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MillePedeAlignmentAlgorithm Class Reference

#include <MillePedeAlignmentAlgorithm.h>

Inheritance diagram for MillePedeAlignmentAlgorithm:
AlignmentAlgorithmBase

Public Member Functions

bool addCalibrations (const std::vector< IntegratedCalibrationBase *> &iCals) override
 Pass integrated calibrations to Millepede (they are not owned by Millepede!) More...
 
void beginLuminosityBlock (const edm::EventSetup &) override
 called at begin of luminosity block (resets Mille binary in mille mode) More...
 
void beginRun (const edm::Run &run, const edm::EventSetup &setup, bool changed) override
 called at begin of run More...
 
void endLuminosityBlock (const edm::EventSetup &) override
 called at end of luminosity block More...
 
virtual void endRun (const EventInfo &, const EndRunInfo &, const edm::EventSetup &)
 Run on run products, e.g. TkLAS. More...
 
void endRun (const EndRunInfo &runInfo, const edm::EventSetup &setup) override
 called at end of run - order of arguments like in EDProducer etc. More...
 
void initialize (const edm::EventSetup &setup, AlignableTracker *tracker, AlignableMuon *muon, AlignableExtras *extras, AlignmentParameterStore *store) override
 Called at beginning of job. More...
 
 MillePedeAlignmentAlgorithm (const edm::ParameterSet &cfg, edm::ConsumesCollector &iC)
 Constructor. More...
 
bool processesEvents () override
 Returns whether MP should process events in the current configuration. More...
 
void run (const edm::EventSetup &setup, const EventInfo &eventInfo) override
 Run the algorithm on trajectories and tracks. More...
 
bool setParametersForRunRange (const RunRange &runrange) override
 
bool storeAlignments () override
 Returns whether MP produced results to be stored. More...
 
virtual bool storeThresholds (const int &nRecords, const AlignPCLThresholdsHG::threshold_map &thresholdMap, const AlignPCLThresholdsHG::param_map &floatMap)
 
bool supportsCalibrations () override
 Returns whether MP supports calibrations. More...
 
void terminate (const edm::EventSetup &iSetup) override
 Called at end of job. More...
 
void terminate () override
 Called at end of job. More...
 
 ~MillePedeAlignmentAlgorithm () override
 Destructor. More...
 
- Public Member Functions inherited from AlignmentAlgorithmBase
virtual bool addCalibrations (const Calibrations &)
 
bool addCalibrations (const CalibrationsOwner &cals)
 
 AlignmentAlgorithmBase (const edm::ParameterSet &, const edm::ConsumesCollector &)
 Constructor. 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, gbl::GblPoint &gblPoint)
 
unsigned int addHitCount (const std::vector< AlignmentParameters *> &parVec, const std::vector< bool > &validHitVecY) const
 
bool addHits (const align::Alignables &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...
 
template<typename CovarianceMatrix , typename ResidualMatrix , typename LocalDerivativeMatrix >
void addRefTrackData2D (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, Eigen::MatrixBase< CovarianceMatrix > &aHitCovarianceM, Eigen::MatrixBase< ResidualMatrix > &aHitResidualsM, Eigen::MatrixBase< LocalDerivativeMatrix > &aLocalDerivativesM)
 adds data from reference trajectory from a specific Hit More...
 
template<typename CovarianceMatrix , typename ResidualMatrix , typename LocalDerivativeMatrix >
void addRefTrackVirtualMeas1D (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iVirtualMeas, Eigen::MatrixBase< CovarianceMatrix > &aHitCovarianceM, Eigen::MatrixBase< ResidualMatrix > &aHitResidualsM, Eigen::MatrixBase< LocalDerivativeMatrix > &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 align::Alignables &alignables) const
 
bool areIOVsSpecified () const
 
void buildUserVariables (const align::Alignables &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
 
template<typename CovarianceMatrix , typename LocalDerivativeMatrix , typename ResidualMatrix , typename GlobalDerivativeMatrix >
void diagonalize (Eigen::MatrixBase< CovarianceMatrix > &aHitCovarianceM, Eigen::MatrixBase< LocalDerivativeMatrix > &aLocalDerivativesM, Eigen::MatrixBase< ResidualMatrix > &aHitResidualsM, Eigen::MatrixBase< GlobalDerivativeMatrix > &aGlobalDerivativesM) const
 
unsigned int doIO (int loop) const
 
std::vector< std::string > getExistingFormattedFiles (const std::vector< std::string > &plainFiles, const 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
 
template<typename GlobalDerivativeMatrix >
void makeGlobDerivMatrix (const std::vector< float > &globalDerivativesx, const std::vector< float > &globalDerivativesy, Eigen::MatrixBase< GlobalDerivativeMatrix > &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

const edm::ESGetToken< AlignPCLThresholdsHG, AlignPCLThresholdsHGRcdaliThrToken_
 
std::vector< align::RunNumbercachedRuns_
 
const bool enableAlignableUpdates_
 
const bool enforceSingleIOVInput_
 
const align::RunNumber firstIOV_
 
const edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecordgeomToken_
 
const bool ignoreFirstIOVCheck_
 
const bool ignoreHitsWithoutGlobalDerivatives_
 
align::RunNumber lastProcessedRun_
 
std::shared_ptr< PixelTopologyMappixelTopologyMap
 
const bool runAtPCL_
 
const bool skipGlobalPositionRcdCheck_
 
std::unique_ptr< AlignableNavigatortheAlignableNavigator
 
align::Alignables theAlignables
 
AlignmentParameterStoretheAlignmentParameterStore
 directory for all kind of files More...
 
std::unique_ptr< gbl::MilleBinary > theBinary
 
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
 
std::unique_ptr< MilletheMille
 
unsigned int theMinNumHits
 
unsigned int theMode
 
std::unique_ptr< MillePedeMonitortheMonitor
 
std::shared_ptr< PedeLabelerBasethePedeLabels
 
std::unique_ptr< PedeSteererthePedeSteer
 
std::shared_ptr< AlignPCLThresholdsHGtheThresholds
 
std::unique_ptr< TrajectoryFactoryBasetheTrajectoryFactory
 
const edm::ESGetToken< TrackerTopology, TrackerTopologyRcdtopoToken_
 
const align::RunRanges uniqueRunRanges_
 

Additional Inherited Members

- Public Types inherited from AlignmentAlgorithmBase
typedef std::pair< const Trajectory *, const reco::Track * > ConstTrajTrackPair
 
typedef std::vector< ConstTrajTrackPairConstTrajTrackPairCollection
 
using RunNumber = align::RunNumber
 
using RunRange = align::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 63 of file MillePedeAlignmentAlgorithm.h.

Member Enumeration Documentation

◆ EModeBit

◆ MeasurementDirection

Constructor & Destructor Documentation

◆ MillePedeAlignmentAlgorithm()

MillePedeAlignmentAlgorithm::MillePedeAlignmentAlgorithm ( const edm::ParameterSet cfg,
edm::ConsumesCollector iC 
)

Constructor.

Definition at line 87 of file MillePedeAlignmentAlgorithm.cc.

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

92  theConfig(cfg),
96  theAlignables(),
99  .getParameter<std::string>("TrajectoryFactoryName"),
100  theConfig.getParameter<edm::ParameterSet>("TrajectoryFactory"),
101  iC)),
102  theMinNumHits(cfg.getParameter<unsigned int>("minNumHits")),
103  theMaximalCor2D(cfg.getParameter<double>("max2Dcorrelation")),
104  firstIOV_(cfg.getUntrackedParameter<AlignmentAlgorithmBase::RunNumber>("firstIOV")),
105  ignoreFirstIOVCheck_(cfg.getUntrackedParameter<bool>("ignoreFirstIOVCheck")),
106  enableAlignableUpdates_(cfg.getUntrackedParameter<bool>("enableAlignableUpdates")),
108  theGblDoubleBinary(cfg.getParameter<bool>("doubleBinary")),
109  runAtPCL_(cfg.getParameter<bool>("runAtPCL")),
110  ignoreHitsWithoutGlobalDerivatives_(cfg.getParameter<bool>("ignoreHitsWithoutGlobalDerivatives")),
111  skipGlobalPositionRcdCheck_(cfg.getParameter<bool>("skipGlobalPositionRcdCheck")),
112  uniqueRunRanges_(align::makeUniqueRunRanges(cfg.getUntrackedParameter<edm::VParameterSet>("RunRangeSelection"),
116  if (!theDir.empty() && theDir.find_last_of('/') != theDir.size() - 1)
117  theDir += '/'; // may need '/'
118  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm"
119  << "Start in mode '" << theConfig.getUntrackedParameter<std::string>("mode")
120  << "' with output directory '" << theDir << "'.";
121  if (this->isMode(myMilleBit)) {
122  theMille = std::make_unique<Mille>(
123  (theDir + theConfig.getParameter<std::string>("binaryFile")).c_str()); // add ', false);' for text output);
124  // use same file for GBL
125  theBinary = std::make_unique<MilleBinary>((theDir + theConfig.getParameter<std::string>("binaryFile")).c_str(),
127  }
128 }
const TimeTypeSpecs timeTypeSpecs[]
Definition: Time.cc:16
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
def create(alignables, pedeDump, additionalData, outputFile, config)
Time_t beginValue
Definition: Time.h:41
std::vector< ParameterSet > VParameterSet
Definition: ParameterSet.h:35
std::unique_ptr< TrajectoryFactoryBase > theTrajectoryFactory
std::unique_ptr< gbl::MilleBinary > theBinary
bool isMode(unsigned int testMode) const
const edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecord > geomToken_
T getUntrackedParameter(std::string const &, T const &) const
const edm::ESGetToken< TrackerTopology, TrackerTopologyRcd > topoToken_
RunRanges makeUniqueRunRanges(const edm::VParameterSet &runRanges, const RunNumber &defaultRun)
Definition: Utilities.cc:241
const edm::ESGetToken< AlignPCLThresholdsHG, AlignPCLThresholdsHGRcd > aliThrToken_
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
unsigned int decodeMode(const std::string &mode) const
AlignmentAlgorithmBase(const edm::ParameterSet &, const edm::ConsumesCollector &)
Constructor.
Log< level::Info, false > LogInfo
#define get

◆ ~MillePedeAlignmentAlgorithm()

MillePedeAlignmentAlgorithm::~MillePedeAlignmentAlgorithm ( )
override

Destructor.

Definition at line 132 of file MillePedeAlignmentAlgorithm.cc.

132 {}

Member Function Documentation

◆ addCalibrations()

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

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

Definition at line 302 of file MillePedeAlignmentAlgorithm.cc.

References theCalibrations, and thePedeLabels.

302  {
303  theCalibrations.insert(theCalibrations.end(), iCals.begin(), iCals.end());
304  thePedeLabels->addCalibrations(iCals);
305  return true;
306 }
std::shared_ptr< PedeLabelerBase > thePedeLabels
std::vector< IntegratedCalibrationBase * > theCalibrations

◆ addGlobalData()

int MillePedeAlignmentAlgorithm::addGlobalData ( const edm::EventSetup setup,
const EventInfo eventInfo,
const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iHit,
gbl::GblPoint &  gblPoint 
)
private

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

Definition at line 791 of file MillePedeAlignmentAlgorithm.cc.

References dumpTauVariables_cfi::eventInfo, globalDerivativesHierarchy(), mps_fire::i, submitPVValidationJobs::params, singleTopDQM_cfi::setup, theAlignableNavigator, theCalibrations, theIntBuffer, and thePedeLabels.

Referenced by addReferenceTrajectory().

795  {
796  AlignmentParameters *params = nullptr;
797  std::vector<double> theDoubleBufferX, theDoubleBufferY;
798  theDoubleBufferX.clear();
799  theDoubleBufferY.clear();
800  theIntBuffer.clear();
801  int iret = 0;
802 
803  const TrajectoryStateOnSurface &tsos = refTrajPtr->trajectoryStates()[iHit];
804  const ConstRecHitPointer &recHitPtr = refTrajPtr->recHits()[iHit];
805  // ignore invalid hits
806  if (!recHitPtr->isValid())
807  return 0;
808 
809  // get AlignableDet/Unit for this hit
810  AlignableDetOrUnitPtr alidet(theAlignableNavigator->alignableFromDetId(recHitPtr->geographicalId()));
811 
812  if (!this->globalDerivativesHierarchy(eventInfo,
813  tsos,
814  alidet,
815  alidet,
816  theDoubleBufferX, // 2x alidet, sic!
817  theDoubleBufferY,
818  theIntBuffer,
819  params)) {
820  return -1; // problem
821  }
822  //calibration parameters
823  int globalLabel;
824  std::vector<IntegratedCalibrationBase::ValuesIndexPair> derivs;
825  for (auto iCalib = theCalibrations.begin(); iCalib != theCalibrations.end(); ++iCalib) {
826  // get all derivatives of this calibration // const unsigned int num =
827  (*iCalib)->derivatives(derivs, *recHitPtr, tsos, setup, eventInfo);
828  for (auto iValuesInd = derivs.begin(); iValuesInd != derivs.end(); ++iValuesInd) {
829  // transfer label and x/y derivatives
830  globalLabel = thePedeLabels->calibrationLabel(*iCalib, iValuesInd->second);
831  if (globalLabel > 0 && globalLabel <= 2147483647) {
832  theIntBuffer.push_back(globalLabel);
833  theDoubleBufferX.push_back(iValuesInd->first.first);
834  theDoubleBufferY.push_back(iValuesInd->first.second);
835  } else {
836  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addGlobalData"
837  << "Invalid label " << globalLabel << " <= 0 or > 2147483647";
838  }
839  }
840  }
841  unsigned int numGlobals = theIntBuffer.size();
842  if (numGlobals > 0) {
843  Eigen::Matrix<double, 2, Eigen::Dynamic> globalDer{2, numGlobals};
844  for (unsigned int i = 0; i < numGlobals; ++i) {
845  globalDer(0, i) = theDoubleBufferX[i];
846  globalDer(1, i) = theDoubleBufferY[i];
847  }
848  gblPoint.addGlobals(theIntBuffer, globalDer);
849  iret = 1;
850  }
851  return iret;
852 }
std::shared_ptr< PedeLabelerBase > thePedeLabels
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
Log< level::Error, false > LogError
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
std::vector< IntegratedCalibrationBase * > theCalibrations
eventInfo
add run, event number and lumi section
std::unique_ptr< AlignableNavigator > theAlignableNavigator

◆ addHitCount()

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 602 of file MillePedeAlignmentAlgorithm.cc.

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

Referenced by addReferenceTrajectory().

603  {
604  // Loop on all hit information in the input arrays and count valid y-hits:
605  unsigned int nHitY = 0;
606  for (unsigned int iHit = 0; iHit < validHitVecY.size(); ++iHit) {
607  Alignable *ali = (parVec[iHit] ? parVec[iHit]->alignable() : nullptr);
608  // Loop upwards on hierarchy of alignables to add hits to all levels
609  // that are currently aligned. If only a non-selected alignable was hit,
610  // (i.e. flagXY == 0 in addReferenceTrajectory(..)), there is no loop at all...
611  while (ali) {
613  if (pars) { // otherwise hierarchy level not selected
614  // cast ensured by previous checks:
615  MillePedeVariables *mpVar = static_cast<MillePedeVariables *>(pars->userVariables());
616  // every hit has an x-measurement, cf. addReferenceTrajectory(..):
617  mpVar->increaseHitsX();
618  if (validHitVecY[iHit]) {
619  mpVar->increaseHitsY();
620  if (pars == parVec[iHit])
621  ++nHitY; // do not count hits twice
622  }
623  }
624  ali = ali->mother();
625  }
626  }
627 
628  return nHitY;
629 }
AlignmentParameters * alignmentParameters() const
Get the AlignmentParameters.
Definition: Alignable.h:58
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:91
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.

◆ addHits()

bool MillePedeAlignmentAlgorithm::addHits ( const align::Alignables alis,
const std::vector< AlignmentUserVariables *> &  mpVars 
) const
private

Definition at line 1236 of file MillePedeAlignmentAlgorithm.cc.

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

Referenced by addHitStatistics().

1237  {
1238  bool allOk = (mpVars.size() == alis.size());
1239  std::vector<AlignmentUserVariables *>::const_iterator iUser = mpVars.begin();
1240  for (auto iAli = alis.cbegin(); iAli != alis.cend() && iUser != mpVars.end(); ++iAli, ++iUser) {
1241  MillePedeVariables *mpVarNew = dynamic_cast<MillePedeVariables *>(*iUser);
1242  AlignmentParameters *ps = (*iAli)->alignmentParameters();
1243  MillePedeVariables *mpVarOld = (ps ? dynamic_cast<MillePedeVariables *>(ps->userVariables()) : nullptr);
1244  if (!mpVarNew || !mpVarOld || mpVarOld->size() != mpVarNew->size()) {
1245  allOk = false;
1246  continue; // FIXME error etc.?
1247  }
1248 
1249  mpVarOld->increaseHitsX(mpVarNew->hitsX());
1250  mpVarOld->increaseHitsY(mpVarNew->hitsY());
1251  }
1252 
1253  return allOk;
1254 }
void increaseHitsX(unsigned int add=1)
increase hits for x-measurement
void increaseHitsY(unsigned int add=1)
increase hits for y-measurement
unsigned int hitsX() const
get number of hits for x-measurement
AlignmentUserVariables * userVariables(void) const
Get pointer to user variables.
unsigned int size() const
number of parameters
unsigned int hitsY() const
get number of hits for y-measurement

◆ addHitStatistics()

bool MillePedeAlignmentAlgorithm::addHitStatistics ( int  fromLoop,
const std::string &  outFile,
const std::vector< std::string > &  inFiles 
) const
private

Definition at line 1211 of file MillePedeAlignmentAlgorithm.cc.

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

Referenced by doIO().

1213  {
1214  bool allOk = true;
1215  int ierr = 0;
1216  MillePedeVariablesIORoot millePedeIO;
1217  for (std::vector<std::string>::const_iterator iFile = inFiles.begin(); iFile != inFiles.end(); ++iFile) {
1218  const std::string inFile(theDir + *iFile);
1219  const std::vector<AlignmentUserVariables *> mpVars =
1220  millePedeIO.readMillePedeVariables(theAlignables, inFile.c_str(), fromIov, ierr);
1221  if (ierr || !this->addHits(theAlignables, mpVars)) {
1222  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addHitStatistics"
1223  << "Error " << ierr << " reading from " << inFile << ", tree " << fromIov
1224  << ", or problems in addHits";
1225  allOk = false;
1226  }
1227  for (std::vector<AlignmentUserVariables *>::const_iterator i = mpVars.begin(); i != mpVars.end(); ++i) {
1228  delete *i; // clean created objects
1229  }
1230  }
1231 
1232  return allOk;
1233 }
Log< level::Error, false > LogError
std::vector< AlignmentUserVariables * > readMillePedeVariables(const align::Alignables &alivec, const char *filename, int iter, int &ierr)
bool addHits(const align::Alignables &alis, const std::vector< AlignmentUserVariables *> &mpVars) const

◆ addLasBeam()

void MillePedeAlignmentAlgorithm::addLasBeam ( const EventInfo eventInfo,
const TkFittedLasBeam lasBeam,
const std::vector< TrajectoryStateOnSurface > &  tsoses 
)
private

Definition at line 1540 of file MillePedeAlignmentAlgorithm.cc.

References funct::derivative(), TkFittedLasBeam::derivatives(), relativeConstraints::error, TkFittedLasBeam::firstFixedParameter(), TkLasBeam::getBeamId(), TkLasBeam::getData(), globalDerivativesHierarchy(), sistrip::SpyUtilities::isValid(), TkFittedLasBeam::parameters(), theAlignableNavigator, theFloatBufferX, theFloatBufferY, theIntBuffer, theMille, thePedeLabels, and hit::x.

Referenced by addLaserData().

1542  {
1543  AlignmentParameters *dummyPtr = nullptr; // for globalDerivativesHierarchy()
1544  std::vector<float> lasLocalDerivsX; // buffer for local derivatives
1545  const unsigned int beamLabel = thePedeLabels->lasBeamLabel(lasBeam.getBeamId()); // for global par
1546 
1547  for (unsigned int iHit = 0; iHit < tsoses.size(); ++iHit) {
1548  if (!tsoses[iHit].isValid())
1549  continue;
1550  // clear buffer
1551  theFloatBufferX.clear();
1552  theFloatBufferY.clear();
1553  theIntBuffer.clear();
1554  lasLocalDerivsX.clear();
1555  // get alignables and global parameters
1556  const SiStripLaserRecHit2D &hit = lasBeam.getData()[iHit];
1557  AlignableDetOrUnitPtr lasAli(theAlignableNavigator->alignableFromDetId(hit.getDetId()));
1559  eventInfo, tsoses[iHit], lasAli, lasAli, theFloatBufferX, theFloatBufferY, theIntBuffer, dummyPtr);
1560  // fill derivatives vector from derivatives matrix
1561  for (unsigned int nFitParams = 0; nFitParams < static_cast<unsigned int>(lasBeam.parameters().size());
1562  ++nFitParams) {
1563  const float derivative = lasBeam.derivatives()[iHit][nFitParams];
1564  if (nFitParams < lasBeam.firstFixedParameter()) { // first local beam parameters
1565  lasLocalDerivsX.push_back(derivative);
1566  } else { // now global ones
1567  const unsigned int numPar = nFitParams - lasBeam.firstFixedParameter();
1568  theIntBuffer.push_back(thePedeLabels->parameterLabel(beamLabel, numPar));
1569  theFloatBufferX.push_back(derivative);
1570  }
1571  } // end loop over parameters
1572 
1573  const float residual = hit.localPosition().x() - tsoses[iHit].localPosition().x();
1574  // error from file or assume 0.003
1575  const float error = 0.003; // hit.localPositionError().xx(); sqrt???
1576 
1577  theMille->mille(lasLocalDerivsX.size(),
1578  &(lasLocalDerivsX[0]),
1579  theFloatBufferX.size(),
1580  &(theFloatBufferX[0]),
1581  &(theIntBuffer[0]),
1582  residual,
1583  error);
1584  } // end of loop over hits
1585 
1586  theMille->end();
1587 }
Derivative< X, A >::type derivative(const A &_)
Definition: Derivative.h:18
const bool isValid(const Frame &aFrame, const FrameQuality &aQuality, const uint16_t aExpectedPos)
std::shared_ptr< PedeLabelerBase > thePedeLabels
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< SiStripLaserRecHit2D > & getData(void) const
access the collection of hits
Definition: TkLasBeam.h:26
const AlgebraicMatrix & derivatives() const
matrix of local derivatives: columns are parameters, rows are hits
unsigned int getBeamId(void) const
return the full beam identifier
Definition: TkLasBeam.h:23
unsigned int firstFixedParameter() const
std::unique_ptr< AlignableNavigator > theAlignableNavigator
const std::vector< Scalar > & parameters() const
parallel to derivatives()

◆ addLaserData()

void MillePedeAlignmentAlgorithm::addLaserData ( const EventInfo eventInfo,
const TkFittedLasBeamCollection tkLasBeams,
const TsosVectorCollection tkLasBeamTsoses 
)
private

Definition at line 1523 of file MillePedeAlignmentAlgorithm.cc.

References addLasBeam().

Referenced by endRun().

1525  {
1526  TsosVectorCollection::const_iterator iTsoses = lasBeamTsoses.begin();
1527  for (TkFittedLasBeamCollection::const_iterator iBeam = lasBeams.begin(), iEnd = lasBeams.end(); iBeam != iEnd;
1528  ++iBeam, ++iTsoses) { // beam/tsoses parallel!
1529 
1530  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addLaserData"
1531  << "Beam " << iBeam->getBeamId() << " with " << iBeam->parameters().size()
1532  << " parameters and " << iBeam->getData().size() << " hits.\n There are "
1533  << iTsoses->size() << " TSOSes.";
1534 
1535  this->addLasBeam(eventInfo, *iBeam, *iTsoses);
1536  }
1537 }
void addLasBeam(const EventInfo &eventInfo, const TkFittedLasBeam &lasBeam, const std::vector< TrajectoryStateOnSurface > &tsoses)
Log< level::Info, false > LogInfo

◆ addMeasurementData()

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 742 of file MillePedeAlignmentAlgorithm.cc.

References callMille(), dumpTauVariables_cfi::eventInfo, globalDerivativesCalibration(), globalDerivativesHierarchy(), ignoreHitsWithoutGlobalDerivatives_, submitPVValidationJobs::params, singleTopDQM_cfi::setup, theAlignableNavigator, theFloatBufferX, theFloatBufferY, and theIntBuffer.

Referenced by addReferenceTrajectory().

746  {
747  params = nullptr;
748  theFloatBufferX.clear();
749  theFloatBufferY.clear();
750  theIntBuffer.clear();
751 
752  const TrajectoryStateOnSurface &tsos = refTrajPtr->trajectoryStates()[iHit];
753  const ConstRecHitPointer &recHitPtr = refTrajPtr->recHits()[iHit];
754  // ignore invalid hits
755  if (!recHitPtr->isValid())
756  return 0;
757 
758  // First add the derivatives from IntegratedCalibration's,
759  // should even be OK if problems for "usual" derivatives from Alignables
760  this->globalDerivativesCalibration(recHitPtr,
761  tsos,
762  setup,
763  eventInfo, // input
766  theIntBuffer); // output
767 
768  // get AlignableDet/Unit for this hit
769  AlignableDetOrUnitPtr alidet(theAlignableNavigator->alignableFromDetId(recHitPtr->geographicalId()));
770 
771  if (!this->globalDerivativesHierarchy(eventInfo,
772  tsos,
773  alidet,
774  alidet,
775  theFloatBufferX, // 2x alidet, sic!
777  theIntBuffer,
778  params)) {
779  return -1; // problem
781  return 0; // empty for X: no alignable for hit, nor calibrations
782  } else {
783  // store measurement even if no alignable or calibrations
784  // -> measurement used for pede-internal track-fit
785  return this->callMille(refTrajPtr, iHit, theIntBuffer, theFloatBufferX, theFloatBufferY);
786  }
787 }
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
eventInfo
add run, event number and lumi section
std::unique_ptr< AlignableNavigator > theAlignableNavigator

◆ addPxbSurvey()

void MillePedeAlignmentAlgorithm::addPxbSurvey ( const edm::ParameterSet pxbSurveyCfg)
private

add measurement data from PXB survey

Definition at line 1589 of file MillePedeAlignmentAlgorithm.cc.

References a, nano_mu_local_reco_cff::chi2, SurveyPxbDicer::doDice(), corrVsCorr::filename, edm::FileInPath::fullPath(), edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), mps_fire::i, dqmiolumiharvest::j, SurveyPxbImageLocalFit::nMsrmts, timingPdfMaker::outfile, DQM::reader, mathSSE::sqrt(), AlCaHLTBitMon_QueryRunRegistry::string, Alignable::surface(), theAlignableNavigator, theMille, theMonitor, thePedeLabels, AlignableSurface::toGlobal(), and AlignableSurface::toLocal().

Referenced by initialize().

1589  {
1590  // do some printing, if requested
1591  const bool doOutputOnStdout(pxbSurveyCfg.getParameter<bool>("doOutputOnStdout"));
1592  if (doOutputOnStdout) {
1593  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addPxbSurvey"
1594  << "# Output from addPxbSurvey follows below because "
1595  << "doOutputOnStdout is set to True";
1596  }
1597 
1598  // instantiate a dicer object
1599  SurveyPxbDicer dicer(pxbSurveyCfg.getParameter<std::vector<edm::ParameterSet> >("toySurveyParameters"),
1600  pxbSurveyCfg.getParameter<unsigned int>("toySurveySeed"));
1601  std::ofstream outfile(pxbSurveyCfg.getUntrackedParameter<std::string>("toySurveyFile").c_str());
1602 
1603  // read data from file
1604  std::vector<SurveyPxbImageLocalFit> measurements;
1605  std::string filename(pxbSurveyCfg.getParameter<edm::FileInPath>("infile").fullPath());
1607 
1608  // loop over photographs (=measurements) and perform the fit
1609  for (std::vector<SurveyPxbImageLocalFit>::size_type i = 0; i != measurements.size(); i++) {
1610  if (doOutputOnStdout) {
1611  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addPxbSurvey"
1612  << "Module " << i << ": ";
1613  }
1614 
1615  // get the Alignables and their surfaces
1616  AlignableDetOrUnitPtr mod1(theAlignableNavigator->alignableFromDetId(measurements[i].getIdFirst()));
1617  AlignableDetOrUnitPtr mod2(theAlignableNavigator->alignableFromDetId(measurements[i].getIdSecond()));
1618  const AlignableSurface &surf1 = mod1->surface();
1619  const AlignableSurface &surf2 = mod2->surface();
1620 
1621  // the position of the fiducial points in local frame of a PXB module
1622  const LocalPoint fidpoint0(-0.91, +3.30);
1623  const LocalPoint fidpoint1(+0.91, +3.30);
1624  const LocalPoint fidpoint2(+0.91, -3.30);
1625  const LocalPoint fidpoint3(-0.91, -3.30);
1626 
1627  // We choose the local frame of the first module as reference,
1628  // so take the fidpoints of the second module and calculate their
1629  // positions in the reference frame
1630  const GlobalPoint surf2point0(surf2.toGlobal(fidpoint0));
1631  const GlobalPoint surf2point1(surf2.toGlobal(fidpoint1));
1632  const LocalPoint fidpoint0inSurf1frame(surf1.toLocal(surf2point0));
1633  const LocalPoint fidpoint1inSurf1frame(surf1.toLocal(surf2point1));
1634 
1635  // Create the vector for the fit
1637  fidpointvec.push_back(fidpoint0inSurf1frame);
1638  fidpointvec.push_back(fidpoint1inSurf1frame);
1639  fidpointvec.push_back(fidpoint2);
1640  fidpointvec.push_back(fidpoint3);
1641 
1642  // if toy survey is requested, dice the values now
1643  if (pxbSurveyCfg.getParameter<bool>("doToySurvey")) {
1644  dicer.doDice(fidpointvec, measurements[i].getIdPair(), outfile);
1645  }
1646 
1647  // do the fit
1648  measurements[i].doFit(fidpointvec, thePedeLabels->alignableLabel(mod1), thePedeLabels->alignableLabel(mod2));
1649  SurveyPxbImageLocalFit::localpars_t a; // local pars from fit
1650  a = measurements[i].getLocalParameters();
1651  const SurveyPxbImageLocalFit::value_t chi2 = measurements[i].getChi2();
1652 
1653  // do some reporting, if requested
1654  if (doOutputOnStdout) {
1655  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::addPxbSurvey"
1656  << "a: " << a[0] << ", " << a[1] << ", " << a[2] << ", " << a[3]
1657  << " S= " << sqrt(a[2] * a[2] + a[3] * a[3]) << " phi= " << atan(a[3] / a[2])
1658  << " chi2= " << chi2 << std::endl;
1659  }
1660  if (theMonitor) {
1661  theMonitor->fillPxbSurveyHistsChi2(chi2);
1662  theMonitor->fillPxbSurveyHistsLocalPars(a[0], a[1], sqrt(a[2] * a[2] + a[3] * a[3]), atan(a[3] / a[2]));
1663  }
1664 
1665  // pass the results from the local fit to mille
1667  theMille->mille((int)measurements[i].getLocalDerivsSize(),
1668  measurements[i].getLocalDerivsPtr(j),
1669  (int)measurements[i].getGlobalDerivsSize(),
1670  measurements[i].getGlobalDerivsPtr(j),
1671  measurements[i].getGlobalDerivsLabelPtr(j),
1672  measurements[i].getResiduum(j),
1673  measurements[i].getSigma(j));
1674  }
1675  theMille->end();
1676  }
1677  outfile.close();
1678 }
align::GlobalPoints toGlobal(const align::LocalPoints &) const
Return in global coord given a set of local points.
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
std::unique_ptr< MillePedeMonitor > theMonitor
std::vector< coord_t > fidpoint_t
std::string fullPath() const
Definition: FileInPath.cc:161
std::shared_ptr< PedeLabelerBase > thePedeLabels
reader
Definition: DQM.py:105
uint16_t size_type
T getUntrackedParameter(std::string const &, T const &) const
T sqrt(T t)
Definition: SSEVec.h:19
Log< level::Info, false > LogInfo
Class to hold one picture of the BPix survey.
std::vector< value_t > localpars_t
align::RotationType toLocal(const align::RotationType &) const
Return in local frame a rotation given in global frame.
double a
Definition: hdecay.h:121
static const count_t nMsrmts
std::unique_ptr< AlignableNavigator > theAlignableNavigator

◆ addReferenceTrajectory()

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 511 of file MillePedeAlignmentAlgorithm.cc.

References addGlobalData(), addHitCount(), addMeasurementData(), addVirtualMeas(), dumpTauVariables_cfi::eventInfo, theBinary, theMille, and theMinNumHits.

Referenced by run().

512  {
513  std::pair<unsigned int, unsigned int> hitResultXy(0, 0);
514  if (refTrajPtr->isValid()) {
515  // GblTrajectory?
516  if (!refTrajPtr->gblInput().empty()) {
517  // by construction: number of GblPoints == number of recHits or == zero !!!
518  unsigned int iHit = 0;
519  unsigned int numPointsWithMeas = 0;
520  std::vector<GblPoint>::iterator itPoint;
521  auto theGblInput = refTrajPtr->gblInput();
522  for (unsigned int iTraj = 0; iTraj < refTrajPtr->gblInput().size(); ++iTraj) {
523  for (itPoint = refTrajPtr->gblInput()[iTraj].first.begin(); itPoint < refTrajPtr->gblInput()[iTraj].first.end();
524  ++itPoint) {
525  if (this->addGlobalData(setup, eventInfo, refTrajPtr, iHit++, *itPoint) < 0)
526  return hitResultXy;
527  if (itPoint->numMeasurements() >= 1)
528  ++numPointsWithMeas;
529  }
530  }
531  hitResultXy.first = numPointsWithMeas;
532  // check #hits criterion
533  if (hitResultXy.first == 0 || hitResultXy.first < theMinNumHits)
534  return hitResultXy;
535  // construct GBL trajectory
536  if (refTrajPtr->gblInput().size() == 1) {
537  // from single track
538  GblTrajectory aGblTrajectory(refTrajPtr->gblInput()[0].first, refTrajPtr->nominalField() != 0);
539  // GBL fit trajectory
540  /*double Chi2;
541  int Ndf;
542  double lostWeight;
543  aGblTrajectory.fit(Chi2, Ndf, lostWeight);
544  std::cout << " GblFit: " << Chi2 << ", " << Ndf << ", " << lostWeight << std::endl; */
545  // write to MP binary file
546  if (aGblTrajectory.isValid() && aGblTrajectory.getNumPoints() >= theMinNumHits)
547  aGblTrajectory.milleOut(*theBinary);
548  }
549  if (refTrajPtr->gblInput().size() == 2) {
550  // from TwoBodyDecay
551  GblTrajectory aGblTrajectory(refTrajPtr->gblInput(),
552  refTrajPtr->gblExtDerivatives(),
553  refTrajPtr->gblExtMeasurements(),
554  refTrajPtr->gblExtPrecisions());
555  // write to MP binary file
556  if (aGblTrajectory.isValid() && aGblTrajectory.getNumPoints() >= theMinNumHits)
557  aGblTrajectory.milleOut(*theBinary);
558  }
559  } else {
560  // to add hits if all fine:
561  std::vector<AlignmentParameters *> parVec(refTrajPtr->recHits().size());
562  // collect hit statistics, assuming that there are no y-only hits
563  std::vector<bool> validHitVecY(refTrajPtr->recHits().size(), false);
564  // Use recHits from ReferenceTrajectory (since they have the right order!):
565  for (unsigned int iHit = 0; iHit < refTrajPtr->recHits().size(); ++iHit) {
566  const int flagXY = this->addMeasurementData(setup, eventInfo, refTrajPtr, iHit, parVec[iHit]);
567 
568  if (flagXY < 0) { // problem
569  hitResultXy.first = 0;
570  break;
571  } else { // hit is fine, increase x/y statistics
572  if (flagXY >= 1)
573  ++hitResultXy.first;
574  validHitVecY[iHit] = (flagXY >= 2);
575  }
576  } // end loop on hits
577 
578  // add virtual measurements
579  for (unsigned int iVirtualMeas = 0; iVirtualMeas < refTrajPtr->numberOfVirtualMeas(); ++iVirtualMeas) {
580  this->addVirtualMeas(refTrajPtr, iVirtualMeas);
581  }
582 
583  // kill or end 'track' for mille, depends on #hits criterion
584  if (hitResultXy.first == 0 || hitResultXy.first < theMinNumHits) {
585  theMille->kill();
586  hitResultXy.first = hitResultXy.second = 0; //reset
587  } else {
588  theMille->end();
589  // add x/y hit count to MillePedeVariables of parVec,
590  // returning number of y-hits of the reference trajectory
591  hitResultXy.second = this->addHitCount(parVec, validHitVecY);
592  //
593  }
594  }
595 
596  } // end if valid trajectory
597 
598  return hitResultXy;
599 }
std::unique_ptr< gbl::MilleBinary > theBinary
int addGlobalData(const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iHit, gbl::GblPoint &gblPoint)
int addMeasurementData(const edm::EventSetup &setup, const EventInfo &eventInfo, const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iHit, AlignmentParameters *&params)
unsigned int addHitCount(const std::vector< AlignmentParameters *> &parVec, const std::vector< bool > &validHitVecY) const
void addVirtualMeas(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iVirtualMeas)
adds data for virtual measurements from reference trajectory
eventInfo
add run, event number and lumi section

◆ addRefTrackData2D()

template<typename CovarianceMatrix , typename ResidualMatrix , typename LocalDerivativeMatrix >
void MillePedeAlignmentAlgorithm::addRefTrackData2D ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iTrajHit,
Eigen::MatrixBase< CovarianceMatrix > &  aHitCovarianceM,
Eigen::MatrixBase< ResidualMatrix > &  aHitResidualsM,
Eigen::MatrixBase< LocalDerivativeMatrix > &  aLocalDerivativesM 
)
private

adds data from reference trajectory from a specific Hit

Definition at line 1322 of file MillePedeAlignmentAlgorithm.cc.

References mps_fire::i.

Referenced by callMille2D().

1326  {
1327  // This Method is valid for 2D measurements only
1328 
1329  const unsigned int xIndex = iTrajHit * 2;
1330  const unsigned int yIndex = iTrajHit * 2 + 1;
1331 
1332  aHitCovarianceM(0, 0) = refTrajPtr->measurementErrors()[xIndex][xIndex];
1333  aHitCovarianceM(0, 1) = refTrajPtr->measurementErrors()[xIndex][yIndex];
1334  aHitCovarianceM(1, 0) = refTrajPtr->measurementErrors()[yIndex][xIndex];
1335  aHitCovarianceM(1, 1) = refTrajPtr->measurementErrors()[yIndex][yIndex];
1336 
1337  aHitResidualsM(0, 0) = refTrajPtr->measurements()[xIndex] - refTrajPtr->trajectoryPositions()[xIndex];
1338  aHitResidualsM(1, 0) = refTrajPtr->measurements()[yIndex] - refTrajPtr->trajectoryPositions()[yIndex];
1339 
1340  const auto &locDerivMatrix = refTrajPtr->derivatives();
1341  for (int i = 0; i < locDerivMatrix.num_col(); ++i) {
1342  aLocalDerivativesM(0, i) = locDerivMatrix[xIndex][i];
1343  aLocalDerivativesM(1, i) = locDerivMatrix[yIndex][i];
1344  }
1345 }

◆ addRefTrackVirtualMeas1D()

template<typename CovarianceMatrix , typename ResidualMatrix , typename LocalDerivativeMatrix >
void MillePedeAlignmentAlgorithm::addRefTrackVirtualMeas1D ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iVirtualMeas,
Eigen::MatrixBase< CovarianceMatrix > &  aHitCovarianceM,
Eigen::MatrixBase< ResidualMatrix > &  aHitResidualsM,
Eigen::MatrixBase< LocalDerivativeMatrix > &  aLocalDerivativesM 
)
private

adds data for a specific virtual measurement from reference trajectory

Definition at line 1301 of file MillePedeAlignmentAlgorithm.cc.

References mps_fire::i.

Referenced by addVirtualMeas().

1306  {
1307  // This Method is valid for 1D measurements only
1308 
1309  const unsigned int xIndex = iVirtualMeas + refTrajPtr->numberOfHitMeas();
1310 
1311  aHitCovarianceM(0, 0) = refTrajPtr->measurementErrors()[xIndex][xIndex];
1312  aHitResidualsM(0, 0) = refTrajPtr->measurements()[xIndex];
1313 
1314  const auto &locDerivMatrix = refTrajPtr->derivatives();
1315  for (int i = 0; i < locDerivMatrix.num_col(); ++i) {
1316  aLocalDerivativesM(0, i) = locDerivMatrix[xIndex][i];
1317  }
1318 }

◆ addVirtualMeas()

void MillePedeAlignmentAlgorithm::addVirtualMeas ( const ReferenceTrajectoryBase::ReferenceTrajectoryPtr refTrajPtr,
unsigned int  iVirtualMeas 
)
private

adds data for virtual measurements from reference trajectory

Definition at line 1495 of file MillePedeAlignmentAlgorithm.cc.

References addRefTrackVirtualMeas1D(), and theMille.

Referenced by addReferenceTrajectory().

1496  {
1497  Eigen::Matrix<double, 1, 1> aHitCovarianceM;
1498  Eigen::Matrix<float, 1, 1> aHitResidualsM;
1499  Eigen::Matrix<float, 1, Eigen::Dynamic> aLocalDerivativesM{1, refTrajPtr->derivatives().num_col()};
1500  // below method fills above 3 'matrices'
1501  this->addRefTrackVirtualMeas1D(refTrajPtr, iVirtualMeas, aHitCovarianceM, aHitResidualsM, aLocalDerivativesM);
1502 
1503  // no global parameters (use dummy 0)
1504  auto aGlobalDerivativesM = Eigen::Matrix<float, 1, 1>::Zero();
1505 
1506  float newResidX = aHitResidualsM(0, 0);
1507  float newHitErrX = TMath::Sqrt(aHitCovarianceM(0, 0));
1508  std::vector<float> newLocalDerivsX(aLocalDerivativesM.size());
1509  Eigen::Map<Eigen::Matrix<float, Eigen::Dynamic, Eigen::Dynamic, Eigen::RowMajor> >(
1510  newLocalDerivsX.data(), aLocalDerivativesM.rows(), aLocalDerivativesM.cols()) = aLocalDerivativesM;
1511 
1512  std::vector<float> newGlobDerivsX(aGlobalDerivativesM.size());
1513  Eigen::Map<Eigen::Matrix<float, Eigen::Dynamic, Eigen::Dynamic, Eigen::RowMajor> >(
1514  newGlobDerivsX.data(), aGlobalDerivativesM.rows(), aGlobalDerivativesM.cols()) = aGlobalDerivativesM;
1515 
1516  const int nLocal = aLocalDerivativesM.cols();
1517  const int nGlobal = 0;
1518 
1519  theMille->mille(nLocal, newLocalDerivsX.data(), nGlobal, newGlobDerivsX.data(), &nGlobal, newResidX, newHitErrX);
1520 }
void addRefTrackVirtualMeas1D(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iVirtualMeas, Eigen::MatrixBase< CovarianceMatrix > &aHitCovarianceM, Eigen::MatrixBase< ResidualMatrix > &aHitResidualsM, Eigen::MatrixBase< LocalDerivativeMatrix > &aLocalDerivativesM)
adds data for a specific virtual measurement from reference trajectory

◆ areEmptyParams()

bool MillePedeAlignmentAlgorithm::areEmptyParams ( const align::Alignables alignables) const
private

Definition at line 1084 of file MillePedeAlignmentAlgorithm.cc.

References mps_fire::i, dqmiolumiharvest::j, and submitPVValidationJobs::params.

Referenced by readFromPede().

1084  {
1085  for (const auto &iAli : alignables) {
1086  const AlignmentParameters *params = iAli->alignmentParameters();
1087  if (params) {
1088  const auto &parVec(params->parameters());
1089  const auto &parCov(params->covariance());
1090  for (int i = 0; i < parVec.num_row(); ++i) {
1091  if (parVec[i] != 0.)
1092  return false;
1093  for (int j = i; j < parCov.num_col(); ++j) {
1094  if (parCov[i][j] != 0.)
1095  return false;
1096  }
1097  }
1098  }
1099  }
1100 
1101  return true;
1102 }

◆ areIOVsSpecified()

bool MillePedeAlignmentAlgorithm::areIOVsSpecified ( ) const
private

Definition at line 1680 of file MillePedeAlignmentAlgorithm.cc.

References edm::ParameterSet::getUntrackedParameter(), align::makeNonOverlappingRunRanges(), cond::runnumber, theConfig, and cond::timeTypeSpecs.

1680  {
1681  const auto runRangeSelection = theConfig.getUntrackedParameter<edm::VParameterSet>("RunRangeSelection");
1682 
1683  if (runRangeSelection.empty())
1684  return false;
1685 
1686  const auto runRanges =
1688 
1689  return !(runRanges.empty());
1690 }
const TimeTypeSpecs timeTypeSpecs[]
Definition: Time.cc:16
std::vector< ParameterSet > VParameterSet
Definition: ParameterSet.h:35
T getUntrackedParameter(std::string const &, T const &) const
RunRanges makeNonOverlappingRunRanges(const edm::VParameterSet &runRanges, const RunNumber &defaultRun)
Definition: Utilities.cc:202

◆ beginLuminosityBlock()

void MillePedeAlignmentAlgorithm::beginLuminosityBlock ( const edm::EventSetup )
overridevirtual

called at begin of luminosity block (resets Mille binary in mille mode)

Reimplemented from AlignmentAlgorithmBase.

Definition at line 722 of file MillePedeAlignmentAlgorithm.cc.

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

722  {
723  if (!runAtPCL_)
724  return;
725  if (this->isMode(myMilleBit)) {
726  theMille->resetOutputFile();
727  theBinary.reset(); // GBL output has to be considered since same binary file is used
728  theBinary = std::make_unique<MilleBinary>((theDir + theConfig.getParameter<std::string>("binaryFile")).c_str(),
730  }
731 }
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
std::unique_ptr< gbl::MilleBinary > theBinary
bool isMode(unsigned int testMode) const

◆ beginRun()

void MillePedeAlignmentAlgorithm::beginRun ( const edm::Run run,
const edm::EventSetup setup,
bool  changed 
)
overridevirtual

called at begin of run

Reimplemented from AlignmentAlgorithmBase.

Definition at line 631 of file MillePedeAlignmentAlgorithm.cc.

References cond::TimeTypeSpecs::beginValue, cachedRuns_, AlignmentParameterStore::cacheTransformations(), enableAlignableUpdates_, edm::IOVSyncValue::eventID(), Exception, spr::find(), edm::ValidityInterval::first(), firstIOV_, GCP_Ntuples_cfg::firstRun, ignoreFirstIOVCheck_, edm::eventsetup::EventSetupRecordImplementation< T >::key(), lastProcessedRun_, edm::eventsetup::EventSetupRecordKey::name(), edm::EventID::run(), run(), cond::runnumber, convertSQLiteXML::runNumber, crab_NZS2018C_1::runRange, singleTopDQM_cfi::setup, skipGlobalPositionRcdCheck_, theAlignmentParameterStore, cond::persistency::throwException(), cond::timeTypeSpecs, uniqueRunRanges_, and edm::eventsetup::EventSetupRecord::validityInterval().

631  {
632  if (run.run() < firstIOV_ && !ignoreFirstIOVCheck_) {
633  throw cms::Exception("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::beginRun\n"
634  << "Using data (run = " << run.run() << ") prior to the first defined IOV ("
635  << firstIOV_ << ").";
636  }
637 
638  lastProcessedRun_ = run.run();
639 
640  if (changed && enableAlignableUpdates_) {
641  const auto runNumber = run.run();
643  for (auto runRange = uniqueRunRanges_.crbegin(); runRange != uniqueRunRanges_.crend(); ++runRange) {
644  if (runNumber >= runRange->first) {
645  firstRun = runRange->first;
646  break;
647  }
648  }
649  if (std::find(cachedRuns_.begin(), cachedRuns_.end(), firstRun) != cachedRuns_.end()) {
650  const auto &geometryRcd = setup.get<IdealGeometryRecord>();
651  const auto &globalPosRcd = setup.get<GlobalPositionRcd>();
652  const auto &alignmentRcd = setup.get<TrackerAlignmentRcd>();
653  const auto &surfaceRcd = setup.get<TrackerSurfaceDeformationRcd>();
654  const auto &errorRcd = setup.get<TrackerAlignmentErrorExtendedRcd>();
655 
656  std::ostringstream message;
657  bool throwException{false};
658  message << "Trying to cache tracker alignment payloads for a run (" << runNumber << ") in an IOV (" << firstRun
659  << ") that was already cached.\n"
660  << "The following records in your input database tag have an IOV "
661  << "boundary that does not match your IOV definition:\n";
662  if (geometryRcd.validityInterval().first().eventID().run() > firstRun) {
663  message << " - IdealGeometryRecord '" << geometryRcd.key().name() << "' (since "
664  << geometryRcd.validityInterval().first().eventID().run() << ")\n";
665  throwException = true;
666  }
667  if (globalPosRcd.validityInterval().first().eventID().run() > firstRun) {
668  message << " - GlobalPositionRecord '" << globalPosRcd.key().name() << "' (since "
669  << globalPosRcd.validityInterval().first().eventID().run() << ")";
671  message << " --> ignored\n";
672  } else {
673  message << "\n";
674  throwException = true;
675  }
676  }
677  if (alignmentRcd.validityInterval().first().eventID().run() > firstRun) {
678  message << " - TrackerAlignmentRcd '" << alignmentRcd.key().name() << "' (since "
679  << alignmentRcd.validityInterval().first().eventID().run() << ")\n";
680  throwException = true;
681  }
682  if (surfaceRcd.validityInterval().first().eventID().run() > firstRun) {
683  message << " - TrackerSurfaceDeformationRcd '" << surfaceRcd.key().name() << "' (since "
684  << surfaceRcd.validityInterval().first().eventID().run() << ")\n";
685  throwException = true;
686  }
687  if (errorRcd.validityInterval().first().eventID().run() > firstRun) {
688  message << " - TrackerAlignmentErrorExtendedRcd '" << errorRcd.key().name() << "' (since "
689  << errorRcd.validityInterval().first().eventID().run() << ")\n";
690  throwException = true;
691  }
692 
693  if (throwException) {
694  throw cms::Exception("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::beginRun\n" << message.str();
695  }
696  } else {
697  cachedRuns_.push_back(firstRun);
699  }
700  }
701 }
const TimeTypeSpecs timeTypeSpecs[]
Definition: Time.cc:16
const IOVSyncValue & first() const
Time_t beginValue
Definition: Time.h:41
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:19
std::vector< align::RunNumber > cachedRuns_
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
RunNumber_t run() const
Definition: EventID.h:38
const EventID & eventID() const
Definition: IOVSyncValue.h:40
void run(const edm::EventSetup &setup, const EventInfo &eventInfo) override
Run the algorithm on trajectories and tracks.
void cacheTransformations(void)
cache the current position, rotation and other parameters
ValidityInterval validityInterval() const
void throwException(const std::string &message, const std::string &methodName)
Definition: Exception.cc:12

◆ buildUserVariables()

void MillePedeAlignmentAlgorithm::buildUserVariables ( const align::Alignables alignables) const
private

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

Definition at line 1162 of file MillePedeAlignmentAlgorithm.cc.

References Exception, submitPVValidationJobs::params, MillePedeVariables::setAllDefault(), MillePedeVariables::size(), and thePedeLabels.

Referenced by initialize(), and setParametersForRunRange().

1162  {
1163  for (const auto &iAli : alis) {
1164  AlignmentParameters *params = iAli->alignmentParameters();
1165  if (!params) {
1166  throw cms::Exception("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::buildUserVariables"
1167  << "No parameters for alignable";
1168  }
1169  MillePedeVariables *userVars = dynamic_cast<MillePedeVariables *>(params->userVariables());
1170  if (userVars) { // Just re-use existing, keeping label and numHits:
1171  for (unsigned int iPar = 0; iPar < userVars->size(); ++iPar) {
1172  // if (params->hierarchyLevel() > 0) {
1173  //std::cout << params->hierarchyLevel() << "\nBefore: " << userVars->parameter()[iPar];
1174  // }
1175  userVars->setAllDefault(iPar);
1176  //std::cout << "\nAfter: " << userVars->parameter()[iPar] << std::endl;
1177  }
1178  } else { // Nothing yet or erase wrong type:
1179  userVars = new MillePedeVariables(
1180  params->size(),
1181  thePedeLabels->alignableLabel(iAli),
1182  thePedeLabels->alignableTracker()->objectIdProvider().typeToName(iAli->alignableObjectId()));
1183  params->setUserVariables(userVars);
1184  }
1185  }
1186 }
std::shared_ptr< PedeLabelerBase > thePedeLabels
unsigned int size() const
number of parameters
bool setAllDefault(unsigned int nParam)
set default values for all data concerning nParam (false if nParam out of range)

◆ callMille()

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 1348 of file MillePedeAlignmentAlgorithm.cc.

References callMille1D(), and callMille2D().

Referenced by addMeasurementData().

1352  {
1353  const ConstRecHitPointer aRecHit(refTrajPtr->recHits()[iTrajHit]);
1354 
1355  if ((aRecHit)->dimension() == 1) {
1356  return this->callMille1D(refTrajPtr, iTrajHit, globalLabels, globalDerivativesX);
1357  } else {
1358  return this->callMille2D(refTrajPtr, iTrajHit, globalLabels, globalDerivativesX, globalDerivativesY);
1359  }
1360 }
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

◆ callMille1D()

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 1363 of file MillePedeAlignmentAlgorithm.cc.

References mps_fire::i, theMille, and theMonitor.

Referenced by callMille().

1366  {
1367  const ConstRecHitPointer aRecHit(refTrajPtr->recHits()[iTrajHit]);
1368  const unsigned int xIndex = iTrajHit * 2; // the even ones are local x
1369 
1370  // local derivatives
1371  const AlgebraicMatrix &locDerivMatrix = refTrajPtr->derivatives();
1372  const int nLocal = locDerivMatrix.num_col();
1373  std::vector<float> localDerivatives(nLocal);
1374  for (unsigned int i = 0; i < localDerivatives.size(); ++i) {
1375  localDerivatives[i] = locDerivMatrix[xIndex][i];
1376  }
1377 
1378  // residuum and error
1379  float residX = refTrajPtr->measurements()[xIndex] - refTrajPtr->trajectoryPositions()[xIndex];
1380  float hitErrX = TMath::Sqrt(refTrajPtr->measurementErrors()[xIndex][xIndex]);
1381 
1382  // number of global derivatives
1383  const int nGlobal = globalDerivativesX.size();
1384 
1385  // &(localDerivatives[0]) etc. are valid - as long as vector is not empty
1386  // cf. http://www.parashift.com/c++-faq-lite/containers.html#faq-34.3
1387  theMille->mille(
1388  nLocal, &(localDerivatives[0]), nGlobal, &(globalDerivativesX[0]), &(globalLabels[0]), residX, hitErrX);
1389 
1390  if (theMonitor) {
1391  theMonitor->fillDerivatives(
1392  aRecHit, &(localDerivatives[0]), nLocal, &(globalDerivativesX[0]), nGlobal, &(globalLabels[0]));
1393  theMonitor->fillResiduals(aRecHit, refTrajPtr->trajectoryStates()[iTrajHit], iTrajHit, residX, hitErrX, false);
1394  }
1395 
1396  return 1;
1397 }
std::unique_ptr< MillePedeMonitor > theMonitor
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
CLHEP::HepMatrix AlgebraicMatrix

◆ callMille2D()

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 1400 of file MillePedeAlignmentAlgorithm.cc.

References addRefTrackData2D(), alignCSCRings::corr, diagonalize(), pat::helper::ParametrizationHelper::dimension(), is2D(), makeGlobDerivMatrix(), mathSSE::sqrt(), edm::swap(), SiStripDetId::TEC, theMaximalCor2D, theMille, theMonitor, SiStripDetId::TID, and DetId::Tracker.

Referenced by callMille().

1404  {
1405  const ConstRecHitPointer aRecHit(refTrajPtr->recHits()[iTrajHit]);
1406 
1407  if ((aRecHit)->dimension() != 2) {
1408  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::callMille2D"
1409  << "You try to call method for 2D hits for a " << (aRecHit)->dimension()
1410  << "D Hit. Hit gets ignored!";
1411  return -1;
1412  }
1413 
1414  Eigen::Matrix<double, 2, 2> aHitCovarianceM;
1415  Eigen::Matrix<float, 2, 1> aHitResidualsM;
1416  Eigen::Matrix<float, 2, Eigen::Dynamic> aLocalDerivativesM{2, refTrajPtr->derivatives().num_col()};
1417  // below method fills above 3 matrices
1418  this->addRefTrackData2D(refTrajPtr, iTrajHit, aHitCovarianceM, aHitResidualsM, aLocalDerivativesM);
1419  Eigen::Matrix<float, 2, Eigen::Dynamic> aGlobalDerivativesM{2, globalDerivativesx.size()};
1420  this->makeGlobDerivMatrix(globalDerivativesx, globalDerivativesy, aGlobalDerivativesM);
1421 
1422  // calculates correlation between Hit measurements
1423  // FIXME: Should take correlation (and resulting transformation) from original hit,
1424  // not 2x2 matrix from ReferenceTrajectory: That can come from error propagation etc.!
1425  const double corr = aHitCovarianceM(0, 1) / sqrt(aHitCovarianceM(0, 0) * aHitCovarianceM(1, 1));
1426  if (theMonitor)
1427  theMonitor->fillCorrelations2D(corr, aRecHit);
1428  bool diag = false; // diagonalise only tracker TID, TEC
1429  switch (aRecHit->geographicalId().subdetId()) {
1430  case SiStripDetId::TID:
1431  case SiStripDetId::TEC:
1432  if (aRecHit->geographicalId().det() == DetId::Tracker && TMath::Abs(corr) > theMaximalCor2D) {
1433  this->diagonalize(aHitCovarianceM, aLocalDerivativesM, aHitResidualsM, aGlobalDerivativesM);
1434  diag = true;
1435  }
1436  break;
1437  default:;
1438  }
1439 
1440  float newResidX = aHitResidualsM(0, 0);
1441  float newResidY = aHitResidualsM(1, 0);
1442  float newHitErrX = TMath::Sqrt(aHitCovarianceM(0, 0));
1443  float newHitErrY = TMath::Sqrt(aHitCovarianceM(1, 1));
1444 
1445  // change from column major (Eigen default) to row major to have row entries
1446  // in continuous memory
1447  std::vector<float> newLocalDerivs(aLocalDerivativesM.size());
1448  Eigen::Map<Eigen::Matrix<float, 2, Eigen::Dynamic, Eigen::RowMajor> >(
1449  newLocalDerivs.data(), aLocalDerivativesM.rows(), aLocalDerivativesM.cols()) = aLocalDerivativesM;
1450  float *newLocalDerivsX = &(newLocalDerivs[0]);
1451  float *newLocalDerivsY = &(newLocalDerivs[aLocalDerivativesM.cols()]);
1452 
1453  // change from column major (Eigen default) to row major to have row entries
1454  // in continuous memory
1455  std::vector<float> newGlobDerivs(aGlobalDerivativesM.size());
1456  Eigen::Map<Eigen::Matrix<float, 2, Eigen::Dynamic, Eigen::RowMajor> >(
1457  newGlobDerivs.data(), aGlobalDerivativesM.rows(), aGlobalDerivativesM.cols()) = aGlobalDerivativesM;
1458  float *newGlobDerivsX = &(newGlobDerivs[0]);
1459  float *newGlobDerivsY = &(newGlobDerivs[aGlobalDerivativesM.cols()]);
1460 
1461  const int nLocal = aLocalDerivativesM.cols();
1462  const int nGlobal = aGlobalDerivativesM.cols();
1463 
1464  if (diag && (newHitErrX > newHitErrY)) { // also for 2D hits?
1465  // measurement with smaller error is x-measurement (for !is2D do not fill y-measurement):
1466  std::swap(newResidX, newResidY);
1467  std::swap(newHitErrX, newHitErrY);
1468  std::swap(newLocalDerivsX, newLocalDerivsY);
1469  std::swap(newGlobDerivsX, newGlobDerivsY);
1470  }
1471 
1472  // &(globalLabels[0]) is valid - as long as vector is not empty
1473  // cf. http://www.parashift.com/c++-faq-lite/containers.html#faq-34.3
1474  theMille->mille(nLocal, newLocalDerivsX, nGlobal, newGlobDerivsX, &(globalLabels[0]), newResidX, newHitErrX);
1475 
1476  if (theMonitor) {
1477  theMonitor->fillDerivatives(aRecHit, newLocalDerivsX, nLocal, newGlobDerivsX, nGlobal, &(globalLabels[0]));
1478  theMonitor->fillResiduals(
1479  aRecHit, refTrajPtr->trajectoryStates()[iTrajHit], iTrajHit, newResidX, newHitErrX, false);
1480  }
1481  const bool isReal2DHit = this->is2D(aRecHit); // strip is 1D (except matched hits)
1482  if (isReal2DHit) {
1483  theMille->mille(nLocal, newLocalDerivsY, nGlobal, newGlobDerivsY, &(globalLabels[0]), newResidY, newHitErrY);
1484  if (theMonitor) {
1485  theMonitor->fillDerivatives(aRecHit, newLocalDerivsY, nLocal, newGlobDerivsY, nGlobal, &(globalLabels[0]));
1486  theMonitor->fillResiduals(
1487  aRecHit, refTrajPtr->trajectoryStates()[iTrajHit], iTrajHit, newResidY, newHitErrY, true); // true: y
1488  }
1489  }
1490 
1491  return (isReal2DHit ? 2 : 1);
1492 }
std::unique_ptr< MillePedeMonitor > theMonitor
static constexpr auto TID
Definition: SiStripDetId.h:38
Log< level::Error, false > LogError
void swap(Association< C > &lhs, Association< C > &rhs)
Definition: Association.h:112
TransientTrackingRecHit::ConstRecHitPointer ConstRecHitPointer
dictionary corr
bool is2D(const TransientTrackingRecHit::ConstRecHitPointer &recHit) const
true if hit belongs to 2D detector (currently tracker specific)
void makeGlobDerivMatrix(const std::vector< float > &globalDerivativesx, const std::vector< float > &globalDerivativesy, Eigen::MatrixBase< GlobalDerivativeMatrix > &aGlobalDerivativesM)
T sqrt(T t)
Definition: SSEVec.h:19
void diagonalize(Eigen::MatrixBase< CovarianceMatrix > &aHitCovarianceM, Eigen::MatrixBase< LocalDerivativeMatrix > &aLocalDerivativesM, Eigen::MatrixBase< ResidualMatrix > &aHitResidualsM, Eigen::MatrixBase< GlobalDerivativeMatrix > &aGlobalDerivativesM) const
void addRefTrackData2D(const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr, unsigned int iTrajHit, Eigen::MatrixBase< CovarianceMatrix > &aHitCovarianceM, Eigen::MatrixBase< ResidualMatrix > &aHitResidualsM, Eigen::MatrixBase< LocalDerivativeMatrix > &aLocalDerivativesM)
adds data from reference trajectory from a specific Hit
uint32_t dimension(pat::CandKinResolution::Parametrization parametrization)
Returns the number of free parameters in a parametrization (3 or 4)
static constexpr auto TEC
Definition: SiStripDetId.h:40

◆ decodeMode()

unsigned int MillePedeAlignmentAlgorithm::decodeMode ( const std::string &  mode) const
private

Definition at line 1189 of file MillePedeAlignmentAlgorithm.cc.

References Exception, ALCARECOPromptCalibProdSiPixelAli0T_cff::mode, myMilleBit, myPedeReadBit, myPedeRunBit, and myPedeSteerBit.

1189  {
1190  if (mode == "full") {
1192  } else if (mode == "mille") {
1193  return myMilleBit; // + myPedeSteerBit; // sic! Including production of steerig file. NO!
1194  } else if (mode == "pede") {
1196  } else if (mode == "pedeSteer") {
1197  return myPedeSteerBit;
1198  } else if (mode == "pedeRun") {
1199  return myPedeSteerBit + myPedeRunBit + myPedeReadBit; // sic! Including steering and reading of result.
1200  } else if (mode == "pedeRead") {
1201  return myPedeReadBit;
1202  }
1203 
1204  throw cms::Exception("BadConfig") << "Unknown mode '" << mode
1205  << "', use 'full', 'mille', 'pede', 'pedeRun', 'pedeSteer' or 'pedeRead'.";
1206 
1207  return 0;
1208 }

◆ diagonalize()

template<typename CovarianceMatrix , typename LocalDerivativeMatrix , typename ResidualMatrix , typename GlobalDerivativeMatrix >
void MillePedeAlignmentAlgorithm::diagonalize ( Eigen::MatrixBase< CovarianceMatrix > &  aHitCovarianceM,
Eigen::MatrixBase< LocalDerivativeMatrix > &  aLocalDerivativesM,
Eigen::MatrixBase< ResidualMatrix > &  aHitResidualsM,
Eigen::MatrixBase< GlobalDerivativeMatrix > &  aGlobalDerivativesM 
) const
private

Definition at line 1274 of file MillePedeAlignmentAlgorithm.cc.

References relativeConstraints::value.

Referenced by callMille2D().

1277  {
1279  "'aLocalDerivativesM' and 'aHitResidualsM' must have the "
1280  "same underlying scalar type");
1282  "'aLocalDerivativesM' and 'aGlobalDerivativesM' must have the "
1283  "same underlying scalar type");
1284 
1285  Eigen::SelfAdjointEigenSolver<typename CovarianceMatrix::PlainObject> myDiag{aHitCovarianceM};
1286  // eigenvectors of real symmetric matrices are orthogonal, i.e. invert == transpose
1287  auto aTranfoToDiagonalSystemInv =
1288  myDiag.eigenvectors().transpose().template cast<typename LocalDerivativeMatrix::Scalar>();
1289 
1290  aHitCovarianceM = myDiag.eigenvalues().asDiagonal();
1291  aLocalDerivativesM = aTranfoToDiagonalSystemInv * aLocalDerivativesM;
1292  aHitResidualsM = aTranfoToDiagonalSystemInv * aHitResidualsM;
1293  if (aGlobalDerivativesM.size() > 0) {
1294  // diagonalize only if measurement depends on alignables or calibrations
1295  aGlobalDerivativesM = aTranfoToDiagonalSystemInv * aGlobalDerivativesM;
1296  }
1297 }

◆ doIO()

unsigned int MillePedeAlignmentAlgorithm::doIO ( int  loop) const
private

Definition at line 1105 of file MillePedeAlignmentAlgorithm.cc.

References addHitStatistics(), edm::ParameterSet::getParameter(), heppy_loop::loop, L1TdeCSCTF_cfi::outFile, mps_fire::result, AlCaHLTBitMon_QueryRunRegistry::string, theAlignables, theConfig, theDir, AlignmentIORoot::writeAlignableAbsolutePositions(), AlignmentIORoot::writeAlignableOriginalPositions(), MillePedeVariablesIORoot::writeMillePedeVariables(), and AlignmentIORoot::writeOrigRigidBodyAlignmentParameters().

Referenced by setParametersForRunRange(), and terminate().

1105  {
1106  unsigned int result = 0;
1107 
1108  const std::string outFilePlain(theConfig.getParameter<std::string>("treeFile"));
1109  if (outFilePlain.empty()) {
1110  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
1111  << "treeFile parameter empty => skip writing for 'loop' " << loop;
1112  return result;
1113  }
1114 
1115  const std::string outFile(theDir + outFilePlain);
1116 
1117  AlignmentIORoot aliIO;
1118  int ioerr = 0;
1119  if (loop == 0) {
1120  aliIO.writeAlignableOriginalPositions(theAlignables, outFile.c_str(), loop, false, ioerr);
1121  if (ioerr) {
1122  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
1123  << "Problem " << ioerr << " in writeAlignableOriginalPositions";
1124  ++result;
1125  }
1126  } else if (loop == 1) {
1127  // only for first iov add hit counts, else 2x, 3x,... number of hits in IOV 2, 3,...
1128  const std::vector<std::string> inFiles(theConfig.getParameter<std::vector<std::string> >("mergeTreeFiles"));
1129  const std::vector<std::string> binFiles(theConfig.getParameter<std::vector<std::string> >("mergeBinaryFiles"));
1130  if (inFiles.size() != binFiles.size()) {
1131  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
1132  << "'vstring mergeTreeFiles' and 'vstring mergeBinaryFiles' "
1133  << "differ in size";
1134  }
1135  this->addHitStatistics(0, outFile, inFiles); // add hit info from tree 0 in 'infiles'
1136  }
1137  MillePedeVariablesIORoot millePedeIO;
1138  millePedeIO.writeMillePedeVariables(theAlignables, outFile.c_str(), loop, false, ioerr);
1139  if (ioerr) {
1140  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
1141  << "Problem " << ioerr << " writing MillePedeVariables";
1142  ++result;
1143  }
1144 
1145  aliIO.writeOrigRigidBodyAlignmentParameters(theAlignables, outFile.c_str(), loop, false, ioerr);
1146  if (ioerr) {
1147  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
1148  << "Problem " << ioerr << " in writeOrigRigidBodyAlignmentParameters, " << loop;
1149  ++result;
1150  }
1151  aliIO.writeAlignableAbsolutePositions(theAlignables, outFile.c_str(), loop, false, ioerr);
1152  if (ioerr) {
1153  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::doIO"
1154  << "Problem " << ioerr << " in writeAlignableAbsolutePositions, " << loop;
1155  ++result;
1156  }
1157 
1158  return result;
1159 }
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
Log< level::Error, false > LogError
void writeMillePedeVariables(const align::Alignables &alivec, const char *filename, int iter, bool validCheck, int &ierr)
void writeAlignableOriginalPositions(const align::Alignables &alivec, const char *filename, int iter, bool validCheck, int &ierr) override
write Alignable original (before misalignment) absolute positions
void writeOrigRigidBodyAlignmentParameters(const align::Alignables &alivec, const char *filename, int iter, bool validCheck, int &ierr) override
write RigidBodyAlignmentParameters as applied on top of original positions
bool addHitStatistics(int fromLoop, const std::string &outFile, const std::vector< std::string > &inFiles) const
Log< level::Info, false > LogInfo
void writeAlignableAbsolutePositions(const align::Alignables &alivec, const char *filename, int iter, bool validCheck, int &ierr) override
write Alignable current absolute positions
Log< level::Warning, false > LogWarning

◆ endLuminosityBlock()

void MillePedeAlignmentAlgorithm::endLuminosityBlock ( const edm::EventSetup )
overridevirtual

called at end of luminosity block

Reimplemented from AlignmentAlgorithmBase.

Definition at line 734 of file MillePedeAlignmentAlgorithm.cc.

References isMode(), myMilleBit, runAtPCL_, and theMille.

734  {
735  if (!runAtPCL_)
736  return;
737  if (this->isMode(myMilleBit))
738  theMille->flushOutputFile();
739 }
bool isMode(unsigned int testMode) const

◆ endRun() [1/2]

void MillePedeAlignmentAlgorithm::endRun ( const EventInfo eventInfo,
const EndRunInfo runInfo,
const edm::EventSetup setup 
)
virtual

Run on run products, e.g. TkLAS.

Definition at line 704 of file MillePedeAlignmentAlgorithm.cc.

References addLaserData(), isMode(), myMilleBit, submitPVValidationJobs::runInfo, and theMille.

706  {
707  if (runInfo.tkLasBeams() && runInfo.tkLasBeamTsoses()) {
708  // LAS beam treatment
709  this->addLaserData(eventInfo, *(runInfo.tkLasBeams()), *(runInfo.tkLasBeamTsoses()));
710  }
711  if (this->isMode(myMilleBit))
712  theMille->flushOutputFile();
713 }
bool isMode(unsigned int testMode) const
void addLaserData(const EventInfo &eventInfo, const TkFittedLasBeamCollection &tkLasBeams, const TsosVectorCollection &tkLasBeamTsoses)
const TkFittedLasBeamCollection * tkLasBeams() const

◆ endRun() [2/2]

void MillePedeAlignmentAlgorithm::endRun ( const EndRunInfo runInfo,
const edm::EventSetup setup 
)
overridevirtual

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

Reimplemented from AlignmentAlgorithmBase.

Definition at line 716 of file MillePedeAlignmentAlgorithm.cc.

References isMode(), myMilleBit, and theMille.

716  {
717  if (this->isMode(myMilleBit))
718  theMille->flushOutputFile();
719 }
bool isMode(unsigned int testMode) const

◆ getExistingFormattedFiles()

std::vector< std::string > MillePedeAlignmentAlgorithm::getExistingFormattedFiles ( const std::vector< std::string > &  plainFiles,
const 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 434 of file MillePedeAlignmentAlgorithm.cc.

References edmScanValgrind::buffer, submitPVResolutionJobs::files, edm_modernize_messagelogger::stat, AlCaHLTBitMon_QueryRunRegistry::string, and theDir.

Referenced by terminate().

435  {
436  std::vector<std::string> files;
437  for (const auto &plainFile : plainFiles) {
438  const std::string &theInputFileName = plainFile;
439  int theNumber = 0;
440  while (true) {
441  // Create a formatted version of the filename, with growing numbers
442  // If the parameter doesn't contain a formatting directive, it just stays unchanged
443  char theNumberedInputFileName[200];
444  sprintf(theNumberedInputFileName, theInputFileName.c_str(), theNumber);
445  std::string theCompleteInputFileName = theDir + theNumberedInputFileName;
446  const auto endOfStrippedFileName = theCompleteInputFileName.rfind(" --");
447  const auto strippedInputFileName = theCompleteInputFileName.substr(0, endOfStrippedFileName);
448  // Check if the file exists
449  struct stat buffer;
450  if (stat(strippedInputFileName.c_str(), &buffer) == 0) {
451  // If the file exists, add it to the list
452  files.push_back(theCompleteInputFileName);
453  if (theNumberedInputFileName == theInputFileName) {
454  // If the filename didn't contain a formatting directive, no reason to look any further, break out of the loop
455  break;
456  } else {
457  // Otherwise look for the next number
458  theNumber++;
459  }
460  } else {
461  // The file doesn't exist, break out of the loop
462  break;
463  }
464  }
465  // warning if unformatted (-> theNumber stays at 0) does not exist
466  if (theNumber == 0 && (files.empty() || files.back() != plainFile)) {
467  edm::LogWarning("Alignment") << "The input file '" << plainFile << "' does not exist.";
468  }
469  }
470  return files;
471 }
Log< level::Warning, false > LogWarning

◆ globalDerivativesCalibration()

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 972 of file MillePedeAlignmentAlgorithm.cc.

References dumpTauVariables_cfi::eventInfo, rpcPointValidation_cfi::recHit, singleTopDQM_cfi::setup, theCalibrations, and thePedeLabels.

Referenced by addMeasurementData().

978  {
979  std::vector<IntegratedCalibrationBase::ValuesIndexPair> derivs;
980  for (auto iCalib = theCalibrations.begin(); iCalib != theCalibrations.end(); ++iCalib) {
981  // get all derivatives of this calibration // const unsigned int num =
982  (*iCalib)->derivatives(derivs, *recHit, tsos, setup, eventInfo);
983  for (auto iValuesInd = derivs.begin(); iValuesInd != derivs.end(); ++iValuesInd) {
984  // transfer label and x/y derivatives
985  globalLabels.push_back(thePedeLabels->calibrationLabel(*iCalib, iValuesInd->second));
986  globalDerivativesX.push_back(iValuesInd->first.first);
987  globalDerivativesY.push_back(iValuesInd->first.second);
988  }
989  }
990 }
std::shared_ptr< PedeLabelerBase > thePedeLabels
std::vector< IntegratedCalibrationBase * > theCalibrations
eventInfo
add run, event number and lumi section

◆ globalDerivativesHierarchy() [1/2]

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 855 of file MillePedeAlignmentAlgorithm.cc.

References Alignable::alignmentParameters(), dumpTauVariables_cfi::eventInfo, kLocalX, kLocalY, Alignable::mother(), submitPVValidationJobs::params, theMonitor, thePedeLabels, and thePedeSteer.

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

862  {
863  // derivatives and labels are recursively attached
864  if (!ali)
865  return true; // no mother might be OK
866 
867  if (false && theMonitor && alidet != ali)
868  theMonitor->fillFrameToFrame(alidet, ali);
869 
871 
872  if (params) {
873  if (!lowestParams)
874  lowestParams = params; // set parameters of lowest level
875 
876  bool hasSplitParameters = thePedeLabels->hasSplitParameters(ali);
877  const unsigned int alignableLabel = thePedeLabels->alignableLabel(ali);
878 
879  if (0 == alignableLabel) { // FIXME: what about regardAllHits in Markus' code?
880  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::globalDerivativesHierarchy"
881  << "Label not found, skip Alignable.";
882  return false;
883  }
884 
885  const std::vector<bool> &selPars = params->selector();
886  const AlgebraicMatrix derivs(params->derivatives(tsos, alidet));
887 
888  // cols: 2, i.e. x&y, rows: parameters, usually RigidBodyAlignmentParameters::N_PARAM
889  for (unsigned int iSel = 0; iSel < selPars.size(); ++iSel) {
890  if (selPars[iSel]) {
891  globalDerivativesX.push_back(derivs[iSel][kLocalX] / thePedeSteer->cmsToPedeFactor(iSel));
892  if (hasSplitParameters == true) {
893  globalLabels.push_back(thePedeLabels->parameterLabel(ali, iSel, eventInfo, tsos));
894  } else {
895  globalLabels.push_back(thePedeLabels->parameterLabel(alignableLabel, iSel));
896  }
897  globalDerivativesY.push_back(derivs[iSel][kLocalY] / thePedeSteer->cmsToPedeFactor(iSel));
898  }
899  }
900  // Exclude mothers if Alignable selected to be no part of a hierarchy:
901  if (thePedeSteer->isNoHiera(ali))
902  return true;
903  }
904  // Call recursively for mother, will stop if mother == 0:
905  return this->globalDerivativesHierarchy(
906  eventInfo, tsos, ali->mother(), alidet, globalDerivativesX, globalDerivativesY, globalLabels, lowestParams);
907 }
AlignmentParameters * alignmentParameters() const
Get the AlignmentParameters.
Definition: Alignable.h:58
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:91
std::unique_ptr< MillePedeMonitor > theMonitor
std::shared_ptr< PedeLabelerBase > thePedeLabels
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
CLHEP::HepMatrix AlgebraicMatrix
std::unique_ptr< PedeSteerer > thePedeSteer
eventInfo
add run, event number and lumi section
Log< level::Warning, false > LogWarning

◆ globalDerivativesHierarchy() [2/2]

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 910 of file MillePedeAlignmentAlgorithm.cc.

References Alignable::alignmentParameters(), dumpTauVariables_cfi::eventInfo, globalDerivativesHierarchy(), kLocalX, kLocalY, Alignable::mother(), submitPVValidationJobs::params, theMonitor, thePedeLabels, and thePedeSteer.

917  {
918  // derivatives and labels are recursively attached
919  if (!ali)
920  return true; // no mother might be OK
921 
922  if (false && theMonitor && alidet != ali)
923  theMonitor->fillFrameToFrame(alidet, ali);
924 
926 
927  if (params) {
928  if (!lowestParams)
929  lowestParams = params; // set parameters of lowest level
930 
931  bool hasSplitParameters = thePedeLabels->hasSplitParameters(ali);
932  const unsigned int alignableLabel = thePedeLabels->alignableLabel(ali);
933 
934  if (0 == alignableLabel) { // FIXME: what about regardAllHits in Markus' code?
935  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::globalDerivativesHierarchy"
936  << "Label not found, skip Alignable.";
937  return false;
938  }
939 
940  const std::vector<bool> &selPars = params->selector();
941  const AlgebraicMatrix derivs(params->derivatives(tsos, alidet));
942  int globalLabel;
943 
944  // cols: 2, i.e. x&y, rows: parameters, usually RigidBodyAlignmentParameters::N_PARAM
945  for (unsigned int iSel = 0; iSel < selPars.size(); ++iSel) {
946  if (selPars[iSel]) {
947  if (hasSplitParameters == true) {
948  globalLabel = thePedeLabels->parameterLabel(ali, iSel, eventInfo, tsos);
949  } else {
950  globalLabel = thePedeLabels->parameterLabel(alignableLabel, iSel);
951  }
952  if (globalLabel > 0 && globalLabel <= 2147483647) {
953  globalLabels.push_back(globalLabel);
954  globalDerivativesX.push_back(derivs[iSel][kLocalX] / thePedeSteer->cmsToPedeFactor(iSel));
955  globalDerivativesY.push_back(derivs[iSel][kLocalY] / thePedeSteer->cmsToPedeFactor(iSel));
956  } else {
957  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::globalDerivativesHierarchy"
958  << "Invalid label " << globalLabel << " <= 0 or > 2147483647";
959  }
960  }
961  }
962  // Exclude mothers if Alignable selected to be no part of a hierarchy:
963  if (thePedeSteer->isNoHiera(ali))
964  return true;
965  }
966  // Call recursively for mother, will stop if mother == 0:
967  return this->globalDerivativesHierarchy(
968  eventInfo, tsos, ali->mother(), alidet, globalDerivativesX, globalDerivativesY, globalLabels, lowestParams);
969 }
AlignmentParameters * alignmentParameters() const
Get the AlignmentParameters.
Definition: Alignable.h:58
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:91
std::unique_ptr< MillePedeMonitor > theMonitor
std::shared_ptr< PedeLabelerBase > thePedeLabels
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
Log< level::Error, false > LogError
CLHEP::HepMatrix AlgebraicMatrix
std::unique_ptr< PedeSteerer > thePedeSteer
eventInfo
add run, event number and lumi section
Log< level::Warning, false > LogWarning

◆ initialize()

void MillePedeAlignmentAlgorithm::initialize ( const edm::EventSetup setup,
AlignableTracker tracker,
AlignableMuon muon,
AlignableExtras extras,
AlignmentParameterStore store 
)
overridevirtual

Called at beginning of job.

Implements AlignmentAlgorithmBase.

Definition at line 136 of file MillePedeAlignmentAlgorithm.cc.

References addPxbSurvey(), edm::ParameterSet::addUntrackedParameter(), AlignmentParameterStore::alignables(), aliThrToken_, AlignmentParameterStore::applyParameters(), cond::TimeTypeSpecs::beginValue, buildUserVariables(), relativeConstraints::empty, cond::TimeTypeSpecs::endValue, enforceSingleIOVInput_, Exception, edm::ParameterSet::exists(), geomToken_, get, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), isMode(), submitPVResolutionJobs::key, cond::time::MAX_VAL(), cond::time::MIN_VAL(), HLT_2024v10_cff::muon, myMilleBit, myPedeSteerBit, pixelTopologyMap, readFromPede(), AlignmentParameterStore::resetParameters(), runAtPCL_, cond::runnumber, singleTopDQM_cfi::setup, storeThresholds(), AlCaHLTBitMon_QueryRunRegistry::string, theAlignableNavigator, theAlignables, theAlignmentParameterStore, theConfig, theDir, theDoSurveyPixelBarrel, theMonitor, thePedeLabels, thePedeSteer, theThresholds, cond::persistency::throwException(), cond::timeTypeSpecs, topoToken_, and PbPb_ZMuSkimMuonDPG_cff::tracker.

140  {
141  if (muon) {
142  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::initialize"
143  << "Running with AlignabeMuon not yet tested.";
144  }
145 
149  const auto &iov_alignments = setup.get<TrackerAlignmentRcd>().validityInterval();
150  const auto &iov_surfaces = setup.get<TrackerSurfaceDeformationRcd>().validityInterval();
151  const auto &iov_errors = setup.get<TrackerAlignmentErrorExtendedRcd>().validityInterval();
152 
153  std::ostringstream message;
154  bool throwException{false};
155  if (iov_alignments.first().eventID().run() != MIN_VAL || iov_alignments.last().eventID().run() != MAX_VAL) {
156  message << "\nTrying to apply " << setup.get<TrackerAlignmentRcd>().key().name()
157  << " with multiple IOVs in tag without specifying 'RunRangeSelection'.\n"
158  << "Validity range is " << iov_alignments.first().eventID().run() << " - "
159  << iov_alignments.last().eventID().run() << "\n";
160  throwException = true;
161  }
162  if (iov_surfaces.first().eventID().run() != MIN_VAL || iov_surfaces.last().eventID().run() != MAX_VAL) {
163  message << "\nTrying to apply " << setup.get<TrackerSurfaceDeformationRcd>().key().name()
164  << " with multiple IOVs in tag without specifying 'RunRangeSelection'.\n"
165  << "Validity range is " << iov_surfaces.first().eventID().run() << " - "
166  << iov_surfaces.last().eventID().run() << "\n";
167  throwException = true;
168  }
169  if (iov_errors.first().eventID().run() != MIN_VAL || iov_errors.last().eventID().run() != MAX_VAL) {
170  message << "\nTrying to apply " << setup.get<TrackerAlignmentErrorExtendedRcd>().key().name()
171  << " with multiple IOVs in tag without specifying 'RunRangeSelection'.\n"
172  << "Validity range is " << iov_errors.first().eventID().run() << " - "
173  << iov_errors.last().eventID().run() << "\n";
174  throwException = true;
175  }
176  if (throwException) {
177  throw cms::Exception("DatabaseError") << "@SUB=MillePedeAlignmentAlgorithm::initialize" << message.str();
178  }
179  }
180 
181  //Retrieve tracker topology from geometry
182  const TrackerTopology *const tTopo = &setup.getData(topoToken_);
183 
184  //Retrieve the thresolds cuts from DB for the PCL
185  if (runAtPCL_) {
186  const auto &th = &setup.getData(aliThrToken_);
187  theThresholds = std::make_shared<AlignPCLThresholdsHG>();
188  storeThresholds(th->getNrecords(), th->getThreshold_Map(), th->getFloatMap());
189 
190  //Retrieve tracker geometry
191  const TrackerGeometry *tGeom = &setup.getData(geomToken_);
192  //Retrieve PixelTopologyMap
193  pixelTopologyMap = std::make_shared<PixelTopologyMap>(tGeom, tTopo);
194  }
195 
196  theAlignableNavigator = std::make_unique<AlignableNavigator>(extras, tracker, muon);
199 
200  edm::ParameterSet pedeLabelerCfg(theConfig.getParameter<edm::ParameterSet>("pedeLabeler"));
201  edm::VParameterSet RunRangeSelectionVPSet(theConfig.getUntrackedParameter<edm::VParameterSet>("RunRangeSelection"));
202  pedeLabelerCfg.addUntrackedParameter<edm::VParameterSet>("RunRangeSelection", RunRangeSelectionVPSet);
203 
204  std::string labelerPlugin = "PedeLabeler";
205  if (!RunRangeSelectionVPSet.empty()) {
206  labelerPlugin = "RunRangeDependentPedeLabeler";
207  if (pedeLabelerCfg.exists("plugin")) {
208  std::string labelerPluginCfg = pedeLabelerCfg.getParameter<std::string>("plugin");
209  if ((labelerPluginCfg != "PedeLabeler" && labelerPluginCfg != "RunRangeDependentPedeLabeler") ||
210  !pedeLabelerCfg.getUntrackedParameter<edm::VParameterSet>("parameterInstances").empty()) {
211  throw cms::Exception("BadConfig") << "MillePedeAlignmentAlgorithm::initialize"
212  << "both RunRangeSelection and generic labeler specified in config file. "
213  << "Please get rid of either one of them.\n";
214  }
215  }
216  } else {
217  if (pedeLabelerCfg.exists("plugin")) {
218  labelerPlugin = pedeLabelerCfg.getParameter<std::string>("plugin");
219  }
220  }
221 
222  if (!pedeLabelerCfg.exists("plugin")) {
223  pedeLabelerCfg.addUntrackedParameter<std::string>("plugin", labelerPlugin);
224  }
225 
226  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::initialize"
227  << "Using plugin '" << labelerPlugin << "' to generate labels.";
228 
229  thePedeLabels = std::shared_ptr<PedeLabelerBase>(PedeLabelerPluginFactory::get()->create(
230  labelerPlugin, PedeLabelerBase::TopLevelAlignables(tracker, muon, extras), pedeLabelerCfg));
231 
232  // 1) Create PedeSteerer: correct alignable positions for coordinate system selection
233  edm::ParameterSet pedeSteerCfg(theConfig.getParameter<edm::ParameterSet>("pedeSteerer"));
234  thePedeSteer = std::make_unique<PedeSteerer>(tracker,
235  muon,
236  extras,
238  thePedeLabels.get(),
239  pedeSteerCfg,
240  theDir,
241  !this->isMode(myPedeSteerBit));
242 
243  // 2) If requested, directly read in and apply result of previous pede run,
244  // assuming that correction from 1) was also applied to create the result:
245  const std::vector<edm::ParameterSet> mprespset(
246  theConfig.getParameter<std::vector<edm::ParameterSet> >("pedeReaderInputs"));
247  if (!mprespset.empty()) {
248  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::initialize"
249  << "Apply " << mprespset.end() - mprespset.begin()
250  << " previous MillePede constants from 'pedeReaderInputs'.";
251  }
252 
253  // FIXME: add selection of run range via 'pedeReaderInputs'
254  // Note: Results for parameters of IntegratedCalibration's cannot be treated...
256  for (std::vector<edm::ParameterSet>::const_iterator iSet = mprespset.begin(), iE = mprespset.end(); iSet != iE;
257  ++iSet) {
258  // This read will ignore calibrations as long as they are not yet passed to Millepede
259  // during/before initialize(..) - currently addCalibrations(..) is called later in AlignmentProducer
260  if (!this->readFromPede((*iSet), false, runrange)) { // false: do not erase SelectionUserVariables
261  throw cms::Exception("BadConfig")
262  << "MillePedeAlignmentAlgorithm::initialize: Problems reading input constants of "
263  << "pedeReaderInputs entry " << iSet - mprespset.begin() << '.';
264  }
266  // Needed to shut up later warning from checkAliParams:
268  }
269 
270  // 3) Now create steerings with 'final' start position:
271  thePedeSteer->buildSubSteer(tracker, muon, extras);
272 
273  // After (!) 1-3 of PedeSteerer which uses the SelectionUserVariables attached to the parameters:
274  this->buildUserVariables(theAlignables); // for hit statistics and/or pede result
275 
276  if (this->isMode(myMilleBit)) {
277  if (!theConfig.getParameter<std::vector<std::string> >("mergeBinaryFiles").empty() ||
278  !theConfig.getParameter<std::vector<std::string> >("mergeTreeFiles").empty()) {
279  throw cms::Exception("BadConfig") << "'vstring mergeTreeFiles' and 'vstring mergeBinaryFiles' must be empty for "
280  << "modes running mille.";
281  }
282  const std::string moniFile(theConfig.getUntrackedParameter<std::string>("monitorFile"));
283  if (!moniFile.empty())
284  theMonitor = std::make_unique<MillePedeMonitor>(tTopo, (theDir + moniFile).c_str());
285 
286  // Get trajectory factory. In case nothing found, FrameWork will throw...
287  }
288 
289  if (this->isMode(myPedeSteerBit)) {
290  // Get config for survey and set flag accordingly
291  const edm::ParameterSet pxbSurveyCfg(theConfig.getParameter<edm::ParameterSet>("surveyPixelBarrel"));
292  theDoSurveyPixelBarrel = pxbSurveyCfg.getParameter<bool>("doSurvey");
294  this->addPxbSurvey(pxbSurveyCfg);
295  }
296 }
const TimeTypeSpecs timeTypeSpecs[]
Definition: Time.cc:16
std::shared_ptr< AlignPCLThresholdsHG > theThresholds
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
void resetParameters(void)
reset parameters, correlations, user variables
std::unique_ptr< MillePedeMonitor > theMonitor
Time_t beginValue
Definition: Time.h:41
std::vector< ParameterSet > VParameterSet
Definition: ParameterSet.h:35
const Time_t MIN_VAL(0)
std::shared_ptr< PedeLabelerBase > thePedeLabels
const align::Alignables & alignables(void) const
get all alignables
void applyParameters(void)
Obsolete: Use AlignableNavigator::alignableDetFromDetId and alignableFromAlignableDet.
bool isMode(unsigned int testMode) const
const edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecord > geomToken_
T getUntrackedParameter(std::string const &, T const &) const
virtual bool storeThresholds(const int &nRecords, const AlignPCLThresholdsHG::threshold_map &thresholdMap, const AlignPCLThresholdsHG::param_map &floatMap)
const edm::ESGetToken< TrackerTopology, TrackerTopologyRcd > topoToken_
std::shared_ptr< PixelTopologyMap > pixelTopologyMap
const edm::ESGetToken< AlignPCLThresholdsHG, AlignPCLThresholdsHGRcd > aliThrToken_
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
key
prepare the HTCondor submission files and eventually submit them
std::unique_ptr< PedeSteerer > thePedeSteer
Log< level::Info, false > LogInfo
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 align::Alignables &alignables) const
add MillePedeVariables for each AlignmentParameters (exception if no parameters...)
void addPxbSurvey(const edm::ParameterSet &pxbSurveyCfg)
add measurement data from PXB survey
#define get
std::unique_ptr< AlignableNavigator > theAlignableNavigator
Log< level::Warning, false > LogWarning
Time_t endValue
Definition: Time.h:42
const Time_t MAX_VAL(std::numeric_limits< Time_t >::max())
void throwException(const std::string &message, const std::string &methodName)
Definition: Exception.cc:12

◆ is2D()

bool MillePedeAlignmentAlgorithm::is2D ( const TransientTrackingRecHit::ConstRecHitPointer recHit) const
private

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

Definition at line 1027 of file MillePedeAlignmentAlgorithm.cc.

References rpcPointValidation_cfi::recHit.

Referenced by callMille2D().

1027  {
1028  // FIXME: Check whether this is a reliable and recommended way to find out...
1029 
1030  if (recHit->dimension() < 2) {
1031  return false; // some muon and TIB/TOB stuff really has RecHit1D
1032  } else if (recHit->detUnit()) { // detunit in strip is 1D, in pixel 2D
1033  return recHit->detUnit()->type().isTrackerPixel();
1034  } else { // stereo strips (FIXME: endcap trouble due to non-parallel strips (wedge sensors)?)
1035  if (dynamic_cast<const ProjectedSiStripRecHit2D *>(recHit->hit())) { // check persistent hit
1036  // projected: 1D measurement on 'glued' module
1037  return false;
1038  } else {
1039  return true;
1040  }
1041  }
1042 }

◆ isMode()

bool MillePedeAlignmentAlgorithm::isMode ( unsigned int  testMode) const
inlineprivate

◆ makeGlobDerivMatrix()

template<typename GlobalDerivativeMatrix >
void MillePedeAlignmentAlgorithm::makeGlobDerivMatrix ( const std::vector< float > &  globalDerivativesx,
const std::vector< float > &  globalDerivativesy,
Eigen::MatrixBase< GlobalDerivativeMatrix > &  aGlobalDerivativesM 
)
private

Definition at line 1258 of file MillePedeAlignmentAlgorithm.cc.

References mps_fire::i.

Referenced by callMille2D().

1260  {
1261  static_assert(GlobalDerivativeMatrix::RowsAtCompileTime == 2, "global derivative matrix must have two rows");
1262 
1263  for (size_t i = 0; i < globalDerivativesx.size(); ++i) {
1264  aGlobalDerivativesM(0, i) = globalDerivativesx[i];
1265  aGlobalDerivativesM(1, i) = globalDerivativesy[i];
1266  }
1267 }

◆ processesEvents()

bool MillePedeAlignmentAlgorithm::processesEvents ( )
overridevirtual

Returns whether MP should process events in the current configuration.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 318 of file MillePedeAlignmentAlgorithm.cc.

References isMode(), and myMilleBit.

318  {
319  if (isMode(myMilleBit)) {
320  return true;
321  } else {
322  return false;
323  }
324 }
bool isMode(unsigned int testMode) const

◆ readFromPede()

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 1045 of file MillePedeAlignmentAlgorithm.cc.

References areEmptyParams(), MillePedeFileConverter_cfg::out, DQM::reader, theAlignables, thePedeLabels, and thePedeSteer.

Referenced by initialize(), and setParametersForRunRange().

1047  {
1048  bool allEmpty = this->areEmptyParams(theAlignables);
1049 
1050  PedeReader reader(mprespset, *thePedeSteer, *thePedeLabels, runrange);
1051  align::Alignables alis;
1052  bool okRead = reader.read(alis, setUserVars); // also may set params of IntegratedCalibration's
1053  bool numMatch = true;
1054 
1055  std::stringstream out;
1056  out << "Read " << alis.size() << " alignables";
1057  if (alis.size() != theAlignables.size()) {
1058  out << " while " << theAlignables.size() << " in store";
1059  numMatch = false; // FIXME: Should we check one by one? Or transfer 'alis' to the store?
1060  }
1061  if (!okRead)
1062  out << ", but problems in reading";
1063  if (!allEmpty)
1064  out << ", possibly overwriting previous settings";
1065  out << ".";
1066 
1067  if (okRead && allEmpty) {
1068  if (numMatch) { // as many alignables with result as trying to align
1069  edm::LogInfo("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
1070  } else if (!alis.empty()) { // dead module do not get hits and no pede result
1071  edm::LogWarning("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
1072  } else { // serious problem: no result read - and not all modules can be dead...
1073  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
1074  return false;
1075  }
1076  return true;
1077  }
1078  // the rest is not OK:
1079  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::readFromPede" << out.str();
1080  return false;
1081 }
bool areEmptyParams(const align::Alignables &alignables) const
std::shared_ptr< PedeLabelerBase > thePedeLabels
reader
Definition: DQM.py:105
Log< level::Error, false > LogError
std::unique_ptr< PedeSteerer > thePedeSteer
Log< level::Info, false > LogInfo
std::vector< Alignable * > Alignables
Definition: Utilities.h:31
Log< level::Warning, false > LogWarning

◆ run()

void MillePedeAlignmentAlgorithm::run ( const edm::EventSetup setup,
const EventInfo eventInfo 
)
overridevirtual

Run the algorithm on trajectories and tracks.

Implements AlignmentAlgorithmBase.

Definition at line 475 of file MillePedeAlignmentAlgorithm.cc.

References addReferenceTrajectory(), dumpTauVariables_cfi::eventInfo, isMode(), myMilleBit, hltrates_dqm_sourceclient-live_cfg::offset, edm::second(), singleTopDQM_cfi::setup, theMonitor, theTrajectoryFactory, DiMuonV_cfg::tracks, FastTrackerRecHitMaskProducer_cfi::trajectories, and AlignmentAlgorithmBase::EventInfo::trajTrackPairs().

Referenced by DTWorkflow.DTWorkflow::all(), beginRun(), Types.EventID::cppID(), Types.LuminosityBlockID::cppID(), o2olib.O2OTool::execute(), and terminate().

475  {
476  if (!this->isMode(myMilleBit))
477  return; // no theMille created...
478  const auto &tracks = eventInfo.trajTrackPairs();
479 
480  if (theMonitor) { // monitor input tracks
481  for (const auto &iTrajTrack : tracks) {
482  theMonitor->fillTrack(iTrajTrack.second);
483  }
484  }
485 
486  const RefTrajColl trajectories(theTrajectoryFactory->trajectories(setup, tracks, eventInfo.beamSpot()));
487 
488  // Now loop over ReferenceTrajectoryCollection
489  unsigned int refTrajCount = 0; // counter for track monitoring
490  const auto tracksPerTraj = theTrajectoryFactory->tracksPerTrajectory();
491  for (auto iRefTraj = trajectories.cbegin(), iRefTrajE = trajectories.cend(); iRefTraj != iRefTrajE;
492  ++iRefTraj, ++refTrajCount) {
493  const RefTrajColl::value_type &refTrajPtr = *iRefTraj;
494  if (theMonitor)
495  theMonitor->fillRefTrajectory(refTrajPtr);
496 
497  const auto nHitXy = this->addReferenceTrajectory(setup, eventInfo, refTrajPtr);
498 
499  if (theMonitor && (nHitXy.first || nHitXy.second)) {
500  // if trajectory used (i.e. some hits), fill monitoring
501  const auto offset = tracksPerTraj * refTrajCount;
502  for (unsigned int iTrack = 0; iTrack < tracksPerTraj; ++iTrack) {
503  theMonitor->fillUsedTrack(tracks[offset + iTrack].second, nHitXy.first, nHitXy.second);
504  }
505  }
506 
507  } // end of reference trajectory and track loop
508 }
const ConstTrajTrackPairCollection & trajTrackPairs() const
std::unique_ptr< MillePedeMonitor > theMonitor
TrajectoryFactoryBase::ReferenceTrajectoryCollection RefTrajColl
std::unique_ptr< TrajectoryFactoryBase > theTrajectoryFactory
bool isMode(unsigned int testMode) const
U second(std::pair< T, U > const &p)
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) ...
eventInfo
add run, event number and lumi section

◆ setParametersForRunRange()

bool MillePedeAlignmentAlgorithm::setParametersForRunRange ( const RunRange runrange)
overridevirtual

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 345 of file MillePedeAlignmentAlgorithm.cc.

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

345  {
346  if (this->isMode(myPedeReadBit)) {
347  if (not theAlignmentParameterStore) {
348  return false;
349  }
350  // restore initial positions, rotations and deformations
353  } else {
355  }
356 
357  // Needed to shut up later warning from checkAliParams:
359  // To avoid that they keep values from previous IOV if no new one in pede result
361 
362  if (!this->readFromPede(theConfig.getParameter<edm::ParameterSet>("pedeReader"), true, runrange)) {
363  edm::LogError("Alignment") << "@SUB=MillePedeAlignmentAlgorithm::setParametersForRunRange"
364  << "Problems reading pede result, but applying!";
365  }
367 
368  this->doIO(++theLastWrittenIov); // pre-increment!
369  }
370 
371  return true;
372 }
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
void resetParameters(void)
reset parameters, correlations, user variables
void restoreCachedTransformations(void)
restore the previously cached position, rotation and other parameters
void applyParameters(void)
Obsolete: Use AlignableNavigator::alignableDetFromDetId and alignableFromAlignableDet.
bool isMode(unsigned int testMode) const
Log< level::Error, false > LogError
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 align::Alignables &alignables) const
add MillePedeVariables for each AlignmentParameters (exception if no parameters...)

◆ storeAlignments()

bool MillePedeAlignmentAlgorithm::storeAlignments ( )
overridevirtual

Returns whether MP produced results to be stored.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 327 of file MillePedeAlignmentAlgorithm.cc.

References edm::ParameterSet::getParameter(), isMode(), myPedeReadBit, pixelTopologyMap, MillePedeFileReader::read(), runAtPCL_, MillePedeFileReader::storeAlignments(), theConfig, thePedeLabels, and theThresholds.

327  {
328  if (isMode(myPedeReadBit)) {
329  if (runAtPCL_) {
330  MillePedeFileReader mpReader(theConfig.getParameter<edm::ParameterSet>("MillePedeFileReader"),
334  mpReader.read();
335  return mpReader.storeAlignments();
336  } else {
337  return true;
338  }
339  } else {
340  return false;
341  }
342 }
std::shared_ptr< AlignPCLThresholdsHG > theThresholds
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
std::shared_ptr< PedeLabelerBase > thePedeLabels
bool isMode(unsigned int testMode) const
std::shared_ptr< PixelTopologyMap > pixelTopologyMap

◆ storeThresholds()

bool MillePedeAlignmentAlgorithm::storeThresholds ( const int &  nRecords,
const AlignPCLThresholdsHG::threshold_map thresholdMap,
const AlignPCLThresholdsHG::param_map floatMap 
)
virtual

Definition at line 309 of file MillePedeAlignmentAlgorithm.cc.

References theThresholds.

Referenced by initialize().

311  {
312  theThresholds->setAlignPCLThresholds(nRecords, thresholdMap);
313  theThresholds->setFloatMap(floatMap);
314  return true;
315 }
std::shared_ptr< AlignPCLThresholdsHG > theThresholds

◆ supportsCalibrations()

bool MillePedeAlignmentAlgorithm::supportsCalibrations ( )
overridevirtual

Returns whether MP supports calibrations.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 299 of file MillePedeAlignmentAlgorithm.cc.

299 { return true; }

◆ terminate() [1/2]

void MillePedeAlignmentAlgorithm::terminate ( const edm::EventSetup iSetup)
overridevirtual

Called at end of job.

Implements AlignmentAlgorithmBase.

Definition at line 376 of file MillePedeAlignmentAlgorithm.cc.

References terminate().

376 { terminate(); }
void terminate() override
Called at end of job.

◆ terminate() [2/2]

void MillePedeAlignmentAlgorithm::terminate ( )
overridevirtual

Called at end of job.

Reimplemented from AlignmentAlgorithmBase.

Definition at line 377 of file MillePedeAlignmentAlgorithm.cc.

References cachedRuns_, AlignmentParameterStore::cacheTransformations(), doIO(), enableAlignableUpdates_, Exception, geometryDiff::file, submitPVResolutionJobs::files, spr::find(), getExistingFormattedFiles(), edm::ParameterSet::getParameter(), isMode(), lastProcessedRun_, myMilleBit, myPedeReadBit, myPedeRunBit, AlignmentParameterStore::restoreCachedTransformations(), run(), crab_NZS2018C_1::runRange, AlCaHLTBitMon_QueryRunRegistry::string, theAlignmentParameterStore, theBinary, theConfig, theDir, theLastWrittenIov, theMille, thePedeSteer, and uniqueRunRanges_.

Referenced by terminate().

377  {
378  theMille.reset(); // delete to close binary before running pede below (flush would be enough...)
379  theBinary.reset();
380 
381  std::vector<std::string> files;
382  if (this->isMode(myMilleBit) || !theConfig.getParameter<std::string>("binaryFile").empty()) {
383  files.push_back(theDir + theConfig.getParameter<std::string>("binaryFile"));
384  } else {
385  const std::vector<std::string> plainFiles(theConfig.getParameter<std::vector<std::string> >("mergeBinaryFiles"));
386  files = getExistingFormattedFiles(plainFiles, theDir);
387  // Do some logging:
388  std::string filesForLogOutput;
389  for (const auto &file : files)
390  filesForLogOutput += " " + file + ",";
391  if (filesForLogOutput.length() != 0)
392  filesForLogOutput.pop_back();
393  edm::LogInfo("Alignment") << "Based on the config parameter mergeBinaryFiles, using the following "
394  << "files as input (assigned weights are indicated by ' -- <weight>'):"
395  << filesForLogOutput;
396  }
397 
399  return;
400 
401  // cache all positions, rotations and deformations
404  if (lastProcessedRun_ < uniqueRunRanges_.back().first) {
405  throw cms::Exception("BadConfig") << "@SUB=MillePedeAlignmentAlgorithm::terminate\n"
406  << "Last IOV of 'RunRangeSelection' has not been processed. "
407  << "Please reconfigure your source to process the runs at least up to "
408  << uniqueRunRanges_.back().first << ".";
409  }
410  auto lastCachedRun = uniqueRunRanges_.front().first;
411  for (const auto &runRange : uniqueRunRanges_) {
412  const auto run = runRange.first;
413  if (std::find(cachedRuns_.begin(), cachedRuns_.end(), run) == cachedRuns_.end()) {
416  } else {
417  lastCachedRun = run;
418  }
419  }
421  }
422 
423  const std::string masterSteer(thePedeSteer->buildMasterSteer(files)); // do only if myPedeSteerBit?
424  if (this->isMode(myPedeRunBit)) {
425  thePedeSteer->runPede(masterSteer);
426  }
427 
428  // parameters from pede are not yet applied,
429  // so we can still write start positions (but with hit statistics in case of mille):
430  this->doIO(0);
431  theLastWrittenIov = 0;
432 }
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
std::unique_ptr< gbl::MilleBinary > theBinary
void restoreCachedTransformations(void)
restore the previously cached position, rotation and other parameters
std::vector< std::string > getExistingFormattedFiles(const std::vector< std::string > &plainFiles, const std::string &theDir)
bool isMode(unsigned int testMode) const
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:19
std::vector< align::RunNumber > cachedRuns_
AlignmentParameterStore * theAlignmentParameterStore
directory for all kind of files
std::unique_ptr< PedeSteerer > thePedeSteer
Log< level::Info, false > LogInfo
void run(const edm::EventSetup &setup, const EventInfo &eventInfo) override
Run the algorithm on trajectories and tracks.
void cacheTransformations(void)
cache the current position, rotation and other parameters

Member Data Documentation

◆ aliThrToken_

const edm::ESGetToken<AlignPCLThresholdsHG, AlignPCLThresholdsHGRcd> MillePedeAlignmentAlgorithm::aliThrToken_
private

Definition at line 277 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize().

◆ cachedRuns_

std::vector<align::RunNumber> MillePedeAlignmentAlgorithm::cachedRuns_
private

Definition at line 321 of file MillePedeAlignmentAlgorithm.h.

Referenced by beginRun(), and terminate().

◆ enableAlignableUpdates_

const bool MillePedeAlignmentAlgorithm::enableAlignableUpdates_
private

Definition at line 305 of file MillePedeAlignmentAlgorithm.h.

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

◆ enforceSingleIOVInput_

const bool MillePedeAlignmentAlgorithm::enforceSingleIOVInput_
private

Definition at line 320 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize().

◆ firstIOV_

const align::RunNumber MillePedeAlignmentAlgorithm::firstIOV_
private

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

Definition at line 303 of file MillePedeAlignmentAlgorithm.h.

Referenced by beginRun().

◆ geomToken_

const edm::ESGetToken<TrackerGeometry, TrackerDigiGeometryRecord> MillePedeAlignmentAlgorithm::geomToken_
private

Definition at line 278 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize().

◆ ignoreFirstIOVCheck_

const bool MillePedeAlignmentAlgorithm::ignoreFirstIOVCheck_
private

Definition at line 304 of file MillePedeAlignmentAlgorithm.h.

Referenced by beginRun().

◆ ignoreHitsWithoutGlobalDerivatives_

const bool MillePedeAlignmentAlgorithm::ignoreHitsWithoutGlobalDerivatives_
private

Definition at line 316 of file MillePedeAlignmentAlgorithm.h.

Referenced by addMeasurementData().

◆ lastProcessedRun_

align::RunNumber MillePedeAlignmentAlgorithm::lastProcessedRun_
private

Definition at line 322 of file MillePedeAlignmentAlgorithm.h.

Referenced by beginRun(), and terminate().

◆ pixelTopologyMap

std::shared_ptr<PixelTopologyMap> MillePedeAlignmentAlgorithm::pixelTopologyMap
private

Definition at line 299 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize(), and storeAlignments().

◆ runAtPCL_

const bool MillePedeAlignmentAlgorithm::runAtPCL_
private

◆ skipGlobalPositionRcdCheck_

const bool MillePedeAlignmentAlgorithm::skipGlobalPositionRcdCheck_
private

Definition at line 317 of file MillePedeAlignmentAlgorithm.h.

Referenced by beginRun().

◆ theAlignableNavigator

std::unique_ptr<AlignableNavigator> MillePedeAlignmentAlgorithm::theAlignableNavigator
private

◆ theAlignables

align::Alignables MillePedeAlignmentAlgorithm::theAlignables
private

◆ theAlignmentParameterStore

AlignmentParameterStore* MillePedeAlignmentAlgorithm::theAlignmentParameterStore
private

directory for all kind of files

Definition at line 289 of file MillePedeAlignmentAlgorithm.h.

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

◆ theBinary

std::unique_ptr<gbl::MilleBinary> MillePedeAlignmentAlgorithm::theBinary
private

◆ theCalibrations

std::vector<IntegratedCalibrationBase *> MillePedeAlignmentAlgorithm::theCalibrations
private

◆ theConfig

edm::ParameterSet MillePedeAlignmentAlgorithm::theConfig
private

◆ theDir

std::string MillePedeAlignmentAlgorithm::theDir
private

◆ theDoSurveyPixelBarrel

bool MillePedeAlignmentAlgorithm::theDoSurveyPixelBarrel
private

Definition at line 310 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize().

◆ theFloatBufferX

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

Definition at line 307 of file MillePedeAlignmentAlgorithm.h.

Referenced by addLasBeam(), and addMeasurementData().

◆ theFloatBufferY

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

Definition at line 308 of file MillePedeAlignmentAlgorithm.h.

Referenced by addLasBeam(), and addMeasurementData().

◆ theGblDoubleBinary

bool MillePedeAlignmentAlgorithm::theGblDoubleBinary
private

◆ theIntBuffer

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

Definition at line 309 of file MillePedeAlignmentAlgorithm.h.

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

◆ theLastWrittenIov

int MillePedeAlignmentAlgorithm::theLastWrittenIov
private

Definition at line 306 of file MillePedeAlignmentAlgorithm.h.

Referenced by setParametersForRunRange(), and terminate().

◆ theMaximalCor2D

double MillePedeAlignmentAlgorithm::theMaximalCor2D
private

Definition at line 301 of file MillePedeAlignmentAlgorithm.h.

Referenced by callMille2D().

◆ theMille

std::unique_ptr<Mille> MillePedeAlignmentAlgorithm::theMille
private

◆ theMinNumHits

unsigned int MillePedeAlignmentAlgorithm::theMinNumHits
private

Definition at line 300 of file MillePedeAlignmentAlgorithm.h.

Referenced by addReferenceTrajectory().

◆ theMode

unsigned int MillePedeAlignmentAlgorithm::theMode
private

Definition at line 287 of file MillePedeAlignmentAlgorithm.h.

Referenced by isMode().

◆ theMonitor

std::unique_ptr<MillePedeMonitor> MillePedeAlignmentAlgorithm::theMonitor
private

◆ thePedeLabels

std::shared_ptr<PedeLabelerBase> MillePedeAlignmentAlgorithm::thePedeLabels
private

◆ thePedeSteer

std::unique_ptr<PedeSteerer> MillePedeAlignmentAlgorithm::thePedeSteer
private

◆ theThresholds

std::shared_ptr<AlignPCLThresholdsHG> MillePedeAlignmentAlgorithm::theThresholds
private

Definition at line 298 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize(), storeAlignments(), and storeThresholds().

◆ theTrajectoryFactory

std::unique_ptr<TrajectoryFactoryBase> MillePedeAlignmentAlgorithm::theTrajectoryFactory
private

Definition at line 296 of file MillePedeAlignmentAlgorithm.h.

Referenced by run().

◆ topoToken_

const edm::ESGetToken<TrackerTopology, TrackerTopologyRcd> MillePedeAlignmentAlgorithm::topoToken_
private

Definition at line 276 of file MillePedeAlignmentAlgorithm.h.

Referenced by initialize().

◆ uniqueRunRanges_

const align::RunRanges MillePedeAlignmentAlgorithm::uniqueRunRanges_
private

Definition at line 319 of file MillePedeAlignmentAlgorithm.h.

Referenced by beginRun(), and terminate().