHitZprime, TkLasBeam::isTecInternal(), perp(), and detailsBasic3DVector::z.

Referenced by getLasBeams().

813 {
814  // TECs
815  if(beam.isTecInternal(0)){
816  globPtrack.push_back(GlobalPoint(GlobalPoint::Cylindrical(gBeamR, trackPhi, globHit[hit].z())));
817  globPref = GlobalPoint(GlobalPoint::Cylindrical(gBeamR, trackPhiRef, globHit[hit].z() + 1.0));
818  }
819  // ATs
820  else{
821  // TECminus
822  if(hit < gHitsAtTecMinus){ // gHitZprime[hit] < -gBeamSplitterZprime - 2.0*gBeamZ0
823  globPtrack.push_back(GlobalPoint(GlobalPoint::Cylindrical(gBeamR, trackPhi, globHit[hit].z())));
824  globPref = GlobalPoint(GlobalPoint::Cylindrical(gBeamR, trackPhiRef, globHit[hit].z() + 1.0));
825  }
826  // TECplus
827  else if(hit > gHitZprime.size() - hitsAtTecPlus - 1){ // gHitZprime[hit] > gBeamSplitterZprime
828  globPtrack.push_back(GlobalPoint(GlobalPoint::Cylindrical(gBeamR, trackPhi, globHit[hit].z())));
829  globPref = GlobalPoint(GlobalPoint::Cylindrical(gBeamR, trackPhiRef, globHit[hit].z() + 1.0));
830  }
831  // Barrel
832  else{
833  globPtrack.push_back(GlobalPoint(GlobalPoint::Cylindrical(globHit[hit].perp(), trackPhi, globHit[hit].z())));
834  globPref = GlobalPoint(GlobalPoint::Cylindrical(gBeamR, trackPhiRef, globHit[hit].z()));
835  }
836  }
837 }
static vector< double > gHitZprime
static double gBeamR
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
bool isTecInternal(int side=0) const
true if this is a TEC internal beam (from 10^2 digit of beamId). side parameter: -1 = ask if TEC-...
Definition: TkLasBeam.cc:4
float float float z
static unsigned int gHitsAtTecMinus
T perp() const
Magnitude of transverse component.
void trackPhi(TkFittedLasBeam &beam, unsigned int &hit, double &trackPhi, double &trackPhiRef, double &offset, double &slope, double &bsAngleParam, double &phiAtMinusParam, double &phiAtPlusParam, double &atThetaSplitParam, std::vector< GlobalPoint > &globHit)
void TkLasBeamFitter::produce ( edm::Event event,
const edm::EventSetup setup 
)
overridevirtual

Implements edm::one::EDProducerBase.

Definition at line 215 of file TkLasBeamFitter.cc.

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

216 {
217  // Nothing per event!
218 }
double TkLasBeamFitter::tecMinusFunction ( double *  x,
double *  par 
)
staticprivate

Definition at line 600 of file TkLasBeamFitter.cc.

References gBeamR, gBeamSplitterZprime, gBSparam, gFitBeamSplitters, and detailsBasic3DVector::z.

Referenced by fitter().

601 {
602  double z = x[0]; // 'primed'? -> yes!!!
603 
604  if(z > gBeamSplitterZprime){
605  return par[0] + par[1] * z;
606  }
607  else{
608  if(gFitBeamSplitters){
609  // par[2] = 2*tan(BeamSplitterAngle/2.0)
610  return par[0] + par[1] * z + par[2] * (z - gBeamSplitterZprime)/gBeamR;
611  }
612  else{
613  return par[0] + par[1] * z + gBSparam * (z - gBeamSplitterZprime)/gBeamR;
614  }
615  }
616 }
static double gBeamR
static bool gFitBeamSplitters
float float float z
static double gBeamSplitterZprime
static double gBSparam
Definition: DDAxes.h:10
double TkLasBeamFitter::tecPlusFunction ( double *  x,
double *  par 
)
staticprivate

Definition at line 581 of file TkLasBeamFitter.cc.

References gBeamR, gBeamSplitterZprime, gBSparam, gFitBeamSplitters, and detailsBasic3DVector::z.

Referenced by fitter().

582 {
583  double z = x[0]; // 'primed'? -> yes!!!
584 
585  if(z < gBeamSplitterZprime){
586  return par[0] + par[1] * z;
587  }
588  else{
589  if(gFitBeamSplitters){
590  // par[2] = 2*tan(BeamSplitterAngle/2.0)
591  return par[0] + par[1] * z - par[2] * (z - gBeamSplitterZprime)/gBeamR;
592  }
593  else{
594  return par[0] + par[1] * z - gBSparam * (z - gBeamSplitterZprime)/gBeamR;
595  }
596  }
597 }
static double gBeamR
static bool gFitBeamSplitters
float float float z
static double gBeamSplitterZprime
static double gBSparam
Definition: DDAxes.h:10
void TkLasBeamFitter::trackPhi ( TkFittedLasBeam beam,
unsigned int &  hit,
double &  trackPhi,
double &  trackPhiRef,
double &  offset,
double &  slope,
double &  bsAngleParam,
double &  phiAtMinusParam,
double &  phiAtPlusParam,
double &  atThetaSplitParam,
std::vector< GlobalPoint > &  globHit 
)
private

Definition at line 737 of file TkLasBeamFitter.cc.

References funct::abs(), gBarrelModuleOffset, gBeamR, gBeamSplitterZprime, gBeamZ0, gHitsAtTecMinus, gHitZprime, gIsInnerBarrel, gTIBparam, gTOBparam, and TkLasBeam::isTecInternal().

Referenced by getLasBeams().

742 {
743  // TECplus
744  if(beam.isTecInternal(1)){
747  trackPhiRef = offset + slope * (gHitZprime[hit] + 1.0);
748  }
749  else{
751  - bsAngleParam * (gHitZprime[hit] - gBeamSplitterZprime)/gBeamR;
752  trackPhiRef = offset + slope * (gHitZprime[hit] + 1.0)
753  - bsAngleParam * ((gHitZprime[hit] + 1.0) - gBeamSplitterZprime)/gBeamR;
754  }
755  }
756  // TECminus
757  else if(beam.isTecInternal(-1)){
760  trackPhiRef = offset + slope * (gHitZprime[hit] + 1.0);
761  }
762  else{
764  + bsAngleParam * (gHitZprime[hit] - gBeamSplitterZprime)/gBeamR;
765  trackPhiRef = offset + slope * (gHitZprime[hit] + 1.0)
766  + bsAngleParam * ((gHitZprime[hit] + 1.0) - gBeamSplitterZprime)/gBeamR;
767  }
768  }
769  // ATs
770  else{
771  // TECminus
774  trackPhiRef = offset + slope * (gHitZprime[hit] + 1.0);
775  }
776  // BarrelMinus
777  else if(-gBeamSplitterZprime - 2.0*gBeamZ0 < gHitZprime[hit] && gHitZprime[hit] < -gBeamZ0){
778  if(!gIsInnerBarrel){
779  trackPhi = offset + slope * gHitZprime[hit] + gTOBparam * (phiAtMinusParam + atThetaSplitParam);
780  }
781  else{
782  trackPhi = offset + slope * gHitZprime[hit] - gTIBparam * (phiAtMinusParam - atThetaSplitParam);
783  }
785  }
786  // BarrelPlus
788  if(!gIsInnerBarrel){
789  trackPhi = offset + slope * gHitZprime[hit] + gTOBparam * (phiAtPlusParam - atThetaSplitParam);
790  }
791  else{
792  trackPhi = offset + slope * gHitZprime[hit] - gTIBparam * (phiAtPlusParam + atThetaSplitParam);
793  }
795  }
796  // TECplus
797  else{
799  - bsAngleParam * (gHitZprime[hit] - gBeamSplitterZprime)/gBeamR;
800  trackPhiRef = offset + slope * (gHitZprime[hit] + 1.0)
801  - bsAngleParam * ((gHitZprime[hit] + 1.0) - gBeamSplitterZprime)/gBeamR;
802  }
803  }
804 }
static vector< double > gHitZprime
static float gTOBparam
static double gBeamR
static const double slope[3]
bool isTecInternal(int side=0) const
true if this is a TEC internal beam (from 10^2 digit of beamId). side parameter: -1 = ask if TEC-...
Definition: TkLasBeam.cc:4
static bool gIsInnerBarrel
static double gBeamSplitterZprime
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
unsigned int offset(bool)
static unsigned int gHitsAtTecMinus
static vector< double > gBarrelModuleOffset
void trackPhi(TkFittedLasBeam &beam, unsigned int &hit, double &trackPhi, double &trackPhiRef, double &offset, double &slope, double &bsAngleParam, double &phiAtMinusParam, double &phiAtPlusParam, double &atThetaSplitParam, std::vector< GlobalPoint > &globHit)
static float gTIBparam
static double gBeamZ0

Member Data Documentation

bool TkLasBeamFitter::fitBeamSplitters_
private

Definition at line 122 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), fitBeam(), fitter(), and getLasBeams().

edm::Service<TFileService> TkLasBeamFitter::fs
private

Definition at line 125 of file TkLasBeamFitter.cc.

Referenced by endRunProduce().

vector< double > TkLasBeamFitter::gBarrelModuleOffset
staticprivate

Definition at line 130 of file TkLasBeamFitter.cc.

Referenced by fitBeam(), getLasBeams(), and trackPhi().

vector< double > TkLasBeamFitter::gBarrelModuleRadius
staticprivate

Definition at line 129 of file TkLasBeamFitter.cc.

Referenced by getLasBeams().

double TkLasBeamFitter::gBeamR = 0.0
staticprivate
double TkLasBeamFitter::gBeamSplitterZprime = 0.0
staticprivate
double TkLasBeamFitter::gBeamZ0 = 0.0
staticprivate

Definition at line 134 of file TkLasBeamFitter.cc.

Referenced by atFunction(), buildTrajectory(), fitBeam(), getLasBeams(), and trackPhi().

double TkLasBeamFitter::gBSparam = 0.0
staticprivate
bool TkLasBeamFitter::gFitBeamSplitters = 0
staticprivate

Definition at line 138 of file TkLasBeamFitter.cc.

Referenced by atFunction(), endRunProduce(), tecMinusFunction(), and tecPlusFunction().

unsigned int TkLasBeamFitter::gHitsAtTecMinus = 0
staticprivate

Definition at line 136 of file TkLasBeamFitter.cc.

Referenced by fitBeam(), getLasBeams(), getLasHits(), globalTrackPoint(), and trackPhi().

vector< double > TkLasBeamFitter::gHitZprime
staticprivate
bool TkLasBeamFitter::gIsInnerBarrel = 0
staticprivate

Definition at line 139 of file TkLasBeamFitter.cc.

Referenced by atFunction(), getLasBeams(), and trackPhi().

float TkLasBeamFitter::gTIBparam = 0.097614
staticprivate

Definition at line 131 of file TkLasBeamFitter.cc.

Referenced by atFunction(), and trackPhi().

float TkLasBeamFitter::gTOBparam = 0.034949
staticprivate

Definition at line 132 of file TkLasBeamFitter.cc.

Referenced by atFunction(), and trackPhi().

TH1F* TkLasBeamFitter::h_bsAngle
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F* TkLasBeamFitter::h_bsAngleVsBeam
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_chi2
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_chi2ndof
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_hitX
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_hitXAt
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_hitXTecMinus
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_hitXTecPlus
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_hitXvsZAt
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_hitXvsZTecMinus
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_hitXvsZTecPlus
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_pull
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_res
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_resAt
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_resTecMinus
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH1F * TkLasBeamFitter::h_resTecPlus
private

Definition at line 142 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_resVsHitAt
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_resVsHitTecMinus
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_resVsHitTecPlus
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_resVsZAt
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_resVsZTecMinus
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

TH2F * TkLasBeamFitter::h_resVsZTecPlus
private

Definition at line 145 of file TkLasBeamFitter.cc.

Referenced by endRunProduce(), and getLasBeams().

unsigned int TkLasBeamFitter::nAtParameters_
private

Definition at line 123 of file TkLasBeamFitter.cc.

Referenced by getLasBeams().

const edm::InputTag TkLasBeamFitter::src_
private

Definition at line 121 of file TkLasBeamFitter.cc.