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MillePedeAlignmentAlgorithm Class Reference

#include <MillePedeAlignmentAlgorithm.h>

Inheritance diagram for MillePedeAlignmentAlgorithm:
AlignmentAlgorithmBase

Public Member Functions

virtual bool addCalibrations (const std::vector< IntegratedCalibrationBase * > &iCals)
 Pass integrated calibrations to Millepede (they are not owned by Millepede!) More...
 
virtual void endRun (const EventInfo &, const EndRunInfo &, const edm::EventSetup &)
 Run on run products, e.g. TkLAS. More...
 
virtual void endRun (const EndRunInfo &runInfo, const edm::EventSetup &setup)
 called at end of run - order of arguments like in EDProducer etc. More...
 
virtual void initialize (const edm::EventSetup &setup, AlignableTracker *tracker, AlignableMuon *muon, AlignableExtras *extras, AlignmentParameterStore *store)
 Called at beginning of job. More...
 
 MillePedeAlignmentAlgorithm (const edm::ParameterSet &cfg)
 Constructor. More...
 
virtual bool processesEvents () override
 Returns whether MP should process events in the current configuration. More...
 
virtual void run (const edm::EventSetup &setup, const EventInfo &eventInfo)
 Run the algorithm on trajectories and tracks. More...
 
virtual bool setParametersForRunRange (const RunRange &runrange)
 
virtual bool supportsCalibrations () override
 Returns whether MP supports calibrations. More...
 
virtual void terminate (const edm::EventSetup &iSetup)
 Called at end of job. More...
 
virtual void terminate ()
 Called at end of job. More...
 
virtual ~MillePedeAlignmentAlgorithm ()
 Destructor. More...
 
- Public Member Functions inherited from AlignmentAlgorithmBase
virtual bool addCalibrations (const Calibrations &)
 
 AlignmentAlgorithmBase (const edm::ParameterSet &)
 Constructor. More...
 
virtual void beginLuminosityBlock (const edm::EventSetup &setup)
 called at begin of luminosity block (no lumi block info passed yet) More...
 
virtual void beginRun (const edm::EventSetup &setup)
 called at begin of run More...
 
virtual void endLuminosityBlock (const edm::EventSetup &setup)
 called at end of luminosity block (no lumi block info passed yet) More...
 
virtual void startNewLoop ()
 
virtual ~AlignmentAlgorithmBase ()
 Destructor. More...
 

Private Types

enum  EModeBit { myMilleBit = 1 << 0, myPedeRunBit = 1 << 1, myPedeSteerBit = 1 << 2, myPedeReadBit = 1 << 3 }
 
enum  MeasurementDirection { kLocalX = 0, kLocalY }
 

Private Member Functions

int addGlobalData (const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iHit, GblPoint &gblPoint)
 
unsigned int addHitCount (const std::vector< AlignmentParameters * > &parVec, const std::vector< bool > &validHitVecY) const
 
bool addHits (const std::vector< Alignable * > &alis, const std::vector< AlignmentUserVariables * > &mpVars) const
 
bool addHitStatistics (int fromLoop, const std::string &outFile, const std::vector< std::string > &inFiles) const
 
void addLasBeam (const EventInfo &eventInfo, const TkFittedLasBeam &lasBeam, const std::vector< TrajectoryStateOnSurface > &tsoses)
 
void addLaserData (const EventInfo &eventInfo, const TkFittedLasBeamCollection &tkLasBeams, const TsosVectorCollection &tkLasBeamTsoses)
 
int addMeasurementData (const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iHit, AlignmentParameters *&params)
 
void addPxbSurvey (const edm::ParameterSet &pxbSurveyCfg)
 add measurement data from PXB survey More...
 
std::pair< unsigned int,
unsigned int > 
addReferenceTrajectory (const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr)
 fill mille for a trajectory, returning number of x/y hits ([0,0] if 'bad' trajectory) More...
 
void addRefTrackData2D (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, TMatrixDSym &aHitCovarianceM, TMatrixF &aHitResidualsM, TMatrixF &aLocalDerivativesM)
 adds data from reference trajectory from a specific Hit More...
 
void addRefTrackVirtualMeas1D (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iVirtualMeas, TMatrixDSym &aHitCovarianceM, TMatrixF &aHitResidualsM, TMatrixF &aLocalDerivativesM)
 adds data for a specific virtual measurement from reference trajectory More...
 
void addVirtualMeas (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iVirtualMeas)
 adds data for virtual measurements from reference trajectory More...
 
bool areEmptyParams (const std::vector< Alignable * > &alignables) const
 
void buildUserVariables (const std::vector< Alignable * > &alignables) const
 add MillePedeVariables for each AlignmentParameters (exception if no parameters...) More...
 
int callMille (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, const std::vector< int > &globalLabels, const std::vector< float > &globalDerivativesX, const std::vector< float > &globalDerivativesY)
 calls callMille1D or callMille2D More...
 
int callMille1D (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, const std::vector< int > &globalLabels, const std::vector< float > &globalDerivativesX)
 calls Mille for 1D hits More...
 
int callMille2D (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, const std::vector< int > &globalLabels, const std::vector< float > &globalDerivativesx, const std::vector< float > &globalDerivativesy)
 
unsigned int decodeMode (const std::string &mode) const
 
void diagonalize (TMatrixDSym &aHitCovarianceM, TMatrixF &aLocalDerivativesM, TMatrixF &aHitResidualsM, TMatrixF &theGlobalDerivativesM) const
 
unsigned int doIO (int loop) const
 
std::vector< std::string > getExistingFormattedFiles (const std::vector< std::string > plainFiles, std::string theDir)
 
void globalDerivativesCalibration (const TransientTrackingRecHit::ConstRecHitPointer &recHit, const TrajectoryStateOnSurface &tsos, const edm::EventSetup &setup, const EventInfo &eventInfo, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels) const
 adding derivatives from integrated calibrations More...
 
bool globalDerivativesHierarchy (const EventInfo &eventInfo, const TrajectoryStateOnSurface &tsos, Alignable *ali, const AlignableDetOrUnitPtr &alidet, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels, AlignmentParameters *&lowestParams) const
 recursively adding derivatives and labels, false if problems More...
 
bool globalDerivativesHierarchy (const EventInfo &eventInfo, const TrajectoryStateOnSurface &tsos, Alignable *ali, const AlignableDetOrUnitPtr &alidet, std::vector< double > &globalDerivativesX, std::vector< double > &globalDerivativesY, std::vector< int > &globalLabels, AlignmentParameters *&lowestParams) const
 recursively adding derivatives (double) and labels, false if problems More...
 
bool is2D (const TransientTrackingRecHit::ConstRecHitPointer &recHit) const
 true if hit belongs to 2D detector (currently tracker specific) More...
 
bool isMode (unsigned int testMode) const
 
void makeGlobDerivMatrix (const std::vector< float > &globalDerivativesx, const std::vector< float > &globalDerivativesy, TMatrixF &aGlobalDerivativesM)
 
bool readFromPede (const edm::ParameterSet &mprespset, bool setUserVars, const RunRange &runrange)
 read pede input defined by 'psetName', flag to create/not create MillePedeVariables More...
 

Private Attributes

AlignableNavigatortheAlignableNavigator
 
std::vector< Alignable * > theAlignables
 
AlignmentParameterStoretheAlignmentParameterStore
 directory for all kind of files More...
 
MilleBinarytheBinary
 
std::vector
< IntegratedCalibrationBase * > 
theCalibrations
 
edm::ParameterSet theConfig
 
std::string theDir
 
bool theDoSurveyPixelBarrel
 
std::vector< float > theFloatBufferX
 
std::vector< float > theFloatBufferY
 
bool theGblDoubleBinary
 
std::vector< int > theIntBuffer
 
int theLastWrittenIov
 
double theMaximalCor2D
 
MilletheMille
 
unsigned int theMinNumHits
 
unsigned int theMode
 
MillePedeMonitortheMonitor
 
PedeLabelerBasethePedeLabels
 
PedeSteererthePedeSteer
 
TrajectoryFactoryBasetheTrajectoryFactory
 

Additional Inherited Members

- Public Types inherited from AlignmentAlgorithmBase
typedef std::pair< const
Trajectory *, const
reco::Track * > 
ConstTrajTrackPair
 
typedef std::vector
< ConstTrajTrackPair
ConstTrajTrackPairCollection
 
typedef cond::RealTimeType
< cond::runnumber >::type 
RunNumber
 
typedef std::pair< RunNumber,
RunNumber
RunRange
 

Detailed Description

CMSSW interface to pede: produces pede's binary input and steering file(s)

Author
: Gero Flucke date : October 2006
Revision:
1.36
Date:
2012/08/10 09:01:11

(last update by

Author:
flucke

)

Definition at line 54 of file MillePedeAlignmentAlgorithm.h.

Member Enumeration Documentation

Constructor & Destructor Documentation

MillePedeAlignmentAlgorithm::MillePedeAlignmentAlgorithm ( const edm::ParameterSet cfg)

Constructor.

Definition at line 88 of file MillePedeAlignmentAlgorithm.cc.

References edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), isMode(), myMilleBit, AlCaHLTBitMon_QueryRunRegistry::string, theBinary, theConfig, theDir, theGblDoubleBinary, and theMille.

88  :
95  theMinNumHits(cfg.getParameter<unsigned int>("minNumHits")),
96  theMaximalCor2D(cfg.getParameter<double>("max2Dcorrelation")),
98  theBinary(0),theGblDoubleBinary(cfg.getParameter<bool>("doubleBinary"))
99 {
100  if (!theDir.empty() && theDir.find_last_of('/') != theDir.size()-1) theDir += '/';// may need '/'
101  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm" << "Start in mode '"
103  << "' with output directory '" << theDir << "'.";
104  if (this->isMode(myMilleBit)) {
105  theMille = new Mille((theDir + theConfig.getParameter<std::string>("binaryFile")).c_str());// add ', false);' for text output);
106  // use same file for GBL
108  }
109 }
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
std::vector< Alignable * > theAlignables
bool isMode(unsigned int testMode) const
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
AlignmentAlgorithmBase(const edm::ParameterSet &)
Constructor.
TrajectoryFactoryBase * theTrajectoryFactory
Definition: Mille.h:26
Millepede-II (binary) record.
Definition: MilleBinary.h:46
unsigned int decodeMode(const std::string &mode) const
MillePedeAlignmentAlgorithm::~MillePedeAlignmentAlgorithm ( )
virtual

Destructor.

Definition at line 113 of file MillePedeAlignmentAlgorithm.cc.

References theAlignableNavigator, theMille, theMonitor, thePedeLabels, thePedeSteer, and theTrajectoryFactory.

114 {
115  delete theAlignableNavigator;
117  delete theMille;
118  theMille = 0;
119  delete theMonitor;
120  theMonitor = 0;
121  delete thePedeSteer;
122  thePedeSteer = 0;
123  delete thePedeLabels;
124  thePedeLabels = 0;
125  delete theTrajectoryFactory;
127 }
TrajectoryFactoryBase * theTrajectoryFactory

Member Function Documentation

bool MillePedeAlignmentAlgorithm::addCalibrations ( const std::vector< IntegratedCalibrationBase * > &  iCals)
virtual

Pass integrated calibrations to Millepede (they are not owned by Millepede!)

Definition at line 254 of file MillePedeAlignmentAlgorithm.cc.

References PedeLabelerBase::addCalibrations(), theCalibrations, and thePedeLabels.

255 {
256  theCalibrations.insert(theCalibrations.end(), iCals.begin(), iCals.end());
258  return true;
259 }
std::vector< IntegratedCalibrationBase * > theCalibrations
virtual void addCalibrations(const std::vector< IntegratedCalibrationBase * > &iCals)
tell labeler to treat also integrated calibrations
int MillePedeAlignmentAlgorithm::addGlobalData ( const edm::EventSetup setup,
const EventInfo eventInfo,
const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iHit,
GblPoint gblPoint 
)
private

Add global data (labels, derivatives) to GBL trajectory Returns -1 if any problem (for params cf. globalDerivativesHierarchy)

Definition at line 576 of file MillePedeAlignmentAlgorithm.cc.

References gbl::GblPoint::addGlobals(), AlignableNavigator::alignableFromDetId(), PedeLabelerBase::calibrationLabel(), ecal_dqm_sourceclient-live_cfg::cerr, globalDerivativesHierarchy(), i, theAlignableNavigator, theCalibrations, theIntBuffer, and thePedeLabels.

Referenced by addReferenceTrajectory().

579 {
580  AlignmentParameters* params = 0;
581  std::vector<double> theDoubleBufferX, theDoubleBufferY;
582  theDoubleBufferX.clear();
583  theDoubleBufferY.clear();
584  theIntBuffer.clear();
585  int iret = 0;
586 
587  const TrajectoryStateOnSurface &tsos = refTrajPtr->trajectoryStates()[iHit];
588  const ConstRecHitPointer &recHitPtr = refTrajPtr->recHits()[iHit];
589  // ignore invalid hits
590  if (!recHitPtr->isValid()) return 0;
591 
592  // get AlignableDet/Unit for this hit
593  AlignableDetOrUnitPtr alidet(theAlignableNavigator->alignableFromDetId(recHitPtr->geographicalId()));
594 
595  if (!this->globalDerivativesHierarchy(eventInfo,
596  tsos, alidet, alidet, theDoubleBufferX, // 2x alidet, sic!
597  theDoubleBufferY, theIntBuffer, params)) {
598  return -1; // problem
599  }
600  //calibration parameters
601  int globalLabel;
602  std::vector<IntegratedCalibrationBase::ValuesIndexPair> derivs;
603  for (auto iCalib = theCalibrations.begin(); iCalib != theCalibrations.end(); ++iCalib) {
604  // get all derivatives of this calibration // const unsigned int num =
605  (*iCalib)->derivatives(derivs, *recHitPtr, tsos, setup, eventInfo);
606  for (auto iValuesInd = derivs.begin(); iValuesInd != derivs.end(); ++iValuesInd) {
607  // transfer label and x/y derivatives
608  globalLabel = thePedeLabels->calibrationLabel(*iCalib, iValuesInd->second);
609  if (globalLabel > 0 && globalLabel <= 2147483647) {
610  theIntBuffer.push_back(globalLabel);
611  theDoubleBufferX.push_back(iValuesInd->first.first);
612  theDoubleBufferY.push_back(iValuesInd->first.second);
613  } else {
614  std::cerr << "MillePedeAlignmentAlgorithm::addGlobalData: Invalid label " << globalLabel << " <= 0 or > 2147483647" << std::endl;
615  }
616  }
617  }
618  unsigned int numGlobals = theIntBuffer.size();
619  if (numGlobals > 0)
620  {
621  TMatrixD globalDer(2,numGlobals);
622  for (unsigned int i = 0; i < numGlobals; ++i) {
623  globalDer(0,i) = theDoubleBufferX[i];
624  globalDer(1,i) = theDoubleBufferY[i];
625  }
626  gblPoint.addGlobals( theIntBuffer, globalDer );
627  iret = 1;
628  }
629  return iret;
630 }
int i
Definition: DBlmapReader.cc:9
bool globalDerivativesHierarchy(const EventInfo &eventInfo, const TrajectoryStateOnSurface &tsos, Alignable *ali, const AlignableDetOrUnitPtr &alidet, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels, AlignmentParameters *&lowestParams) const
recursively adding derivatives and labels, false if problems
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
void addGlobals(const std::vector< int > &aLabels, const TMatrixD &aDerivatives)
Add global derivatives to a point.
Definition: GblPoint.cc:298
std::vector< IntegratedCalibrationBase * > theCalibrations
virtual unsigned int calibrationLabel(const IntegratedCalibrationBase *calib, unsigned int paramNum) const
label for parameter &#39;paramNum&#39; (counted from 0) of an integrated calibration
AlignableDetOrUnitPtr alignableFromDetId(const DetId &detid)
Returns AlignableDetOrUnitPtr corresponding to given DetId.
unsigned int MillePedeAlignmentAlgorithm::addHitCount ( const std::vector< AlignmentParameters * > &  parVec,
const std::vector< bool > &  validHitVecY 
) const
private

Increase hit counting of MillePedeVariables behind each parVec[i] (and also for parameters higher in hierarchy), assuming 'parVec' and 'validHitVecY' to be parallel. Returns number of valid y-hits.

Definition at line 492 of file MillePedeAlignmentAlgorithm.cc.

References Alignable::alignmentParameters(), MillePedeVariables::increaseHitsX(), MillePedeVariables::increaseHitsY(), Alignable::mother(), and AlignmentParameters::userVariables().

Referenced by addReferenceTrajectory().

494 {
495  // Loop on all hit information in the input arrays and count valid y-hits:
496  unsigned int nHitY = 0;
497  for (unsigned int iHit = 0; iHit < validHitVecY.size(); ++iHit) {
498  Alignable *ali = (parVec[iHit] ? parVec[iHit]->alignable() : 0);
499  // Loop upwards on hierarchy of alignables to add hits to all levels
500  // that are currently aligned. If only a non-selected alignable was hit,
501  // (i.e. flagXY == 0 in addReferenceTrajectory(..)), there is no loop at all...
502  while (ali) {
504  if (pars) { // otherwise hierarchy level not selected
505  // cast ensured by previous checks:
506  MillePedeVariables *mpVar = static_cast<MillePedeVariables*>(pars->userVariables());
507  // every hit has an x-measurement, cf. addReferenceTrajectory(..):
508  mpVar->increaseHitsX();
509  if (validHitVecY[iHit]) {
510  mpVar->increaseHitsY();
511  if (pars == parVec[iHit]) ++nHitY; // do not count hits twice
512  }
513  }
514  ali = ali->mother();
515  }
516  }
517 
518  return nHitY;
519 }
void increaseHitsX(unsigned int add=1)
increase hits for x-measurement
void increaseHitsY(unsigned int add=1)
increase hits for y-measurement
AlignmentParameters * alignmentParameters() const
Get the AlignmentParameters.
Definition: Alignable.h:57
AlignmentUserVariables * userVariables(void) const
Get pointer to user variables.
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:85
bool MillePedeAlignmentAlgorithm::addHits ( const std::vector< Alignable * > &  alis,
const std::vector< AlignmentUserVariables * > &  mpVars 
) const
private

Definition at line 1019 of file MillePedeAlignmentAlgorithm.cc.

References MillePedeVariables::hitsX(), MillePedeVariables::hitsY(), MillePedeVariables::increaseHitsX(), MillePedeVariables::increaseHitsY(), MillePedeVariables::size(), and AlignmentParameters::userVariables().

Referenced by addHitStatistics().

1021 {
1022  bool allOk = (mpVars.size() == alis.size());
1023  std::vector<AlignmentUserVariables*>::const_iterator iUser = mpVars.begin();
1024  for (std::vector<Alignable*>::const_iterator iAli = alis.begin();
1025  iAli != alis.end() && iUser != mpVars.end(); ++iAli, ++iUser) {
1026  MillePedeVariables *mpVarNew = dynamic_cast<MillePedeVariables*>(*iUser);
1027  AlignmentParameters *ps = (*iAli)->alignmentParameters();
1028  MillePedeVariables *mpVarOld = (ps ? dynamic_cast<MillePedeVariables*>(ps->userVariables()) : 0);
1029  if (!mpVarNew || !mpVarOld || mpVarOld->size() != mpVarNew->size()) {
1030  allOk = false;
1031  continue; // FIXME error etc.?
1032  }
1033 
1034  mpVarOld->increaseHitsX(mpVarNew->hitsX());
1035  mpVarOld->increaseHitsY(mpVarNew->hitsY());
1036  }
1037 
1038  return allOk;
1039 }
unsigned int hitsX() const
get number of hits for x-measurement
unsigned int size() const
number of parameters
void increaseHitsX(unsigned int add=1)
increase hits for x-measurement
void increaseHitsY(unsigned int add=1)
increase hits for y-measurement
AlignmentUserVariables * userVariables(void) const
Get pointer to user variables.
unsigned int hitsY() const
get number of hits for y-measurement
bool MillePedeAlignmentAlgorithm::addHitStatistics ( int  fromLoop,
const std::string &  outFile,
const std::vector< std::string > &  inFiles 
) const
private

Definition at line 992 of file MillePedeAlignmentAlgorithm.cc.

References addHits(), i, MillePedeVariablesIORoot::readMillePedeVariables(), AlCaHLTBitMon_QueryRunRegistry::string, theAlignables, and theDir.

Referenced by doIO().

994 {
995  bool allOk = true;
996  int ierr = 0;
997  MillePedeVariablesIORoot millePedeIO;
998  for (std::vector<std::string>::const_iterator iFile = inFiles.begin();
999  iFile != inFiles.end(); ++iFile) {
1000  const std::string inFile(theDir + *iFile);
1001  const std::vector<AlignmentUserVariables*> mpVars =
1002  millePedeIO.readMillePedeVariables(theAlignables, inFile.c_str(), fromIov, ierr);
1003  if (ierr || !this->addHits(theAlignables, mpVars)) {
1004  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addHitStatistics"
1005  << "Error " << ierr << " reading from " << inFile
1006  << ", tree " << fromIov << ", or problems in addHits";
1007  allOk = false;
1008  }
1009  for (std::vector<AlignmentUserVariables*>::const_iterator i = mpVars.begin();
1010  i != mpVars.end(); ++i) {
1011  delete *i; // clean created objects
1012  }
1013  }
1014 
1015  return allOk;
1016 }
std::vector< AlignmentUserVariables * > readMillePedeVariables(const std::vector< Alignable * > &alivec, const char *filename, int iter, int &ierr)
int i
Definition: DBlmapReader.cc:9
std::vector< Alignable * > theAlignables
bool addHits(const std::vector< Alignable * > &alis, const std::vector< AlignmentUserVariables * > &mpVars) const
void MillePedeAlignmentAlgorithm::addLasBeam ( const EventInfo eventInfo,
const TkFittedLasBeam lasBeam,
const std::vector< TrajectoryStateOnSurface > &  tsoses 
)
private

Definition at line 1327 of file MillePedeAlignmentAlgorithm.cc.

References AlignableNavigator::alignableFromDetId(), funct::derivative(), TkFittedLasBeam::derivatives(), Mille::end(), relativeConstraints::error, TkFittedLasBeam::firstFixedParameter(), TkLasBeam::getBeamId(), TkLasBeam::getData(), SiStripLaserRecHit2D::getDetId(), globalDerivativesHierarchy(), PedeLabelerBase::lasBeamLabel(), SiStripLaserRecHit2D::localPosition(), Mille::mille(), PedeLabelerBase::parameterLabel(), TkFittedLasBeam::parameters(), theAlignableNavigator, theFloatBufferX, theFloatBufferY, theIntBuffer, theMille, and thePedeLabels.

Referenced by addLaserData().

1330 {
1331  AlignmentParameters *dummyPtr = 0; // for globalDerivativesHierarchy()
1332  std::vector<float> lasLocalDerivsX; // buffer for local derivatives
1333  const unsigned int beamLabel = thePedeLabels->lasBeamLabel(lasBeam.getBeamId());// for global par
1334 
1335  for (unsigned int iHit = 0; iHit < tsoses.size(); ++iHit) {
1336  if (!tsoses[iHit].isValid()) continue;
1337  // clear buffer
1338  theFloatBufferX.clear();
1339  theFloatBufferY.clear();
1340  theIntBuffer.clear();
1341  lasLocalDerivsX.clear();
1342  // get alignables and global parameters
1343  const SiStripLaserRecHit2D &hit = lasBeam.getData()[iHit];
1345  this->globalDerivativesHierarchy(eventInfo,
1346  tsoses[iHit], lasAli, lasAli,
1348  // fill derivatives vector from derivatives matrix
1349  for (unsigned int nFitParams = 0;
1350  nFitParams < static_cast<unsigned int>(lasBeam.parameters().size());
1351  ++nFitParams) {
1352  const float derivative = lasBeam.derivatives()[iHit][nFitParams];
1353  if (nFitParams < lasBeam.firstFixedParameter()) { // first local beam parameters
1354  lasLocalDerivsX.push_back(derivative);
1355  } else { // now global ones
1356  const unsigned int numPar = nFitParams - lasBeam.firstFixedParameter();
1357  theIntBuffer.push_back(thePedeLabels->parameterLabel(beamLabel, numPar));
1358  theFloatBufferX.push_back(derivative);
1359  }
1360  } // end loop over parameters
1361 
1362  const float residual = hit.localPosition().x() - tsoses[iHit].localPosition().x();
1363  // error from file or assume 0.003
1364  const float error = 0.003; // hit.localPositionError().xx(); sqrt???
1365 
1366  theMille->mille(lasLocalDerivsX.size(), &(lasLocalDerivsX[0]), theFloatBufferX.size(),
1367  &(theFloatBufferX[0]), &(theIntBuffer[0]), residual, error);
1368  } // end of loop over hits
1369 
1370  theMille->end();
1371 }
unsigned int firstFixedParameter() const
Derivative< X, A >::type derivative(const A &_)
Definition: Derivative.h:18
bool globalDerivativesHierarchy(const EventInfo &eventInfo, const TrajectoryStateOnSurface &tsos, Alignable *ali, const AlignableDetOrUnitPtr &alidet, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels, AlignmentParameters *&lowestParams) const
recursively adding derivatives and labels, false if problems
virtual LocalPoint localPosition() const
const AlgebraicMatrix & derivatives() const
matrix of local derivatives: columns are parameters, rows are hits
virtual unsigned int lasBeamLabel(unsigned int lasBeamId) const =0
virtual unsigned int parameterLabel(unsigned int aliLabel, unsigned int parNum) const =0
returns the label for a given alignable parameter number combination
const std::vector< Scalar > & parameters() const
parallel to derivatives()
unsigned int getBeamId(void) const
return the full beam identifier
Definition: TkLasBeam.h:25
void end()
Definition: Mille.cc:137
void mille(int NLC, const float *derLc, int NGL, const float *derGl, const int *label, float rMeas, float sigma)
Definition: Mille.cc:43
const SiStripDetId & getDetId(void) const
const std::vector< SiStripLaserRecHit2D > & getData(void) const
access the collection of hits
Definition: TkLasBeam.h:28
AlignableDetOrUnitPtr alignableFromDetId(const DetId &detid)
Returns AlignableDetOrUnitPtr corresponding to given DetId.
void MillePedeAlignmentAlgorithm::addLaserData ( const EventInfo eventInfo,
const TkFittedLasBeamCollection tkLasBeams,
const TsosVectorCollection tkLasBeamTsoses 
)
private

Definition at line 1308 of file MillePedeAlignmentAlgorithm.cc.

References addLasBeam().

Referenced by endRun().

1311 {
1312  TsosVectorCollection::const_iterator iTsoses = lasBeamTsoses.begin();
1313  for(TkFittedLasBeamCollection::const_iterator iBeam = lasBeams.begin(), iEnd = lasBeams.end();
1314  iBeam != iEnd; ++iBeam, ++iTsoses){ // beam/tsoses parallel!
1315 
1316  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addLaserData"
1317  << "Beam " << iBeam->getBeamId() << " with "
1318  << iBeam->parameters().size() << " parameters and "
1319  << iBeam->getData().size() << " hits.\n There are "
1320  << iTsoses->size() << " TSOSes.";
1321 
1322  this->addLasBeam(eventInfo, *iBeam, *iTsoses);
1323  }
1324 }
void addLasBeam(const EventInfo &eventInfo, const TkFittedLasBeam &lasBeam, const std::vector< TrajectoryStateOnSurface > &tsoses)
int MillePedeAlignmentAlgorithm::addMeasurementData ( const edm::EventSetup setup,
const EventInfo eventInfo,
const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iHit,
AlignmentParameters *&  params 
)
private

If hit is usable: callMille for x and (probably) y direction. If globalDerivatives fine: returns 2 if 2D-hit, 1 if 1D-hit, 0 if no Alignable for hit. Returns -1 if any problem (for params cf. globalDerivativesHierarchy)

Definition at line 539 of file MillePedeAlignmentAlgorithm.cc.

References AlignableNavigator::alignableFromDetId(), callMille(), globalDerivativesCalibration(), globalDerivativesHierarchy(), theAlignableNavigator, theFloatBufferX, theFloatBufferY, and theIntBuffer.

Referenced by addReferenceTrajectory().

544 {
545  params = 0;
546  theFloatBufferX.clear();
547  theFloatBufferY.clear();
548  theIntBuffer.clear();
549 
550  const TrajectoryStateOnSurface &tsos = refTrajPtr->trajectoryStates()[iHit];
551  const ConstRecHitPointer &recHitPtr = refTrajPtr->recHits()[iHit];
552  // ignore invalid hits
553  if (!recHitPtr->isValid()) return 0;
554 
555  // First add the derivatives from IntegratedCalibration's,
556  // should even be OK if problems for "usual" derivatives from Alignables
557  this->globalDerivativesCalibration(recHitPtr, tsos, setup, eventInfo, // input
559 
560  // get AlignableDet/Unit for this hit
561  AlignableDetOrUnitPtr alidet(theAlignableNavigator->alignableFromDetId(recHitPtr->geographicalId()));
562 
563  if (!this->globalDerivativesHierarchy(eventInfo,
564  tsos, alidet, alidet, theFloatBufferX, // 2x alidet, sic!
565  theFloatBufferY, theIntBuffer, params)) {
566  return -1; // problem
567  } else if (theFloatBufferX.empty()) {
568  return 0; // empty for X: no alignable for hit, nor calibrations
569  } else { // now even if no alignable, but calibrations!
570  return this->callMille(refTrajPtr, iHit, theIntBuffer, theFloatBufferX, theFloatBufferY);
571  }
572 }
void globalDerivativesCalibration(const TransientTrackingRecHit::ConstRecHitPointer &recHit, const TrajectoryStateOnSurface &tsos, const edm::EventSetup &setup, const EventInfo &eventInfo, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels) const
adding derivatives from integrated calibrations
bool globalDerivativesHierarchy(const EventInfo &eventInfo, const TrajectoryStateOnSurface &tsos, Alignable *ali, const AlignableDetOrUnitPtr &alidet, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels, AlignmentParameters *&lowestParams) const
recursively adding derivatives and labels, false if problems
int callMille(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, const std::vector< int > &globalLabels, const std::vector< float > &globalDerivativesX, const std::vector< float > &globalDerivativesY)
calls callMille1D or callMille2D
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
AlignableDetOrUnitPtr alignableFromDetId(const DetId &detid)
Returns AlignableDetOrUnitPtr corresponding to given DetId.
void MillePedeAlignmentAlgorithm::addPxbSurvey ( const edm::ParameterSet pxbSurveyCfg)
private

add measurement data from PXB survey

Definition at line 1373 of file MillePedeAlignmentAlgorithm.cc.

References a, AlignableNavigator::alignableFromDetId(), PedeLabelerBase::alignableLabel(), gather_cfg::cout, SurveyPxbDicer::doDice(), Mille::end(), lut2db_cfg::filename, MillePedeMonitor::fillPxbSurveyHistsChi2(), MillePedeMonitor::fillPxbSurveyHistsLocalPars(), edm::FileInPath::fullPath(), edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), i, j, Mille::mille(), SurveyPxbImageLocalFit::nMsrmts, EdgesToViz::outfile, matplotRender::reader, mathSSE::sqrt(), AlCaHLTBitMon_QueryRunRegistry::string, Alignable::surface(), theAlignableNavigator, theMille, theMonitor, thePedeLabels, AlignableSurface::toGlobal(), and AlignableSurface::toLocal().

Referenced by initialize().

1374 {
1375  // do some printing, if requested
1376  const bool doOutputOnStdout(pxbSurveyCfg.getParameter<bool>("doOutputOnStdout"));
1377  if (doOutputOnStdout) std::cout << "# Output from addPxbSurvey follows below because doOutputOnStdout is set to True" << std::endl;
1378 
1379  // instantiate a dicer object
1380  SurveyPxbDicer dicer(pxbSurveyCfg.getParameter<std::vector<edm::ParameterSet> >("toySurveyParameters"), pxbSurveyCfg.getParameter<unsigned int>("toySurveySeed"));
1381  std::ofstream outfile(pxbSurveyCfg.getUntrackedParameter<std::string>("toySurveyFile").c_str());
1382 
1383  // read data from file
1384  std::vector<SurveyPxbImageLocalFit> measurements;
1385  std::string filename(pxbSurveyCfg.getParameter<edm::FileInPath>("infile").fullPath());
1387 
1388  // loop over photographs (=measurements) and perform the fit
1389  for(std::vector<SurveyPxbImageLocalFit>::size_type i=0; i!=measurements.size(); i++)
1390  {
1391  if (doOutputOnStdout) std::cout << "Module " << i << ": ";
1392 
1393  // get the Alignables and their surfaces
1394  AlignableDetOrUnitPtr mod1(theAlignableNavigator->alignableFromDetId(measurements[i].getIdFirst()));
1395  AlignableDetOrUnitPtr mod2(theAlignableNavigator->alignableFromDetId(measurements[i].getIdSecond()));
1396  const AlignableSurface& surf1 = mod1->surface();
1397  const AlignableSurface& surf2 = mod2->surface();
1398 
1399  // the position of the fiducial points in local frame of a PXB module
1400  const LocalPoint fidpoint0(-0.91,+3.30);
1401  const LocalPoint fidpoint1(+0.91,+3.30);
1402  const LocalPoint fidpoint2(+0.91,-3.30);
1403  const LocalPoint fidpoint3(-0.91,-3.30);
1404 
1405  // We choose the local frame of the first module as reference,
1406  // so take the fidpoints of the second module and calculate their
1407  // positions in the reference frame
1408  const GlobalPoint surf2point0(surf2.toGlobal(fidpoint0));
1409  const GlobalPoint surf2point1(surf2.toGlobal(fidpoint1));
1410  const LocalPoint fidpoint0inSurf1frame(surf1.toLocal(surf2point0));
1411  const LocalPoint fidpoint1inSurf1frame(surf1.toLocal(surf2point1));
1412 
1413  // Create the vector for the fit
1415  fidpointvec.push_back(fidpoint0inSurf1frame);
1416  fidpointvec.push_back(fidpoint1inSurf1frame);
1417  fidpointvec.push_back(fidpoint2);
1418  fidpointvec.push_back(fidpoint3);
1419 
1420  // if toy survey is requested, dice the values now
1421  if (pxbSurveyCfg.getParameter<bool>("doToySurvey"))
1422  {
1423  dicer.doDice(fidpointvec,measurements[i].getIdPair(), outfile);
1424  }
1425 
1426  // do the fit
1427  measurements[i].doFit(fidpointvec, thePedeLabels->alignableLabel(mod1), thePedeLabels->alignableLabel(mod2));
1428  SurveyPxbImageLocalFit::localpars_t a; // local pars from fit
1429  a = measurements[i].getLocalParameters();
1430  const SurveyPxbImageLocalFit::value_t chi2 = measurements[i].getChi2();
1431 
1432  // do some reporting, if requested
1433  if (doOutputOnStdout)
1434  {
1435  std::cout << "a: " << a[0] << ", " << a[1] << ", " << a[2] << ", " << a[3]
1436  << " S= " << sqrt(a[2]*a[2]+a[3]*a[3])
1437  << " phi= " << atan(a[3]/a[2])
1438  << " chi2= " << chi2 << std::endl;
1439  }
1440  if (theMonitor)
1441  {
1443  theMonitor->fillPxbSurveyHistsLocalPars(a[0],a[1],sqrt(a[2]*a[2]+a[3]*a[3]),atan(a[3]/a[2]));
1444  }
1445 
1446  // pass the results from the local fit to mille
1448  {
1449  theMille->mille((int)measurements[i].getLocalDerivsSize(),
1450  measurements[i].getLocalDerivsPtr(j),
1451  (int)measurements[i].getGlobalDerivsSize(),
1452  measurements[i].getGlobalDerivsPtr(j),
1453  measurements[i].getGlobalDerivsLabelPtr(j),
1454  measurements[i].getResiduum(j),
1455  measurements[i].getSigma(j));
1456  }
1457  theMille->end();
1458  }
1459  outfile.close();
1460 }
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
int i
Definition: DBlmapReader.cc:9
std::vector< coord_t > fidpoint_t
virtual unsigned int alignableLabel(Alignable *alignable) const =0
void fillPxbSurveyHistsLocalPars(const float &a0, const float &a1, const float &S, const float &phi)
uint16_t size_type
void fillPxbSurveyHistsChi2(const float &chi2)
list outfile
Definition: EdgesToViz.py:91
align::RotationType toLocal(const align::RotationType &) const
Return in local frame a rotation given in global frame.
T sqrt(T t)
Definition: SSEVec.h:48
void end()
Definition: Mille.cc:137
int j
Definition: DBlmapReader.cc:9
void mille(int NLC, const float *derLc, int NGL, const float *derGl, const int *label, float rMeas, float sigma)
Definition: Mille.cc:43
Class to hold one picture of the BPix survey.
std::vector< value_t > localpars_t
double a
Definition: hdecay.h:121
align::GlobalPoints toGlobal(const align::LocalPoints &) const
Return in global coord given a set of local points.
tuple filename
Definition: lut2db_cfg.py:20
tuple cout
Definition: gather_cfg.py:121
static const count_t nMsrmts
std::string fullPath() const
Definition: FileInPath.cc:165
AlignableDetOrUnitPtr alignableFromDetId(const DetId &detid)
Returns AlignableDetOrUnitPtr corresponding to given DetId.
std::pair< unsigned int, unsigned int > MillePedeAlignmentAlgorithm::addReferenceTrajectory ( const edm::EventSetup setup,
const EventInfo eventInfo,
const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr 
)
private

fill mille for a trajectory, returning number of x/y hits ([0,0] if 'bad' trajectory)

Definition at line 406 of file MillePedeAlignmentAlgorithm.cc.

References addGlobalData(), addHitCount(), addMeasurementData(), addVirtualMeas(), Mille::end(), Mille::kill(), gbl::GblTrajectory::milleOut(), theBinary, theMille, and theMinNumHits.

Referenced by run().

409 {
410  std::pair<unsigned int, unsigned int> hitResultXy(0,0);
411  if (refTrajPtr->isValid()) {
412 
413 
414  // GblTrajectory?
415  if (refTrajPtr->gblInput().size() > 0) {
416  // by construction: number of GblPoints == number of recHits or == zero !!!
417  unsigned int iHit = 0;
418  unsigned int numPointsWithMeas = 0;
419  std::vector<GblPoint>::iterator itPoint;
420  std::vector<std::pair<std::vector<GblPoint>, TMatrixD> > theGblInput = refTrajPtr->gblInput();
421  for (unsigned int iTraj = 0; iTraj < refTrajPtr->gblInput().size(); ++iTraj) {
422  for (itPoint = refTrajPtr->gblInput()[iTraj].first.begin(); itPoint < refTrajPtr->gblInput()[iTraj].first.end(); ++itPoint) {
423  if (this->addGlobalData(setup, eventInfo, refTrajPtr, iHit++, *itPoint) < 0) return hitResultXy;
424  if (itPoint->hasMeasurement() >= 1) ++numPointsWithMeas;
425  }
426  }
427  hitResultXy.first = numPointsWithMeas;
428  // check #hits criterion
429  if (hitResultXy.first == 0 || hitResultXy.first < theMinNumHits) return hitResultXy;
430  // construct GBL trajectory
431  if (refTrajPtr->gblInput().size() == 1) {
432  // from single track
433  GblTrajectory aGblTrajectory( refTrajPtr->gblInput()[0].first, refTrajPtr->nominalField() != 0 );
434  // GBL fit trajectory
435  /*double Chi2;
436  int Ndf;
437  double lostWeight;
438  aGblTrajectory.fit(Chi2, Ndf, lostWeight);
439  std::cout << " GblFit: " << Chi2 << ", " << Ndf << ", " << lostWeight << std::endl; */
440  // write to MP binary file
441  if (aGblTrajectory.isValid() && aGblTrajectory.getNumPoints() >= theMinNumHits) aGblTrajectory.milleOut(*theBinary);
442  }
443  if (refTrajPtr->gblInput().size() == 2) {
444  // from TwoBodyDecay
445  GblTrajectory aGblTrajectory( refTrajPtr->gblInput(), refTrajPtr->gblExtDerivatives(), refTrajPtr->gblExtMeasurements(), refTrajPtr->gblExtPrecisions() );
446  // write to MP binary file
447  if (aGblTrajectory.isValid() && aGblTrajectory.getNumPoints() >= theMinNumHits) aGblTrajectory.milleOut(*theBinary);
448  }
449  } else {
450  // to add hits if all fine:
451  std::vector<AlignmentParameters*> parVec(refTrajPtr->recHits().size());
452  // collect hit statistics, assuming that there are no y-only hits
453  std::vector<bool> validHitVecY(refTrajPtr->recHits().size(), false);
454  // Use recHits from ReferenceTrajectory (since they have the right order!):
455  for (unsigned int iHit = 0; iHit < refTrajPtr->recHits().size(); ++iHit) {
456  const int flagXY = this->addMeasurementData(setup, eventInfo, refTrajPtr, iHit, parVec[iHit]);
457 
458  if (flagXY < 0) { // problem
459  hitResultXy.first = 0;
460  break;
461  } else { // hit is fine, increase x/y statistics
462  if (flagXY >= 1) ++hitResultXy.first;
463  validHitVecY[iHit] = (flagXY >= 2);
464  }
465  } // end loop on hits
466 
467  // add virtual measurements
468  for (unsigned int iVirtualMeas = 0; iVirtualMeas < refTrajPtr->numberOfVirtualMeas(); ++iVirtualMeas) {
469  this->addVirtualMeas(refTrajPtr, iVirtualMeas);
470  }
471 
472  // kill or end 'track' for mille, depends on #hits criterion
473  if (hitResultXy.first == 0 || hitResultXy.first < theMinNumHits) {
474  theMille->kill();
475  hitResultXy.first = hitResultXy.second = 0; //reset
476  } else {
477  theMille->end();
478  // add x/y hit count to MillePedeVariables of parVec,
479  // returning number of y-hits of the reference trajectory
480  hitResultXy.second = this->addHitCount(parVec, validHitVecY);
481  //
482  }
483  }
484 
485  } // end if valid trajectory
486 
487  return hitResultXy;
488 }
GBL trajectory.
Definition: GblTrajectory.h:26
unsigned int addHitCount(const std::vector< AlignmentParameters * > &parVec, const std::vector< bool > &validHitVecY) const
int addMeasurementData(const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iHit, AlignmentParameters *&params)
void end()
Definition: Mille.cc:137
int addGlobalData(const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iHit, GblPoint &gblPoint)
void addVirtualMeas(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iVirtualMeas)
adds data for virtual measurements from reference trajectory
void milleOut(MilleBinary &aMille)
Write valid trajectory to Millepede-II binary file.
void kill()
Definition: Mille.cc:121
void MillePedeAlignmentAlgorithm::addRefTrackData2D ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iTrajHit,
TMatrixDSym &  aHitCovarianceM,
TMatrixF &  aHitResidualsM,
TMatrixF &  aLocalDerivativesM 
)
private

adds data from reference trajectory from a specific Hit

Definition at line 1107 of file MillePedeAlignmentAlgorithm.cc.

References i.

1110 {
1111  // This Method is valid for 2D measurements only
1112 
1113  const unsigned int xIndex = iTrajHit*2;
1114  const unsigned int yIndex = iTrajHit*2+1;
1115  // Covariance into a TMatrixDSym
1116 
1117  //aHitCovarianceM = new TMatrixDSym(2);
1118  aHitCovarianceM(0,0)=refTrajPtr->measurementErrors()[xIndex][xIndex];
1119  aHitCovarianceM(0,1)=refTrajPtr->measurementErrors()[xIndex][yIndex];
1120  aHitCovarianceM(1,0)=refTrajPtr->measurementErrors()[yIndex][xIndex];
1121  aHitCovarianceM(1,1)=refTrajPtr->measurementErrors()[yIndex][yIndex];
1122 
1123  //theHitResidualsM= new TMatrixF(2,1);
1124  aHitResidualsM(0,0)= refTrajPtr->measurements()[xIndex] - refTrajPtr->trajectoryPositions()[xIndex];
1125  aHitResidualsM(1,0)= refTrajPtr->measurements()[yIndex] - refTrajPtr->trajectoryPositions()[yIndex];
1126 
1127  // Local Derivatives into a TMatrixDSym (to use matrix operations)
1128  const AlgebraicMatrix &locDerivMatrix = refTrajPtr->derivatives();
1129  // theLocalDerivativeNumber = locDerivMatrix.num_col();
1130 
1131  //theLocalDerivativesM = new TMatrixF(2,locDerivMatrix.num_col());
1132  for (int i = 0; i < locDerivMatrix.num_col(); ++i) {
1133  aLocalDerivativesM(0,i) = locDerivMatrix[xIndex][i];
1134  aLocalDerivativesM(1,i) = locDerivMatrix[yIndex][i];
1135  }
1136 }
int i
Definition: DBlmapReader.cc:9
CLHEP::HepMatrix AlgebraicMatrix
void MillePedeAlignmentAlgorithm::addRefTrackVirtualMeas1D ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iVirtualMeas,
TMatrixDSym &  aHitCovarianceM,
TMatrixF &  aHitResidualsM,
TMatrixF &  aLocalDerivativesM 
)
private

adds data for a specific virtual measurement from reference trajectory

Definition at line 1080 of file MillePedeAlignmentAlgorithm.cc.

References i.

1083 {
1084  // This Method is valid for 1D measurements only
1085 
1086  const unsigned int xIndex = iVirtualMeas + refTrajPtr->numberOfHitMeas();
1087  // Covariance into a TMatrixDSym
1088 
1089  //aHitCovarianceM = new TMatrixDSym(1);
1090  aHitCovarianceM(0,0)=refTrajPtr->measurementErrors()[xIndex][xIndex];
1091 
1092  //theHitResidualsM= new TMatrixF(1,1);
1093  aHitResidualsM(0,0)= refTrajPtr->measurements()[xIndex];
1094 
1095  // Local Derivatives into a TMatrixDSym (to use matrix operations)
1096  const AlgebraicMatrix &locDerivMatrix = refTrajPtr->derivatives();
1097  // theLocalDerivativeNumber = locDerivMatrix.num_col();
1098 
1099  //theLocalDerivativesM = new TMatrixF(1,locDerivMatrix.num_col());
1100  for (int i = 0; i < locDerivMatrix.num_col(); ++i) {
1101  aLocalDerivativesM(0,i) = locDerivMatrix[xIndex][i];
1102  }
1103 }
int i
Definition: DBlmapReader.cc:9
CLHEP::HepMatrix AlgebraicMatrix
void MillePedeAlignmentAlgorithm::addVirtualMeas ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iVirtualMeas 
)
private

adds data for virtual measurements from reference trajectory

Definition at line 1284 of file MillePedeAlignmentAlgorithm.cc.

Referenced by addReferenceTrajectory().

1285 {
1286  TMatrixDSym aHitCovarianceM(1);
1287  TMatrixF aHitResidualsM(1,1);
1288  TMatrixF aLocalDerivativesM(1, refTrajPtr->derivatives().num_col());
1289  // below method fills above 3 'matrices'
1290  this->addRefTrackVirtualMeas1D(refTrajPtr, iVirtualMeas, aHitCovarianceM, aHitResidualsM, aLocalDerivativesM);
1291 
1292  // no global parameters (use dummy 0)
1293  TMatrixF aGlobalDerivativesM(1,1);
1294  aGlobalDerivativesM(0,0) = 0;
1295 
1296  float newResidX = aHitResidualsM(0,0);
1297  float newHitErrX = TMath::Sqrt(aHitCovarianceM(0,0));
1298  float *newLocalDerivsX = aLocalDerivativesM[0].GetPtr();
1299  float *newGlobDerivsX = aGlobalDerivativesM[0].GetPtr();
1300  const int nLocal = aLocalDerivativesM.GetNcols();
1301  const int nGlobal = 0;
1302 
1303  theMille->mille(nLocal, newLocalDerivsX, nGlobal, newGlobDerivsX,
1304  &nGlobal, newResidX, newHitErrX);
1305 }
void mille(int NLC, const float *derLc, int NGL, const float *derGl, const int *label, float rMeas, float sigma)
Definition: Mille.cc:43
void addRefTrackVirtualMeas1D(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iVirtualMeas, TMatrixDSym &aHitCovarianceM, TMatrixF &aHitResidualsM, TMatrixF &aLocalDerivativesM)
adds data for a specific virtual measurement from reference trajectory
bool MillePedeAlignmentAlgorithm::areEmptyParams ( const std::vector< Alignable * > &  alignables) const
private

Definition at line 861 of file MillePedeAlignmentAlgorithm.cc.

References AlignmentParameters::covariance(), i, j, and AlignmentParameters::parameters().

Referenced by readFromPede().

862 {
863 
864  for (std::vector<Alignable*>::const_iterator iAli = alignables.begin();
865  iAli != alignables.end(); ++iAli) {
866  const AlignmentParameters *params = (*iAli)->alignmentParameters();
867  if (params) {
868  const AlgebraicVector &parVec(params->parameters());
869  const AlgebraicMatrix &parCov(params->covariance());
870  for (int i = 0; i < parVec.num_row(); ++i) {
871  if (parVec[i] != 0.) return false;
872  for (int j = i; j < parCov.num_col(); ++j) {
873  if (parCov[i][j] != 0.) return false;
874  }
875  }
876  }
877  }
878 
879  return true;
880 }
int i
Definition: DBlmapReader.cc:9
const AlgebraicVector & parameters(void) const
Get alignment parameters.
CLHEP::HepMatrix AlgebraicMatrix
int j
Definition: DBlmapReader.cc:9
CLHEP::HepVector AlgebraicVector
const AlgebraicSymMatrix & covariance(void) const
Get parameter covariance matrix.
void MillePedeAlignmentAlgorithm::buildUserVariables ( const std::vector< Alignable * > &  alignables) const
private

add MillePedeVariables for each AlignmentParameters (exception if no parameters...)

Definition at line 943 of file MillePedeAlignmentAlgorithm.cc.

References PedeLabelerBase::alignableLabel(), edm::hlt::Exception, MillePedeVariables::setAllDefault(), AlignmentParameters::setUserVariables(), MillePedeVariables::size(), AlignmentParameters::size(), thePedeLabels, and AlignmentParameters::userVariables().

Referenced by initialize(), and setParametersForRunRange().

944 {
945  for (std::vector<Alignable*>::const_iterator iAli = alis.begin(); iAli != alis.end(); ++iAli) {
946  AlignmentParameters *params = (*iAli)->alignmentParameters();
947  if (!params) {
948  throw cms::Exception("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::buildUserVariables"
949  << "No parameters for alignable";
950  }
951  MillePedeVariables *userVars = dynamic_cast<MillePedeVariables*>(params->userVariables());
952  if (userVars) { // Just re-use existing, keeping label and numHits:
953  for (unsigned int iPar = 0; iPar < userVars->size(); ++iPar) {
954  // if (params->hierarchyLevel() > 0) {
955  //std::cout << params->hierarchyLevel() << "\nBefore: " << userVars->parameter()[iPar];
956  // }
957  userVars->setAllDefault(iPar);
958  //std::cout << "\nAfter: " << userVars->parameter()[iPar] << std::endl;
959  }
960  } else { // Nothing yet or erase wrong type:
961  userVars = new MillePedeVariables(params->size(), thePedeLabels->alignableLabel(*iAli));
962  params->setUserVariables(userVars);
963  }
964  }
965 }
unsigned int size() const
number of parameters
virtual unsigned int alignableLabel(Alignable *alignable) const =0
AlignmentUserVariables * userVariables(void) const
Get pointer to user variables.
void setUserVariables(AlignmentUserVariables *auv)
Set pointer to user variables.
int size(void) const
Get number of parameters.
bool setAllDefault(unsigned int nParam)
set default values for all data concerning nParam (false if nParam out of range)
int MillePedeAlignmentAlgorithm::callMille ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iTrajHit,
const std::vector< int > &  globalLabels,
const std::vector< float > &  globalDerivativesX,
const std::vector< float > &  globalDerivativesY 
)
private

calls callMille1D or callMille2D

Definition at line 1140 of file MillePedeAlignmentAlgorithm.cc.

Referenced by addMeasurementData().

1144 {
1145  const ConstRecHitPointer aRecHit(refTrajPtr->recHits()[iTrajHit]);
1146 
1147  if((aRecHit)->dimension() == 1) {
1148  return this->callMille1D(refTrajPtr, iTrajHit, globalLabels, globalDerivativesX);
1149  } else {
1150  return this->callMille2D(refTrajPtr, iTrajHit, globalLabels,
1151  globalDerivativesX, globalDerivativesY);
1152  }
1153 }
int callMille2D(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, const std::vector< int > &globalLabels, const std::vector< float > &globalDerivativesx, const std::vector< float > &globalDerivativesy)
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
int callMille1D(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, const std::vector< int > &globalLabels, const std::vector< float > &globalDerivativesX)
calls Mille for 1D hits
int MillePedeAlignmentAlgorithm::callMille1D ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iTrajHit,
const std::vector< int > &  globalLabels,
const std::vector< float > &  globalDerivativesX 
)
private

calls Mille for 1D hits

Definition at line 1158 of file MillePedeAlignmentAlgorithm.cc.

References i.

1161 {
1162  const ConstRecHitPointer aRecHit(refTrajPtr->recHits()[iTrajHit]);
1163  const unsigned int xIndex = iTrajHit*2; // the even ones are local x
1164 
1165  // local derivatives
1166  const AlgebraicMatrix &locDerivMatrix = refTrajPtr->derivatives();
1167  const int nLocal = locDerivMatrix.num_col();
1168  std::vector<float> localDerivatives(nLocal);
1169  for (unsigned int i = 0; i < localDerivatives.size(); ++i) {
1170  localDerivatives[i] = locDerivMatrix[xIndex][i];
1171  }
1172 
1173  // residuum and error
1174  float residX = refTrajPtr->measurements()[xIndex] - refTrajPtr->trajectoryPositions()[xIndex];
1175  float hitErrX = TMath::Sqrt(refTrajPtr->measurementErrors()[xIndex][xIndex]);
1176 
1177  // number of global derivatives
1178  const int nGlobal = globalDerivativesX.size();
1179 
1180  // &(localDerivatives[0]) etc. are valid - as long as vector is not empty
1181  // cf. http://www.parashift.com/c++-faq-lite/containers.html#faq-34.3
1182  theMille->mille(nLocal, &(localDerivatives[0]), nGlobal, &(globalDerivativesX[0]),
1183  &(globalLabels[0]), residX, hitErrX);
1184 
1185  if (theMonitor) {
1186  theMonitor->fillDerivatives(aRecHit, &(localDerivatives[0]), nLocal,
1187  &(globalDerivativesX[0]), nGlobal, &(globalLabels[0]));
1188  theMonitor->fillResiduals(aRecHit, refTrajPtr->trajectoryStates()[iTrajHit],
1189  iTrajHit, residX, hitErrX, false);
1190  }
1191 
1192  return 1;
1193 }
int i
Definition: DBlmapReader.cc:9
void fillResiduals(const TransientTrackingRecHit::ConstRecHitPointer &recHit, const TrajectoryStateOnSurface &tsos, unsigned int nHit, float residuum, float sigma, bool isY)
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
CLHEP::HepMatrix AlgebraicMatrix
void mille(int NLC, const float *derLc, int NGL, const float *derGl, const int *label, float rMeas, float sigma)
Definition: Mille.cc:43
void fillDerivatives(const TransientTrackingRecHit::ConstRecHitPointer &recHit, const float *localDerivs, unsigned int nLocal, const float *globalDerivs, unsigned int nGlobal, const int *labels)
int MillePedeAlignmentAlgorithm::callMille2D ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iTrajHit,
const std::vector< int > &  globalLabels,
const std::vector< float > &  globalDerivativesx,
const std::vector< float > &  globalDerivativesy 
)
private

calls Mille for x and possibly y component of hit, y is skipped for non-real 2D (e.g. SiStripRecHit2D), for TID/TEC first diagonalises if correlation is larger than configurable

Definition at line 1197 of file MillePedeAlignmentAlgorithm.cc.

References Abs(), corr, pat::helper::ParametrizationHelper::dimension(), mathSSE::sqrt(), std::swap(), SiStripDetId::TEC, SiStripDetId::TID, and DetId::Tracker.

1201 {
1202  const ConstRecHitPointer aRecHit(refTrajPtr->recHits()[iTrajHit]);
1203 
1204  if((aRecHit)->dimension() != 2) {
1205  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::callMille2D"
1206  << "You try to call method for 2D hits for a "
1207  << (aRecHit)->dimension()
1208  << "D Hit. Hit gets ignored!";
1209  return -1;
1210  }
1211 
1212  TMatrixDSym aHitCovarianceM(2);
1213  TMatrixF aHitResidualsM(2,1);
1214  TMatrixF aLocalDerivativesM(2, refTrajPtr->derivatives().num_col());
1215  // below method fills above 3 matrices
1216  this->addRefTrackData2D(refTrajPtr, iTrajHit, aHitCovarianceM,aHitResidualsM,aLocalDerivativesM);
1217  TMatrixF aGlobalDerivativesM(2,globalDerivativesx.size());
1218  this->makeGlobDerivMatrix(globalDerivativesx, globalDerivativesy, aGlobalDerivativesM);
1219 
1220  // calculates correlation between Hit measurements
1221  // FIXME: Should take correlation (and resulting transformation) from original hit,
1222  // not 2x2 matrix from ReferenceTrajectory: That can come from error propagation etc.!
1223  const double corr = aHitCovarianceM(0,1) / sqrt(aHitCovarianceM(0,0) * aHitCovarianceM(1,1));
1224  if (theMonitor) theMonitor->fillCorrelations2D(corr, aRecHit);
1225  bool diag = false; // diagonalise only tracker TID, TEC
1226  switch(aRecHit->geographicalId().subdetId()) {
1227  case SiStripDetId::TID:
1228  case SiStripDetId::TEC:
1229  if (aRecHit->geographicalId().det() == DetId::Tracker && TMath::Abs(corr) > theMaximalCor2D) {
1230  this->diagonalize(aHitCovarianceM, aLocalDerivativesM, aHitResidualsM, aGlobalDerivativesM);
1231  diag = true;
1232  }
1233  break;
1234  default:;
1235  }
1236 
1237  float newResidX = aHitResidualsM(0,0);
1238  float newResidY = aHitResidualsM(1,0);
1239  float newHitErrX = TMath::Sqrt(aHitCovarianceM(0,0));
1240  float newHitErrY = TMath::Sqrt(aHitCovarianceM(1,1));
1241  float *newLocalDerivsX = aLocalDerivativesM[0].GetPtr();
1242  float *newLocalDerivsY = aLocalDerivativesM[1].GetPtr();
1243  float *newGlobDerivsX = aGlobalDerivativesM[0].GetPtr();
1244  float *newGlobDerivsY = aGlobalDerivativesM[1].GetPtr();
1245  const int nLocal = aLocalDerivativesM.GetNcols();
1246  const int nGlobal = aGlobalDerivativesM.GetNcols();
1247 
1248  if (diag && (newHitErrX > newHitErrY)) { // also for 2D hits?
1249  // measurement with smaller error is x-measurement (for !is2D do not fill y-measurement):
1250  std::swap(newResidX, newResidY);
1251  std::swap(newHitErrX, newHitErrY);
1252  std::swap(newLocalDerivsX, newLocalDerivsY);
1253  std::swap(newGlobDerivsX, newGlobDerivsY);
1254  }
1255 
1256  // &(globalLabels[0]) is valid - as long as vector is not empty
1257  // cf. http://www.parashift.com/c++-faq-lite/containers.html#faq-34.3
1258  theMille->mille(nLocal, newLocalDerivsX, nGlobal, newGlobDerivsX,
1259  &(globalLabels[0]), newResidX, newHitErrX);
1260 
1261  if (theMonitor) {
1262  theMonitor->fillDerivatives(aRecHit, newLocalDerivsX, nLocal, newGlobDerivsX, nGlobal,
1263  &(globalLabels[0]));
1264  theMonitor->fillResiduals(aRecHit, refTrajPtr->trajectoryStates()[iTrajHit],
1265  iTrajHit, newResidX, newHitErrX, false);
1266  }
1267  const bool isReal2DHit = this->is2D(aRecHit); // strip is 1D (except matched hits)
1268  if (isReal2DHit) {
1269  theMille->mille(nLocal, newLocalDerivsY, nGlobal, newGlobDerivsY,
1270  &(globalLabels[0]), newResidY, newHitErrY);
1271  if (theMonitor) {
1272  theMonitor->fillDerivatives(aRecHit, newLocalDerivsY, nLocal, newGlobDerivsY, nGlobal,
1273  &(globalLabels[0]));
1274  theMonitor->fillResiduals(aRecHit, refTrajPtr->trajectoryStates()[iTrajHit],
1275  iTrajHit, newResidY, newHitErrY, true);// true: y
1276  }
1277  }
1278 
1279  return (isReal2DHit ? 2 : 1);
1280 }
void fillCorrelations2D(float corr, const TransientTrackingRecHit::ConstRecHitPointer &hit)
void fillResiduals(const TransientTrackingRecHit::ConstRecHitPointer &recHit, const TrajectoryStateOnSurface &tsos, unsigned int nHit, float residuum, float sigma, bool isY)
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
void swap(edm::DataFrameContainer &lhs, edm::DataFrameContainer &rhs)
T sqrt(T t)
Definition: SSEVec.h:48
T Abs(T a)
Definition: MathUtil.h:49
bool is2D(const TransientTrackingRecHit::ConstRecHitPointer &recHit) const
true if hit belongs to 2D detector (currently tracker specific)
void diagonalize(TMatrixDSym &aHitCovarianceM, TMatrixF &aLocalDerivativesM, TMatrixF &aHitResidualsM, TMatrixF &theGlobalDerivativesM) const
void mille(int NLC, const float *derLc, int NGL, const float *derGl, const int *label, float rMeas, float sigma)
Definition: Mille.cc:43
JetCorrectorParameters corr
Definition: classes.h:5
void addRefTrackData2D(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, TMatrixDSym &aHitCovarianceM, TMatrixF &aHitResidualsM, TMatrixF &aLocalDerivativesM)
adds data from reference trajectory from a specific Hit
void makeGlobDerivMatrix(const std::vector< float > &globalDerivativesx, const std::vector< float > &globalDerivativesy, TMatrixF &aGlobalDerivativesM)
void fillDerivatives(const TransientTrackingRecHit::ConstRecHitPointer &recHit, const float *localDerivs, unsigned int nLocal, const float *globalDerivs, unsigned int nGlobal, const int *labels)
uint32_t dimension(pat::CandKinResolution::Parametrization parametrization)
Returns the number of free parameters in a parametrization (3 or 4)
unsigned int MillePedeAlignmentAlgorithm::decodeMode ( const std::string &  mode) const
private

Definition at line 968 of file MillePedeAlignmentAlgorithm.cc.

References edm::hlt::Exception, myMilleBit, myPedeReadBit, myPedeRunBit, and myPedeSteerBit.

969 {
970  if (mode == "full") {
972  } else if (mode == "mille") {
973  return myMilleBit; // + myPedeSteerBit; // sic! Including production of steerig file. NO!
974  } else if (mode == "pede") {
976  } else if (mode == "pedeSteer") {
977  return myPedeSteerBit;
978  } else if (mode == "pedeRun") {
979  return myPedeSteerBit + myPedeRunBit + myPedeReadBit; // sic! Including steering and reading of result.
980  } else if (mode == "pedeRead") {
981  return myPedeReadBit;
982  }
983 
984  throw cms::Exception("BadConfig")
985  << "Unknown mode '" << mode
986  << "', use 'full', 'mille', 'pede', 'pedeRun', 'pedeSteer' or 'pedeRead'.";
987 
988  return 0;
989 }
void MillePedeAlignmentAlgorithm::diagonalize ( TMatrixDSym &  aHitCovarianceM,
TMatrixF &  aLocalDerivativesM,
TMatrixF &  aHitResidualsM,
TMatrixF &  theGlobalDerivativesM 
) const
private

Definition at line 1055 of file MillePedeAlignmentAlgorithm.cc.

1057 {
1058  TMatrixDSymEigen myDiag(aHitCovarianceM);
1059  TMatrixD aTranfoToDiagonalSystem = myDiag.GetEigenVectors();
1060  TMatrixD aTranfoToDiagonalSystemInv = myDiag.GetEigenVectors( );
1061  TMatrixF aTranfoToDiagonalSystemInvF = myDiag.GetEigenVectors( );
1062  TMatrixD aMatrix = aTranfoToDiagonalSystemInv.Invert() * aHitCovarianceM * aTranfoToDiagonalSystem;
1063  // Tranformation of matrix M is done by A^T*M*A, not A^{-1}*M*A.
1064  // But here A^T == A^{-1}, so we would only save CPU by Transpose()...
1065  // FIXME this - I guess simply use T(), not Transpose()...
1066  // TMatrixD aMatrix = aTranfoToDiagonalSystemInv.Transpose() * aHitCovarianceM
1067  // * aTranfoToDiagonalSystem;
1068  aHitCovarianceM = TMatrixDSym(2, aMatrix.GetMatrixArray());
1069  aTranfoToDiagonalSystemInvF.Invert();
1070  //edm::LogInfo("Alignment") << "NEW HIT loca in matrix"<<aLocalDerivativesM(0,0);
1071  aLocalDerivativesM = aTranfoToDiagonalSystemInvF * aLocalDerivativesM;
1072 
1073  //edm::LogInfo("Alignment") << "NEW HIT loca in matrix after diag:"<<aLocalDerivativesM(0,0);
1074  aHitResidualsM = aTranfoToDiagonalSystemInvF * aHitResidualsM;
1075  aGlobalDerivativesM = aTranfoToDiagonalSystemInvF * aGlobalDerivativesM;
1076 }
unsigned int MillePedeAlignmentAlgorithm::doIO ( int  loop) const
private

Definition at line 883 of file MillePedeAlignmentAlgorithm.cc.

References addHitStatistics(), edm::ParameterSet::getParameter(), cmsHarvester::loop, GetRecoTauVFromDQM_MC_cff::outFile, query::result, AlCaHLTBitMon_QueryRunRegistry::string, theAlignables, theConfig, theDir, AlignmentIORoot::writeAlignableAbsolutePositions(), AlignmentIORoot::writeAlignableOriginalPositions(), MillePedeVariablesIORoot::writeMillePedeVariables(), and AlignmentIORoot::writeOrigRigidBodyAlignmentParameters().

Referenced by setParametersForRunRange(), and terminate().

884 {
885  unsigned int result = 0;
886 
887  const std::string outFilePlain(theConfig.getParameter<std::string>("treeFile"));
888  if (outFilePlain.empty()) {
889  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
890  << "treeFile parameter empty => skip writing for 'loop' " << loop;
891  return result;
892  }
893 
894  const std::string outFile(theDir + outFilePlain);
895 
896  AlignmentIORoot aliIO;
897  int ioerr = 0;
898  if (loop == 0) {
899  aliIO.writeAlignableOriginalPositions(theAlignables, outFile.c_str(), loop, false, ioerr);
900  if (ioerr) {
901  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
902  << "Problem " << ioerr << " in writeAlignableOriginalPositions";
903  ++result;
904  }
905  } else if (loop == 1) {
906  // only for first iov add hit counts, else 2x, 3x,... number of hits in IOV 2, 3,...
907  const std::vector<std::string> inFiles
908  (theConfig.getParameter<std::vector<std::string> >("mergeTreeFiles"));
909  const std::vector<std::string> binFiles
910  (theConfig.getParameter<std::vector<std::string> >("mergeBinaryFiles"));
911  if (inFiles.size() != binFiles.size()) {
912  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
913  << "'vstring mergeTreeFiles' and 'vstring mergeBinaryFiles' "
914  << "differ in size";
915  }
916  this->addHitStatistics(0, outFile, inFiles); // add hit info from tree 0 in 'infiles'
917  }
918  MillePedeVariablesIORoot millePedeIO;
919  millePedeIO.writeMillePedeVariables(theAlignables, outFile.c_str(), loop, false, ioerr);
920  if (ioerr) {
921  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
922  << "Problem " << ioerr << " writing MillePedeVariables";
923  ++result;
924  }
925 
926  aliIO.writeOrigRigidBodyAlignmentParameters(theAlignables, outFile.c_str(), loop, false, ioerr);
927  if (ioerr) {
928  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO" << "Problem " << ioerr
929  << " in writeOrigRigidBodyAlignmentParameters, " << loop;
930  ++result;
931  }
932  aliIO.writeAlignableAbsolutePositions(theAlignables, outFile.c_str(), loop, false, ioerr);
933  if (ioerr) {
934  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO" << "Problem " << ioerr
935  << " in writeAlignableAbsolutePositions, " << loop;
936  ++result;
937  }
938 
939  return result;
940 }
T getParameter(std::string const &) const
std::vector< Alignable * > theAlignables
void writeAlignableOriginalPositions(const align::Alignables &alivec, const char *filename, int iter, bool validCheck, int &ierr)
write Alignable original (before misalignment) absolute positions
int loop
CMSSW
tuple result
Definition: query.py:137
void writeMillePedeVariables(const std::vector< Alignable * > &alivec, const char *filename, int iter, bool validCheck, int &ierr)
bool addHitStatistics(int fromLoop, const std::string &outFile, const std::vector< std::string > &inFiles) const
void writeAlignableAbsolutePositions(const align::Alignables &alivec, const char *filename, int iter, bool validCheck, int &ierr)
write Alignable current absolute positions
void writeOrigRigidBodyAlignmentParameters(const align::Alignables &alivec, const char *filename, int iter, bool validCheck, int &ierr)
write RigidBodyAlignmentParameters as applied on top of original positions
void MillePedeAlignmentAlgorithm::endRun ( const EventInfo eventInfo,
const EndRunInfo runInfo,
const edm::EventSetup setup 
)
virtual

Run on run products, e.g. TkLAS.

Definition at line 522 of file MillePedeAlignmentAlgorithm.cc.

References addLaserData(), Mille::flushOutputFile(), isMode(), myMilleBit, theMille, AlignmentAlgorithmBase::EndRunInfo::tkLasBeams(), and AlignmentAlgorithmBase::EndRunInfo::tkLasBeamTsoses().

524 {
525  if(runInfo.tkLasBeams() && runInfo.tkLasBeamTsoses()){
526  // LAS beam treatment
527  this->addLaserData(eventInfo, *(runInfo.tkLasBeams()), *(runInfo.tkLasBeamTsoses()));
528  }
530 }
void addLaserData(const EventInfo &eventInfo, const TkFittedLasBeamCollection &tkLasBeams, const TsosVectorCollection &tkLasBeamTsoses)
bool isMode(unsigned int testMode) const
const TkFittedLasBeamCollection * tkLasBeams() const
void flushOutputFile()
Definition: Mille.cc:130
const TsosVectorCollection * tkLasBeamTsoses() const
might be null!
void MillePedeAlignmentAlgorithm::endRun ( const EndRunInfo runInfo,
const edm::EventSetup setup 
)
virtual

called at end of run - order of arguments like in EDProducer etc.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 533 of file MillePedeAlignmentAlgorithm.cc.

References Mille::flushOutputFile(), isMode(), myMilleBit, and theMille.

std::vector< std::string > MillePedeAlignmentAlgorithm::getExistingFormattedFiles ( const std::vector< std::string >  plainFiles,
std::string  theDir 
)
private

Generates list of files to read, given the list and dir from the configuration. This will automatically expand formatting directives, if they appear.

Definition at line 334 of file MillePedeAlignmentAlgorithm.cc.

References MainPageGenerator::files, i, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by terminate().

334  {
335  std::vector<std::string> files;
336  for (std::vector<std::string>::const_iterator i = plainFiles.begin(), iEnd = plainFiles.end(); i != iEnd; ++i) {
337  std::string theInputFileName = *i;
338  int theNumber = 0;
339  while (true) {
340  // Create a formatted version of the filename, with growing numbers
341  // If the parameter doesn't contain a formatting directive, it just stays unchanged
342  char theNumberedInputFileName[200];
343  sprintf(theNumberedInputFileName, theInputFileName.c_str(), theNumber);
344  std::string theCompleteInputFileName = theDir + theNumberedInputFileName;
345  // Check if the file exists
346  struct stat buffer;
347  if (stat (theCompleteInputFileName.c_str(), &buffer) == 0) {
348  // If the file exists, add it to the list
349  files.push_back(theCompleteInputFileName);
350  if (theNumberedInputFileName == theInputFileName) {
351  // If the filename didn't contain a formatting directive, no reason to look any further, break out of the loop
352  break;
353  } else {
354  // Otherwise look for the next number
355  theNumber++;
356  }
357  } else {
358  // The file doesn't exist, break out of the loop
359  break;
360  }
361  }
362  }
363  return files;
364 }
int i
Definition: DBlmapReader.cc:9
void MillePedeAlignmentAlgorithm::globalDerivativesCalibration ( const TransientTrackingRecHit::ConstRecHitPointer recHit,
const TrajectoryStateOnSurface tsos,
const edm::EventSetup setup,
const EventInfo eventInfo,
std::vector< float > &  globalDerivativesX,
std::vector< float > &  globalDerivativesY,
std::vector< int > &  globalLabels 
) const
private

adding derivatives from integrated calibrations

Definition at line 750 of file MillePedeAlignmentAlgorithm.cc.

References PedeLabelerBase::calibrationLabel(), theCalibrations, and thePedeLabels.

Referenced by addMeasurementData().

756 {
757  std::vector<IntegratedCalibrationBase::ValuesIndexPair> derivs;
758  for (auto iCalib = theCalibrations.begin(); iCalib != theCalibrations.end(); ++iCalib) {
759  // get all derivatives of this calibration // const unsigned int num =
760  (*iCalib)->derivatives(derivs, *recHit, tsos, setup, eventInfo);
761  for (auto iValuesInd = derivs.begin(); iValuesInd != derivs.end(); ++iValuesInd) {
762  // transfer label and x/y derivatives
763  globalLabels.push_back(thePedeLabels->calibrationLabel(*iCalib, iValuesInd->second));
764  globalDerivativesX.push_back(iValuesInd->first.first);
765  globalDerivativesY.push_back(iValuesInd->first.second);
766  }
767  }
768 }
std::vector< IntegratedCalibrationBase * > theCalibrations
virtual unsigned int calibrationLabel(const IntegratedCalibrationBase *calib, unsigned int paramNum) const
label for parameter &#39;paramNum&#39; (counted from 0) of an integrated calibration
bool MillePedeAlignmentAlgorithm::globalDerivativesHierarchy ( const EventInfo eventInfo,
const TrajectoryStateOnSurface tsos,
Alignable ali,
const AlignableDetOrUnitPtr alidet,
std::vector< float > &  globalDerivativesX,
std::vector< float > &  globalDerivativesY,
std::vector< int > &  globalLabels,
AlignmentParameters *&  lowestParams 
) const
private

recursively adding derivatives and labels, false if problems

Definition at line 634 of file MillePedeAlignmentAlgorithm.cc.

References Alignable::alignmentParameters(), AlignmentParameters::derivatives(), Alignable::mother(), and AlignmentParameters::selector().

Referenced by addGlobalData(), addLasBeam(), and addMeasurementData().

641 {
642  // derivatives and labels are recursively attached
643  if (!ali) return true; // no mother might be OK
644 
645  if (false && theMonitor && alidet != ali) theMonitor->fillFrameToFrame(alidet, ali);
646 
647  AlignmentParameters *params = ali->alignmentParameters();
648 
649  if (params) {
650  if (!lowestParams) lowestParams = params; // set parameters of lowest level
651 
652  bool hasSplitParameters = thePedeLabels->hasSplitParameters(ali);
653  const unsigned int alignableLabel = thePedeLabels->alignableLabel(ali);
654 
655  if (0 == alignableLabel) { // FIXME: what about regardAllHits in Markus' code?
656  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::globalDerivativesHierarchy"
657  << "Label not found, skip Alignable.";
658  return false;
659  }
660 
661  const std::vector<bool> &selPars = params->selector();
662  const AlgebraicMatrix derivs(params->derivatives(tsos, alidet));
663 
664  // cols: 2, i.e. x&y, rows: parameters, usually RigidBodyAlignmentParameters::N_PARAM
665  for (unsigned int iSel = 0; iSel < selPars.size(); ++iSel) {
666  if (selPars[iSel]) {
667  globalDerivativesX.push_back(derivs[iSel][kLocalX]
668  /thePedeSteer->cmsToPedeFactor(iSel));
669  if (hasSplitParameters==true) {
670  globalLabels.push_back(thePedeLabels->parameterLabel(ali, iSel, eventInfo, tsos));
671  } else {
672  globalLabels.push_back(thePedeLabels->parameterLabel(alignableLabel, iSel));
673  }
674  globalDerivativesY.push_back(derivs[iSel][kLocalY]
675  /thePedeSteer->cmsToPedeFactor(iSel));
676  }
677  }
678  // Exclude mothers if Alignable selected to be no part of a hierarchy:
679  if (thePedeSteer->isNoHiera(ali)) return true;
680  }
681  // Call recursively for mother, will stop if mother == 0:
682  return this->globalDerivativesHierarchy(eventInfo,
683  tsos, ali->mother(), alidet,
684  globalDerivativesX, globalDerivativesY,
685  globalLabels, lowestParams);
686 }
void fillFrameToFrame(const AlignableDetOrUnitPtr &aliDet, const Alignable *ali)
virtual unsigned int alignableLabel(Alignable *alignable) const =0
bool globalDerivativesHierarchy(const EventInfo &eventInfo, const TrajectoryStateOnSurface &tsos, Alignable *ali, const AlignableDetOrUnitPtr &alidet, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels, AlignmentParameters *&lowestParams) const
recursively adding derivatives and labels, false if problems
const std::vector< bool > & selector(void) const
Get alignment parameter selector vector.
AlignmentParameters * alignmentParameters() const
Get the AlignmentParameters.
Definition: Alignable.h:57
virtual unsigned int parameterLabel(unsigned int aliLabel, unsigned int parNum) const =0
returns the label for a given alignable parameter number combination
virtual AlgebraicMatrix derivatives(const TrajectoryStateOnSurface &tsos, const AlignableDetOrUnitPtr &alidet) const =0
Get derivatives of selected parameters.
CLHEP::HepMatrix AlgebraicMatrix
double cmsToPedeFactor(unsigned int parNum) const
Definition: PedeSteerer.cc:139
bool isNoHiera(const Alignable *ali) const
True if &#39;ali&#39; was deselected from hierarchy and any ancestor (e.g. mother) has parameters.
Definition: PedeSteerer.cc:133
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:85
virtual bool hasSplitParameters(Alignable *alignable) const =0
returns true if the alignable has parameters that are split into various bins
bool MillePedeAlignmentAlgorithm::globalDerivativesHierarchy ( const EventInfo eventInfo,
const TrajectoryStateOnSurface tsos,
Alignable ali,
const AlignableDetOrUnitPtr alidet,
std::vector< double > &  globalDerivativesX,
std::vector< double > &  globalDerivativesY,
std::vector< int > &  globalLabels,
AlignmentParameters *&  lowestParams 
) const
private

recursively adding derivatives (double) and labels, false if problems

Definition at line 690 of file MillePedeAlignmentAlgorithm.cc.

References Alignable::alignmentParameters(), ecal_dqm_sourceclient-live_cfg::cerr, AlignmentParameters::derivatives(), Alignable::mother(), and AlignmentParameters::selector().

697 {
698  // derivatives and labels are recursively attached
699  if (!ali) return true; // no mother might be OK
700 
701  if (false && theMonitor && alidet != ali) theMonitor->fillFrameToFrame(alidet, ali);
702 
703  AlignmentParameters *params = ali->alignmentParameters();
704 
705  if (params) {
706  if (!lowestParams) lowestParams = params; // set parameters of lowest level
707 
708  bool hasSplitParameters = thePedeLabels->hasSplitParameters(ali);
709  const unsigned int alignableLabel = thePedeLabels->alignableLabel(ali);
710 
711  if (0 == alignableLabel) { // FIXME: what about regardAllHits in Markus' code?
712  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::globalDerivativesHierarchy"
713  << "Label not found, skip Alignable.";
714  return false;
715  }
716 
717  const std::vector<bool> &selPars = params->selector();
718  const AlgebraicMatrix derivs(params->derivatives(tsos, alidet));
719  int globalLabel;
720 
721  // cols: 2, i.e. x&y, rows: parameters, usually RigidBodyAlignmentParameters::N_PARAM
722  for (unsigned int iSel = 0; iSel < selPars.size(); ++iSel) {
723  if (selPars[iSel]) {
724  if (hasSplitParameters==true) {
725  globalLabel = thePedeLabels->parameterLabel(ali, iSel, eventInfo, tsos);
726  } else {
727  globalLabel = thePedeLabels->parameterLabel(alignableLabel, iSel);
728  }
729  if (globalLabel > 0 && globalLabel <= 2147483647) {
730  globalLabels.push_back(globalLabel);
731  globalDerivativesX.push_back(derivs[iSel][kLocalX] / thePedeSteer->cmsToPedeFactor(iSel));
732  globalDerivativesY.push_back(derivs[iSel][kLocalY] / thePedeSteer->cmsToPedeFactor(iSel));
733  } else {
734  std::cerr << "MillePedeAlignmentAlgorithm::globalDerivativesHierarchy: Invalid label " << globalLabel << " <= 0 or > 2147483647" << std::endl;
735  }
736  }
737  }
738  // Exclude mothers if Alignable selected to be no part of a hierarchy:
739  if (thePedeSteer->isNoHiera(ali)) return true;
740  }
741  // Call recursively for mother, will stop if mother == 0:
742  return this->globalDerivativesHierarchy(eventInfo,
743  tsos, ali->mother(), alidet,
744  globalDerivativesX, globalDerivativesY,
745  globalLabels, lowestParams);
746 }
void fillFrameToFrame(const AlignableDetOrUnitPtr &aliDet, const Alignable *ali)
virtual unsigned int alignableLabel(Alignable *alignable) const =0
bool globalDerivativesHierarchy(const EventInfo &eventInfo, const TrajectoryStateOnSurface &tsos, Alignable *ali, const AlignableDetOrUnitPtr &alidet, std::vector< float > &globalDerivativesX, std::vector< float > &globalDerivativesY, std::vector< int > &globalLabels, AlignmentParameters *&lowestParams) const
recursively adding derivatives and labels, false if problems
const std::vector< bool > & selector(void) const
Get alignment parameter selector vector.
AlignmentParameters * alignmentParameters() const
Get the AlignmentParameters.
Definition: Alignable.h:57
virtual unsigned int parameterLabel(unsigned int aliLabel, unsigned int parNum) const =0
returns the label for a given alignable parameter number combination
virtual AlgebraicMatrix derivatives(const TrajectoryStateOnSurface &tsos, const AlignableDetOrUnitPtr &alidet) const =0
Get derivatives of selected parameters.
CLHEP::HepMatrix AlgebraicMatrix
double cmsToPedeFactor(unsigned int parNum) const
Definition: PedeSteerer.cc:139
bool isNoHiera(const Alignable *ali) const
True if &#39;ali&#39; was deselected from hierarchy and any ancestor (e.g. mother) has parameters.
Definition: PedeSteerer.cc:133
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:85
virtual bool hasSplitParameters(Alignable *alignable) const =0
returns true if the alignable has parameters that are split into various bins
void MillePedeAlignmentAlgorithm::initialize ( const edm::EventSetup setup,
AlignableTracker tracker,
AlignableMuon muon,
AlignableExtras extras,
AlignmentParameterStore store 
)
virtual

Called at beginning of job.

Implements AlignmentAlgorithmBase.

Definition at line 131 of file MillePedeAlignmentAlgorithm.cc.

References addPxbSurvey(), edm::ParameterSet::addUntrackedParameter(), AlignmentParameterStore::alignables(), AlignmentParameterStore::applyParameters(), PedeSteerer::buildSubSteer(), buildUserVariables(), relativeConstraints::empty, edm::hlt::Exception, edm::ParameterSet::exists(), reco::get(), edm::EventSetup::get(), edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), isMode(), myMilleBit, myPedeSteerBit, edm::ESHandle< class >::product(), readFromPede(), AlignmentParameterStore::resetParameters(), cond::runnumber, findQualityFiles::size, AlCaHLTBitMon_QueryRunRegistry::string, theAlignableNavigator, theAlignables, theAlignmentParameterStore, theConfig, theDir, theDoSurveyPixelBarrel, theMonitor, thePedeLabels, thePedeSteer, theTrajectoryFactory, and cond::timeTypeSpecs.

134 {
135  if (muon) {
136  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::initialize"
137  << "Running with AlignabeMuon not yet tested.";
138  }
139 
140  //Retrieve tracker topology from geometry
141  edm::ESHandle<TrackerTopology> tTopoHandle;
142  setup.get<TrackerTopologyRcd>().get(tTopoHandle);
143  const TrackerTopology* const tTopo = tTopoHandle.product();
144 
145  theAlignableNavigator = new AlignableNavigator(extras, tracker, muon);
148 
149  edm::ParameterSet pedeLabelerCfg(theConfig.getParameter<edm::ParameterSet>("pedeLabeler"));
150  edm::VParameterSet RunRangeSelectionVPSet(theConfig.getUntrackedParameter<edm::VParameterSet>("RunRangeSelection"));
151  pedeLabelerCfg.addUntrackedParameter<edm::VParameterSet>("RunRangeSelection",
152  RunRangeSelectionVPSet);
153 
154  std::string labelerPlugin = "PedeLabeler";
155  if (RunRangeSelectionVPSet.size()>0) {
156  labelerPlugin = "RunRangeDependentPedeLabeler";
157  if (pedeLabelerCfg.exists("plugin")) {
158  std::string labelerPluginCfg = pedeLabelerCfg.getParameter<std::string>("plugin");
159  if ((labelerPluginCfg!="PedeLabeler" && labelerPluginCfg!="RunRangeDependentPedeLabeler") ||
160  pedeLabelerCfg.getUntrackedParameter<edm::VParameterSet>("parameterInstances").size()>0) {
161  throw cms::Exception("BadConfig")
162  << "MillePedeAlignmentAlgorithm::initialize"
163  << "both RunRangeSelection and generic labeler specified in config file. "
164  << "Please get rid of either one of them.\n";
165  }
166  }
167  } else {
168  if (pedeLabelerCfg.exists("plugin")) {
169  labelerPlugin = pedeLabelerCfg.getParameter<std::string>("plugin");
170  }
171  }
172 
173  if (!pedeLabelerCfg.exists("plugin")) {
174  pedeLabelerCfg.addUntrackedParameter<std::string>("plugin", labelerPlugin);
175  }
176 
177  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::initialize"
178  << "Using plugin '" << labelerPlugin << "' to generate labels.";
179 
180  thePedeLabels = PedeLabelerPluginFactory::get()->create(labelerPlugin,
181  PedeLabelerBase::TopLevelAlignables(tracker, muon, extras),
182  pedeLabelerCfg);
183 
184  // 1) Create PedeSteerer: correct alignable positions for coordinate system selection
185  edm::ParameterSet pedeSteerCfg(theConfig.getParameter<edm::ParameterSet>("pedeSteerer"));
186  thePedeSteer = new PedeSteerer(tracker, muon, extras,
188  pedeSteerCfg, theDir, !this->isMode(myPedeSteerBit));
189 
190  // 2) If requested, directly read in and apply result of previous pede run,
191  // assuming that correction from 1) was also applied to create the result:
192  const std::vector<edm::ParameterSet> mprespset
193  (theConfig.getParameter<std::vector<edm::ParameterSet> >("pedeReaderInputs"));
194  if (!mprespset.empty()) {
195  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::initialize"
196  << "Apply " << mprespset.end() - mprespset.begin()
197  << " previous MillePede constants from 'pedeReaderInputs'.";
198  }
199 
200  // FIXME: add selection of run range via 'pedeReaderInputs'
201  // Note: Results for parameters of IntegratedCalibration's cannot be treated...
202  RunRange runrange(cond::timeTypeSpecs[cond::runnumber].beginValue,
204  for (std::vector<edm::ParameterSet>::const_iterator iSet = mprespset.begin(), iE = mprespset.end();
205  iSet != iE; ++iSet) {
206  // This read will ignore calibrations as long as they are not yet passed to Millepede
207  // during/before initialize(..) - currently addCalibrations(..) is called later in AlignmentProducer
208  if (!this->readFromPede((*iSet), false, runrange)) { // false: do not erase SelectionUserVariables
209  throw cms::Exception("BadConfig")
210  << "MillePedeAlignmentAlgorithm::initialize: Problems reading input constants of "
211  << "pedeReaderInputs entry " << iSet - mprespset.begin() << '.';
212  }
214  // Needed to shut up later warning from checkAliParams:
216  }
217 
218  // 3) Now create steerings with 'final' start position:
219  thePedeSteer->buildSubSteer(tracker, muon, extras);
220 
221  // After (!) 1-3 of PedeSteerer which uses the SelectionUserVariables attached to the parameters:
222  this->buildUserVariables(theAlignables); // for hit statistics and/or pede result
223 
224  if (this->isMode(myMilleBit)) {
225  if (!theConfig.getParameter<std::vector<std::string> >("mergeBinaryFiles").empty() ||
226  !theConfig.getParameter<std::vector<std::string> >("mergeTreeFiles").empty()) {
227  throw cms::Exception("BadConfig")
228  << "'vstring mergeTreeFiles' and 'vstring mergeBinaryFiles' must be empty for "
229  << "modes running mille.";
230  }
231  const std::string moniFile(theConfig.getUntrackedParameter<std::string>("monitorFile"));
232  if (moniFile.size()) theMonitor = new MillePedeMonitor(tTopo, (theDir + moniFile).c_str());
233 
234  // Get trajectory factory. In case nothing found, FrameWork will throw...
235  const edm::ParameterSet fctCfg(theConfig.getParameter<edm::ParameterSet>("TrajectoryFactory"));
236  const std::string fctName(fctCfg.getParameter<std::string>("TrajectoryFactoryName"));
237  theTrajectoryFactory = TrajectoryFactoryPlugin::get()->create(fctName, fctCfg);
238  }
239 
240  if (this->isMode(myPedeSteerBit)) {
241  // Get config for survey and set flag accordingly
242  const edm::ParameterSet pxbSurveyCfg(theConfig.getParameter<edm::ParameterSet>("surveyPixelBarrel"));
243  theDoSurveyPixelBarrel = pxbSurveyCfg.getParameter<bool>("doSurvey");
244  if (theDoSurveyPixelBarrel) this->addPxbSurvey(pxbSurveyCfg);
245  }
246 }
const TimeTypeSpecs timeTypeSpecs[]
Definition: Time.cc:22
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
void resetParameters(void)
reset parameters, correlations, user variables
std::vector< Alignable * > theAlignables
std::vector< ParameterSet > VParameterSet
Definition: ParameterSet.h:33
void applyParameters(void)
Obsolete: Use AlignableNavigator::alignableDetFromDetId and alignableFromAlignableDet.
bool isMode(unsigned int testMode) const
std::pair< RunNumber, RunNumber > RunRange
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
bool readFromPede(const edm::ParameterSet &mprespset, bool setUserVars, const RunRange &runrange)
read pede input defined by &#39;psetName&#39;, flag to create/not create MillePedeVariables ...
void buildSubSteer(AlignableTracker *aliTracker, AlignableMuon *aliMuon, AlignableExtras *aliExtras)
construct steering files about hierarchy, fixing etc. an keep track of their names ...
Definition: PedeSteerer.cc:673
const T & get() const
Definition: EventSetup.h:55
T const * product() const
Definition: ESHandle.h:86
void buildUserVariables(const std::vector< Alignable * > &alignables) const
add MillePedeVariables for each AlignmentParameters (exception if no parameters...)
TrajectoryFactoryBase * theTrajectoryFactory
void addPxbSurvey(const edm::ParameterSet &pxbSurveyCfg)
add measurement data from PXB survey
tuple size
Write out results.
T get(const Candidate &c)
Definition: component.h:55
const align::Alignables & alignables(void) const
get all alignables
bool MillePedeAlignmentAlgorithm::is2D ( const TransientTrackingRecHit::ConstRecHitPointer recHit) const
private

true if hit belongs to 2D detector (currently tracker specific)

Definition at line 805 of file MillePedeAlignmentAlgorithm.cc.

806 {
807  // FIXME: Check whether this is a reliable and recommended way to find out...
808 
809  if (recHit->dimension() < 2) {
810  return false; // some muon and TIB/TOB stuff really has RecHit1D
811  } else if (recHit->detUnit()) { // detunit in strip is 1D, in pixel 2D
812  return recHit->detUnit()->type().isTrackerPixel();
813  } else { // stereo strips (FIXME: endcap trouble due to non-parallel strips (wedge sensors)?)
814  if (dynamic_cast<const ProjectedSiStripRecHit2D*>(recHit->hit())) { // check persistent hit
815  // projected: 1D measurement on 'glued' module
816  return false;
817  } else {
818  return true;
819  }
820  }
821 }
bool MillePedeAlignmentAlgorithm::isMode ( unsigned int  testMode) const
inlineprivate
void MillePedeAlignmentAlgorithm::makeGlobDerivMatrix ( const std::vector< float > &  globalDerivativesx,
const std::vector< float > &  globalDerivativesy,
TMatrixF &  aGlobalDerivativesM 
)
private

Definition at line 1042 of file MillePedeAlignmentAlgorithm.cc.

References i.

1045 {
1046 
1047  for (unsigned int i = 0; i < globalDerivativesx.size(); ++i) {
1048  aGlobalDerivativesM(0,i) = globalDerivativesx[i];
1049  aGlobalDerivativesM(1,i) = globalDerivativesy[i];
1050  }
1051 }
int i
Definition: DBlmapReader.cc:9
bool MillePedeAlignmentAlgorithm::processesEvents ( )
overridevirtual

Returns whether MP should process events in the current configuration.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 262 of file MillePedeAlignmentAlgorithm.cc.

References isMode(), and myMilleBit.

263 {
264  if (isMode(myMilleBit)) {
265  return true;
266  } else {
267  return false;
268  }
269 }
bool isMode(unsigned int testMode) const
bool MillePedeAlignmentAlgorithm::readFromPede ( const edm::ParameterSet mprespset,
bool  setUserVars,
const RunRange runrange 
)
private

read pede input defined by 'psetName', flag to create/not create MillePedeVariables

Definition at line 824 of file MillePedeAlignmentAlgorithm.cc.

References areEmptyParams(), dbtoconf::out, PedeReader::read(), matplotRender::reader, theAlignables, thePedeLabels, and thePedeSteer.

Referenced by initialize(), and setParametersForRunRange().

826 {
827  bool allEmpty = this->areEmptyParams(theAlignables);
828 
829  PedeReader reader(mprespset, *thePedeSteer, *thePedeLabels, runrange);
830  std::vector<Alignable*> alis;
831  bool okRead = reader.read(alis, setUserVars); // also may set params of IntegratedCalibration's
832  bool numMatch = true;
833 
834  std::stringstream out;
835  out << "Read " << alis.size() << " alignables";
836  if (alis.size() != theAlignables.size()) {
837  out << " while " << theAlignables.size() << " in store";
838  numMatch = false; // FIXME: Should we check one by one? Or transfer 'alis' to the store?
839  }
840  if (!okRead) out << ", but problems in reading";
841  if (!allEmpty) out << ", possibly overwriting previous settings";
842  out << ".";
843 
844  if (okRead && allEmpty) {
845  if (numMatch) { // as many alignables with result as trying to align
846  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
847  } else if (alis.size()) { // dead module do not get hits and no pede result
848  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
849  } else { // serious problem: no result read - and not all modules can be dead...
850  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
851  return false;
852  }
853  return true;
854  }
855  // the rest is not OK:
856  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
857  return false;
858 }
std::vector< Alignable * > theAlignables
tuple out
Definition: dbtoconf.py:99
bool areEmptyParams(const std::vector< Alignable * > &alignables) const
void MillePedeAlignmentAlgorithm::run ( const edm::EventSetup setup,
const EventInfo eventInfo 
)
virtual

Run the algorithm on trajectories and tracks.

Implements AlignmentAlgorithmBase.

Definition at line 368 of file MillePedeAlignmentAlgorithm.cc.

References addReferenceTrajectory(), AlignmentAlgorithmBase::EventInfo::beamSpot(), MillePedeMonitor::fillRefTrajectory(), MillePedeMonitor::fillTrack(), MillePedeMonitor::fillUsedTrack(), isMode(), myMilleBit, theMonitor, theTrajectoryFactory, testEve_cfg::tracks, TrajectoryFactoryBase::trajectories(), HLT_25ns14e33_v1_cff::trajectories, and AlignmentAlgorithmBase::EventInfo::trajTrackPairs().

Referenced by Types.EventID::cppID(), and Types.LuminosityBlockID::cppID().

369 {
370  if (!this->isMode(myMilleBit)) return; // no theMille created...
372 
373  if (theMonitor) { // monitor input tracks
374  for (ConstTrajTrackPairCollection::const_iterator iTrajTrack = tracks.begin();
375  iTrajTrack != tracks.end(); ++iTrajTrack) {
376  theMonitor->fillTrack((*iTrajTrack).second);
377  }
378  }
379 
380  const RefTrajColl trajectories(theTrajectoryFactory->trajectories(setup, tracks, eventInfo.beamSpot()));
381 
382  // Now loop over ReferenceTrajectoryCollection
383  unsigned int refTrajCount = 0; // counter for track monitoring if 1 track per trajectory
384  for (RefTrajColl::const_iterator iRefTraj = trajectories.begin(), iRefTrajE = trajectories.end();
385  iRefTraj != iRefTrajE; ++iRefTraj, ++refTrajCount) {
386 
387  RefTrajColl::value_type refTrajPtr = *iRefTraj;
388  if (theMonitor) theMonitor->fillRefTrajectory(refTrajPtr);
389 
390  const std::pair<unsigned int, unsigned int> nHitXy
391  = this->addReferenceTrajectory(setup, eventInfo, refTrajPtr);
392 
393  if (theMonitor && (nHitXy.first || nHitXy.second)) {
394  // if track used (i.e. some hits), fill monitoring
395  // track NULL ptr if trajectories and tracks do not match
396  const reco::Track *trackPtr =
397  (trajectories.size() == tracks.size() ? tracks[refTrajCount].second : 0);
398  theMonitor->fillUsedTrack(trackPtr, nHitXy.first, nHitXy.second);
399  }
400 
401  } // end of reference trajectory and track loop
402 }
TrajectoryFactoryBase::ReferenceTrajectoryCollection RefTrajColl
const ConstTrajTrackPairCollection & trajTrackPairs() const
bool isMode(unsigned int testMode) const
void fillUsedTrack(const reco::Track *track, unsigned int nHitX, unsigned int nHitY)
Container::value_type value_type
std::pair< unsigned int, unsigned int > addReferenceTrajectory(const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr)
fill mille for a trajectory, returning number of x/y hits ([0,0] if &#39;bad&#39; trajectory) ...
tuple tracks
Definition: testEve_cfg.py:39
void fillTrack(const reco::Track *track)
TrajectoryFactoryBase * theTrajectoryFactory
const reco::BeamSpot & beamSpot() const
virtual const ReferenceTrajectoryCollection trajectories(const edm::EventSetup &setup, const ConstTrajTrackPairCollection &tracks, const reco::BeamSpot &beamSpot) const =0
void fillRefTrajectory(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr)
std::vector< ConstTrajTrackPair > ConstTrajTrackPairCollection
bool MillePedeAlignmentAlgorithm::setParametersForRunRange ( const RunRange runrange)
virtual

Called in order to pass parameters to alignables for a specific run range in case the algorithm supports run range dependent alignment.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 272 of file MillePedeAlignmentAlgorithm.cc.

References AlignmentParameterStore::applyParameters(), buildUserVariables(), doIO(), edm::ParameterSet::getParameter(), isMode(), myPedeReadBit, readFromPede(), AlignmentParameterStore::resetParameters(), AlignmentParameterStore::restoreCachedTransformations(), theAlignables, theAlignmentParameterStore, theConfig, and theLastWrittenIov.

273 {
274  if (this->isMode(myPedeReadBit)) {
275  // restore initial positions, rotations and deformations
277 
278  // Needed to shut up later warning from checkAliParams:
280  // To avoid that they keep values from previous IOV if no new one in pede result
282 
283  if (!this->readFromPede(theConfig.getParameter<edm::ParameterSet>("pedeReader"), true, runrange)) {
284  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::setParametersForRunRange"
285  << "Problems reading pede result, but applying!";
286  }
288 
289  this->doIO(++theLastWrittenIov); // pre-increment!
290  }
291 
292  return true;
293 }
T getParameter(std::string const &) const
void resetParameters(void)
reset parameters, correlations, user variables
std::vector< Alignable * > theAlignables
void restoreCachedTransformations(void)
restore the previously cached position, rotation and other parameters
void applyParameters(void)
Obsolete: Use AlignableNavigator::alignableDetFromDetId and alignableFromAlignableDet.
unsigned int doIO(int loop) const
bool isMode(unsigned int testMode) const
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
bool readFromPede(const edm::ParameterSet &mprespset, bool setUserVars, const RunRange &runrange)
read pede input defined by &#39;psetName&#39;, flag to create/not create MillePedeVariables ...
void buildUserVariables(const std::vector< Alignable * > &alignables) const
add MillePedeVariables for each AlignmentParameters (exception if no parameters...)
bool MillePedeAlignmentAlgorithm::supportsCalibrations ( )
overridevirtual

Returns whether MP supports calibrations.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 249 of file MillePedeAlignmentAlgorithm.cc.

249  {
250  return true;
251 }
void MillePedeAlignmentAlgorithm::terminate ( const edm::EventSetup iSetup)
virtual

Called at end of job.

Implements AlignmentAlgorithmBase.

Definition at line 297 of file MillePedeAlignmentAlgorithm.cc.

References terminate().

298 {
299  terminate();
300 }
virtual void terminate()
Called at end of job.
void MillePedeAlignmentAlgorithm::terminate ( void  )
virtual

Called at end of job.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 301 of file MillePedeAlignmentAlgorithm.cc.

References PedeSteerer::buildMasterSteer(), AlignmentParameterStore::cacheTransformations(), doIO(), MainPageGenerator::files, getExistingFormattedFiles(), edm::ParameterSet::getParameter(), i, isMode(), myMilleBit, myPedeRunBit, PedeSteerer::runPede(), AlCaHLTBitMon_QueryRunRegistry::string, theAlignmentParameterStore, theConfig, theDir, theLastWrittenIov, theMille, and thePedeSteer.

Referenced by terminate().

302 {
303  delete theMille;// delete to close binary before running pede below (flush would be enough...)
304  theMille = 0;
305 
306  std::vector<std::string> files;
307  if (this->isMode(myMilleBit) || !theConfig.getParameter<std::string>("binaryFile").empty()) {
308  files.push_back(theDir + theConfig.getParameter<std::string>("binaryFile"));
309  } else {
310  const std::vector<std::string> plainFiles(theConfig.getParameter<std::vector<std::string> >("mergeBinaryFiles"));
311  files = getExistingFormattedFiles(plainFiles, theDir);
312  // Do some logging:
313  std::string filesForLogOutput;
314  for (std::vector<std::string>::const_iterator i = files.begin(), iEnd = files.end(); i != iEnd; ++i) {
315  filesForLogOutput += " " + *i;
316  }
317  edm::LogInfo("Alignment") << "Based on the config parameter mergeBinaryFiles, using the following files as input:" << filesForLogOutput;
318  }
319 
320  // cache all positions, rotations and deformations
322 
323  const std::string masterSteer(thePedeSteer->buildMasterSteer(files));// do only if myPedeSteerBit?
324  if (this->isMode(myPedeRunBit)) {
325  thePedeSteer->runPede(masterSteer);
326  }
327 
328  // parameters from pede are not yet applied,
329  // so we can still write start positions (but with hit statistics in case of mille):
330  this->doIO(0);
331  theLastWrittenIov = 0;
332 }
T getParameter(std::string const &) const
int i
Definition: DBlmapReader.cc:9
unsigned int doIO(int loop) const
bool isMode(unsigned int testMode) const
int runPede(const std::string &masterSteer) const
run pede, masterSteer should be as returned from buildMasterSteer(...)
Definition: PedeSteerer.cc:794
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
std::string buildMasterSteer(const std::vector< std::string > &binaryFiles)
construct (and return name of) master steering file from config, binaryFiles etc. ...
Definition: PedeSteerer.cc:754
std::vector< std::string > getExistingFormattedFiles(const std::vector< std::string > plainFiles, std::string theDir)
void cacheTransformations(void)
cache the current position, rotation and other parameters

Member Data Documentation

AlignableNavigator* MillePedeAlignmentAlgorithm::theAlignableNavigator
private
std::vector<Alignable*> MillePedeAlignmentAlgorithm::theAlignables
private
AlignmentParameterStore* MillePedeAlignmentAlgorithm::theAlignmentParameterStore
private

directory for all kind of files

Definition at line 236 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize(), setParametersForRunRange(), and terminate().

MilleBinary* MillePedeAlignmentAlgorithm::theBinary
private
std::vector<IntegratedCalibrationBase*> MillePedeAlignmentAlgorithm::theCalibrations
private
edm::ParameterSet MillePedeAlignmentAlgorithm::theConfig
private
std::string MillePedeAlignmentAlgorithm::theDir
private
bool MillePedeAlignmentAlgorithm::theDoSurveyPixelBarrel
private

Definition at line 252 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize().

std::vector<float> MillePedeAlignmentAlgorithm::theFloatBufferX
private

Definition at line 249 of file MillePedeAlignmentAlgorithm.h.

Referenced by addLasBeam(), and addMeasurementData().

std::vector<float> MillePedeAlignmentAlgorithm::theFloatBufferY
private

Definition at line 250 of file MillePedeAlignmentAlgorithm.h.

Referenced by addLasBeam(), and addMeasurementData().

bool MillePedeAlignmentAlgorithm::theGblDoubleBinary
private

Definition at line 255 of file MillePedeAlignmentAlgorithm.h.

Referenced by MillePedeAlignmentAlgorithm().

std::vector<int> MillePedeAlignmentAlgorithm::theIntBuffer
private

Definition at line 251 of file MillePedeAlignmentAlgorithm.h.

Referenced by addGlobalData(), addLasBeam(), and addMeasurementData().

int MillePedeAlignmentAlgorithm::theLastWrittenIov
private

maximal correlation allowed for 2D hit in TID/TEC. If larger, the 2D measurement gets diagonalized!!!

Definition at line 248 of file MillePedeAlignmentAlgorithm.h.

Referenced by setParametersForRunRange(), and terminate().

double MillePedeAlignmentAlgorithm::theMaximalCor2D
private

Definition at line 246 of file MillePedeAlignmentAlgorithm.h.

Mille* MillePedeAlignmentAlgorithm::theMille
private
unsigned int MillePedeAlignmentAlgorithm::theMinNumHits
private

Definition at line 245 of file MillePedeAlignmentAlgorithm.h.

Referenced by addReferenceTrajectory().

unsigned int MillePedeAlignmentAlgorithm::theMode
private

Definition at line 234 of file MillePedeAlignmentAlgorithm.h.

Referenced by isMode().

MillePedeMonitor* MillePedeAlignmentAlgorithm::theMonitor
private
PedeLabelerBase* MillePedeAlignmentAlgorithm::thePedeLabels
private
PedeSteerer* MillePedeAlignmentAlgorithm::thePedeSteer
private
TrajectoryFactoryBase* MillePedeAlignmentAlgorithm::theTrajectoryFactory
private

Definition at line 243 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize(), run(), and ~MillePedeAlignmentAlgorithm().