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#include <PVFitter.h>
Public Member Functions | |
| void | compressStore () |
| reduce size of primary vertex cache by increasing quality limit | |
| void | dumpTxtFile () |
| void | FitPerBunchCrossing () |
| reco::BeamSpot | getBeamSpot () |
| std::map< int, reco::BeamSpot > | getBeamSpotMap () |
| int * | getFitLSRange () |
| int | getNPVs () |
| const std::map< int, int > & | getNPVsperBX () |
| std::vector< BeamSpotFitPVData > | getpvStore () |
| time_t * | getRefTime () |
| double | getWidthX () |
| double | getWidthXerr () |
| double | getWidthY () |
| double | getWidthYerr () |
| double | getWidthZ () |
| double | getWidthZerr () |
| bool | IsFitPerBunchCrossing () |
| PVFitter (const edm::ParameterSet &iConfig) | |
| PVFitter () | |
| double | pvQuality (const reco::Vertex &pv) const |
| vertex quality measure | |
| double | pvQuality (const BeamSpotFitPVData &pv) const |
| vertex quality measure | |
| void | readEvent (const edm::Event &iEvent) |
| void | resetAll () |
| void | resetLSRange () |
| void | resetRefTime () |
| void | resizepvStore (unsigned int rmSize) |
| bool | runBXFitter () |
| bool | runFitter () |
| void | setFitLSRange (int ls0, int ls1) |
| void | setRefTime (std::time_t t0, std::time_t t1) |
| void | setTree (TTree *tree) |
| virtual | ~PVFitter () |
Private Attributes | |
| std::map< int, std::vector < BeamSpotFitPVData > > | bxMap_ |
| bool | debug_ |
| bool | do3DFit_ |
| double | dynamicQualityCut_ |
| double | errorScale_ |
| std::ofstream | fasciiFile |
| reco::BeamSpot | fbeamspot |
| int | fbeginLumiOfFit |
| char | fbeginTimeOfFit [32] |
| std::map< int, reco::BeamSpot > | fbspotMap |
| double | fdxdz |
| double | fdxdzErr |
| double | fdydz |
| double | fdydzErr |
| int | fendLumiOfFit |
| char | fendTimeOfFit [32] |
| bool | fFitPerBunchCrossing |
| int | flumi |
| std::time_t | freftime [2] |
| int | frun |
| int | frunFit |
| double | fsigmaZ |
| double | fsigmaZErr |
| TTree * | ftree_ |
| double | fwidthX |
| double | fwidthXerr |
| double | fwidthY |
| double | fwidthYerr |
| double | fwidthZ |
| double | fwidthZerr |
| double | fx |
| double | fxErr |
| double | fy |
| double | fyErr |
| double | fz |
| double | fzErr |
| TH2F * | hPVx |
| TH2F * | hPVy |
| unsigned int | maxNrVertices_ |
| double | maxVtxNormChi2_ |
| double | maxVtxR_ |
| double | maxVtxZ_ |
| unsigned int | minNrVertices_ |
| double | minVtxNdf_ |
| unsigned int | minVtxTracks_ |
| double | minVtxWgt_ |
| std::map< int, int > | npvsmap_ |
| std::string | outputTxt_ |
| std::vector< double > | pvQualities_ |
| std::vector< BeamSpotFitPVData > | pvStore_ |
| double | sigmaCut_ |
| BeamSpotTreeData | theBeamSpotTreeData_ |
| edm::InputTag | vertexLabel_ |
| bool | writeTxt_ |
Definition at line 39 of file PVFitter.h.
| PVFitter::PVFitter | ( | ) | [inline] |
Definition at line 41 of file PVFitter.h.
{}
| PVFitter::PVFitter | ( | const edm::ParameterSet & | iConfig | ) |
_________________________________________________________________ class: PVFitter.cc package: RecoVertex/BeamSpotProducer
author: Francisco Yumiceva, Fermilab (yumiceva@fnal.gov) Geng-Yuan Jeng, UC Riverside (Geng-Yuan.Jeng@cern.ch)
version
________________________________________________________________
Definition at line 50 of file PVFitter.cc.
References debug_, do3DFit_, dynamicQualityCut_, errorScale_, fFitPerBunchCrossing, edm::ParameterSet::getParameter(), hPVx, hPVy, maxNrVertices_, maxVtxNormChi2_, maxVtxR_, maxVtxZ_, minNrVertices_, minVtxNdf_, minVtxTracks_, minVtxWgt_, sigmaCut_, and vertexLabel_.
: ftree_(0) { debug_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<bool>("Debug"); vertexLabel_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<edm::InputTag>("VertexCollection", edm::InputTag("offlinePrimaryVertices")); do3DFit_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<bool>("Apply3DFit"); //writeTxt_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<bool>("WriteAscii"); //outputTxt_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<std::string>("AsciiFileName"); maxNrVertices_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<unsigned int>("maxNrStoredVertices"); minNrVertices_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<unsigned int>("minNrVerticesForFit"); minVtxNdf_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<double>("minVertexNdf"); maxVtxNormChi2_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<double>("maxVertexNormChi2"); minVtxTracks_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<unsigned int>("minVertexNTracks"); minVtxWgt_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<double>("minVertexMeanWeight"); maxVtxR_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<double>("maxVertexR"); maxVtxZ_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<double>("maxVertexZ"); errorScale_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<double>("errorScale"); sigmaCut_ = iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<double>("nSigmaCut"); fFitPerBunchCrossing=iConfig.getParameter<edm::ParameterSet>("PVFitter").getUntrackedParameter<bool>("FitPerBunchCrossing"); // preset quality cut to "infinite" dynamicQualityCut_ = 1.e30; hPVx = new TH2F("hPVx","PVx vs PVz distribution",200,-maxVtxR_, maxVtxR_, 200, -maxVtxZ_, maxVtxZ_); hPVy = new TH2F("hPVy","PVy vs PVz distribution",200,-maxVtxR_, maxVtxR_, 200, -maxVtxZ_, maxVtxZ_); }
| PVFitter::~PVFitter | ( | ) | [virtual] |
Definition at line 78 of file PVFitter.cc.
{
}
| void PVFitter::compressStore | ( | ) |
reduce size of primary vertex cache by increasing quality limit
Definition at line 514 of file PVFitter.cc.
References dynamicQualityCut_, i, pvQualities_, pvQuality(), pvStore_, and python::multivaluedict::sort().
Referenced by readEvent().
{
//
// fill vertex qualities
//
pvQualities_.resize(pvStore_.size());
for ( unsigned int i=0; i<pvStore_.size(); ++i ) pvQualities_[i] = pvQuality(pvStore_[i]);
sort(pvQualities_.begin(),pvQualities_.end());
//
// Set new quality cut to median. This cut will be used to reduce the
// number of vertices in the store and also apply to all new vertices
// until the next reset
//
dynamicQualityCut_ = pvQualities_[pvQualities_.size()/2];
//
// remove all vertices failing the cut from the store
// (to be moved to a more efficient memory management!)
//
unsigned int iwrite(0);
for ( unsigned int i=0; i<pvStore_.size(); ++i ) {
if ( pvQuality(pvStore_[i])>dynamicQualityCut_ ) continue;
if ( i!=iwrite ) pvStore_[iwrite] = pvStore_[i];
++iwrite;
}
pvStore_.resize(iwrite);
edm::LogInfo("PVFitter") << "Reduced primary vertex store size to "
<< pvStore_.size() << " ; new dynamic quality cut = "
<< dynamicQualityCut_ << std::endl;
}
| void PVFitter::dumpTxtFile | ( | ) |
Definition at line 471 of file PVFitter.cc.
{
/*
fasciiFile << "Runnumber " << frun << std::endl;
fasciiFile << "BeginTimeOfFit " << fbeginTimeOfFit << std::endl;
fasciiFile << "EndTimeOfFit " << fendTimeOfFit << std::endl;
fasciiFile << "LumiRange " << fbeginLumiOfFit << " - " << fendLumiOfFit << std::endl;
fasciiFile << "Type " << fbeamspot.type() << std::endl;
fasciiFile << "X0 " << fbeamspot.x0() << std::endl;
fasciiFile << "Y0 " << fbeamspot.y0() << std::endl;
fasciiFile << "Z0 " << fbeamspot.z0() << std::endl;
fasciiFile << "sigmaZ0 " << fbeamspot.sigmaZ() << std::endl;
fasciiFile << "dxdz " << fbeamspot.dxdz() << std::endl;
fasciiFile << "dydz " << fbeamspot.dydz() << std::endl;
if (inputBeamWidth_ > 0 ) {
fasciiFile << "BeamWidthX " << inputBeamWidth_ << std::endl;
fasciiFile << "BeamWidthY " << inputBeamWidth_ << std::endl;
} else {
fasciiFile << "BeamWidthX " << fbeamspot.BeamWidthX() << std::endl;
fasciiFile << "BeamWidthY " << fbeamspot.BeamWidthY() << std::endl;
}
for (int i = 0; i<6; ++i) {
fasciiFile << "Cov("<<i<<",j) ";
for (int j=0; j<7; ++j) {
fasciiFile << fbeamspot.covariance(i,j) << " ";
}
fasciiFile << std::endl;
}
// beam width error
if (inputBeamWidth_ > 0 ) {
fasciiFile << "Cov(6,j) 0 0 0 0 0 0 " << "1e-4" << std::endl;
} else {
fasciiFile << "Cov(6,j) 0 0 0 0 0 0 " << fbeamspot.covariance(6,6) << std::endl;
}
fasciiFile << "EmittanceX " << fbeamspot.emittanceX() << std::endl;
fasciiFile << "EmittanceY " << fbeamspot.emittanceY() << std::endl;
fasciiFile << "BetaStar " << fbeamspot.betaStar() << std::endl;
*/
}
| void PVFitter::FitPerBunchCrossing | ( | ) | [inline] |
Definition at line 57 of file PVFitter.h.
References fFitPerBunchCrossing.
{ fFitPerBunchCrossing = true; }
| reco::BeamSpot PVFitter::getBeamSpot | ( | ) | [inline] |
Definition at line 85 of file PVFitter.h.
References fbeamspot.
Referenced by AlcaBeamMonitor::endLuminosityBlock(), and BeamFitter::runPVandTrkFitter().
{ return fbeamspot; }
| std::map<int, reco::BeamSpot> PVFitter::getBeamSpotMap | ( | ) | [inline] |
Definition at line 86 of file PVFitter.h.
References fbspotMap.
Referenced by BeamFitter::runPVandTrkFitter().
{ return fbspotMap; }
| int* PVFitter::getFitLSRange | ( | ) | [inline] |
Definition at line 88 of file PVFitter.h.
References fbeginLumiOfFit, fendLumiOfFit, and tmp.
{
int *tmp=new int[2];
tmp[0] = fbeginLumiOfFit;
tmp[1] = fendLumiOfFit;
return tmp;
}
| int PVFitter::getNPVs | ( | ) | [inline] |
Definition at line 114 of file PVFitter.h.
References pvStore_.
Referenced by BeamFitter::getNPVs().
{ return pvStore_.size(); }
| const std::map<int, int>& PVFitter::getNPVsperBX | ( | ) | [inline] |
Definition at line 116 of file PVFitter.h.
References bxMap_, Association::map, npvsmap_, and findQualityFiles::size.
Referenced by BeamFitter::getNPVsperBX().
{
npvsmap_.clear();
for ( std::map<int,std::vector<BeamSpotFitPVData> >::const_iterator pvStore = bxMap_.begin();
pvStore!=bxMap_.end(); ++pvStore) {
//std::cout << "bx " << pvStore->first << " NPVs = " << (pvStore->second).size() << std::endl;
npvsmap_[ pvStore->first ] = (pvStore->second).size();
}
return npvsmap_;
}
| std::vector<BeamSpotFitPVData> PVFitter::getpvStore | ( | ) | [inline] |
Definition at line 55 of file PVFitter.h.
References pvStore_.
Referenced by BeamFitter::getPVvectorSize().
{ return pvStore_; }
| time_t* PVFitter::getRefTime | ( | ) | [inline] |
Definition at line 95 of file PVFitter.h.
References freftime.
| double PVFitter::getWidthX | ( | ) | [inline] |
| double PVFitter::getWidthXerr | ( | ) | [inline] |
Definition at line 51 of file PVFitter.h.
References fwidthXerr.
Referenced by BeamFitter::runPVandTrkFitter().
{ return fwidthXerr; }
| double PVFitter::getWidthY | ( | ) | [inline] |
| double PVFitter::getWidthYerr | ( | ) | [inline] |
| double PVFitter::getWidthZ | ( | ) | [inline] |
| double PVFitter::getWidthZerr | ( | ) | [inline] |
| bool PVFitter::IsFitPerBunchCrossing | ( | ) | [inline] |
Definition at line 87 of file PVFitter.h.
References fFitPerBunchCrossing.
Referenced by BeamFitter::dumpTxtFile(), and BeamFitter::runPVandTrkFitter().
{ return fFitPerBunchCrossing; }
| double PVFitter::pvQuality | ( | const BeamSpotFitPVData & | pv | ) | const |
vertex quality measure
Definition at line 557 of file PVFitter.cc.
References BeamSpotFitPVData::posCorr, and BeamSpotFitPVData::posError.
| double PVFitter::pvQuality | ( | const reco::Vertex & | pv | ) | const |
vertex quality measure
Definition at line 546 of file PVFitter.cc.
References reco::Vertex::covariance().
Referenced by compressStore(), and readEvent().
{
//
// determinant of the transverse part of the PV covariance matrix
//
return
pv.covariance(0,0)*pv.covariance(1,1)-
pv.covariance(0,1)*pv.covariance(0,1);
}
| void PVFitter::readEvent | ( | const edm::Event & | iEvent | ) |
Definition at line 83 of file PVFitter.cc.
References BeamSpotTreeData::bunchCrossing(), edm::EventBase::bunchCrossing(), BeamSpotFitPVData::bunchCrossing, bxMap_, compressStore(), dynamicQualityCut_, fFitPerBunchCrossing, ftree_, edm::Event::getByLabel(), hPVx, hPVy, edm::EventBase::id(), BeamSpotTreeData::lumi(), edm::EventBase::luminosityBlock(), maxNrVertices_, minVtxNdf_, minVtxWgt_, BeamSpotFitPVData::posCorr, BeamSpotFitPVData::posError, BeamSpotFitPVData::position, BeamSpotTreeData::pvData(), pvQuality(), pvStore_, edm::EventID::run(), BeamSpotTreeData::run(), theBeamSpotTreeData_, and vertexLabel_.
Referenced by AlcaBeamMonitor::analyze(), and BeamFitter::readEvent().
{
// frun = iEvent.id().run();
// const edm::TimeValue_t ftimestamp = iEvent.time().value();
// const std::time_t ftmptime = ftimestamp >> 32;
// if (fbeginLumiOfFit == -1) freftime[0] = freftime[1] = ftmptime;
// if (freftime[0] == 0 || ftmptime < freftime[0]) freftime[0] = ftmptime;
// const char* fbeginTime = formatTime(freftime[0]);
// sprintf(fbeginTimeOfFit,"%s",fbeginTime);
// if (freftime[1] == 0 || ftmptime > freftime[1]) freftime[1] = ftmptime;
// const char* fendTime = formatTime(freftime[1]);
// sprintf(fendTimeOfFit,"%s",fendTime);
// flumi = iEvent.luminosityBlock();
// frunFit = frun;
// if (fbeginLumiOfFit == -1 || fbeginLumiOfFit > flumi) fbeginLumiOfFit = flumi;
// if (fendLumiOfFit == -1 || fendLumiOfFit < flumi) fendLumiOfFit = flumi;
// std::cout << "flumi = " <<flumi<<"; fbeginLumiOfFit = " << fbeginLumiOfFit <<"; fendLumiOfFit = "<<fendLumiOfFit<<std::endl;
//------ Primary Vertices
edm::Handle< reco::VertexCollection > PVCollection;
bool hasPVs = false;
//edm::View<reco::Vertex> vertices;
//const reco::VertexCollection & vertices = 0;
if ( iEvent.getByLabel(vertexLabel_, PVCollection ) ) {
//pv = *PVCollection;
//vertices = *PVCollection;
hasPVs = true;
}
//------
if ( hasPVs ) {
for (reco::VertexCollection::const_iterator pv = PVCollection->begin(); pv != PVCollection->end(); ++pv ) {
//for ( size_t ipv=0; ipv != pv.size(); ++ipv ) {
//--- vertex selection
if ( pv->isFake() || pv->tracksSize()==0 ) continue;
if ( pv->ndof() < minVtxNdf_ || (pv->ndof()+3.)/pv->tracksSize()<2*minVtxWgt_ ) continue;
//---
hPVx->Fill( pv->x(), pv->z() );
hPVy->Fill( pv->y(), pv->z() );
//
// 3D fit section
//
// apply additional quality cut
if ( pvQuality(*pv)>dynamicQualityCut_ ) continue;
// if store exceeds max. size: reduce size and apply new quality cut
if ( pvStore_.size()>=maxNrVertices_ ) {
compressStore();
if ( pvQuality(*pv)>dynamicQualityCut_ ) continue;
}
//
// copy PV to store
//
int bx = iEvent.bunchCrossing();
BeamSpotFitPVData pvData;
pvData.bunchCrossing = bx;
pvData.position[0] = pv->x();
pvData.position[1] = pv->y();
pvData.position[2] = pv->z();
pvData.posError[0] = pv->xError();
pvData.posError[1] = pv->yError();
pvData.posError[2] = pv->zError();
pvData.posCorr[0] = pv->covariance(0,1)/pv->xError()/pv->yError();
pvData.posCorr[1] = pv->covariance(0,2)/pv->xError()/pv->zError();
pvData.posCorr[2] = pv->covariance(1,2)/pv->yError()/pv->zError();
pvStore_.push_back(pvData);
if(ftree_ != 0){
theBeamSpotTreeData_.run(iEvent.id().run());
theBeamSpotTreeData_.lumi(iEvent.luminosityBlock());
theBeamSpotTreeData_.bunchCrossing(bx);
theBeamSpotTreeData_.pvData(pvData);
ftree_->Fill();
}
if (fFitPerBunchCrossing) bxMap_[bx].push_back(pvData);
}
}
}
| void PVFitter::resetAll | ( | ) | [inline] |
Definition at line 74 of file PVFitter.h.
References align::BeamSpot, bxMap_, dynamicQualityCut_, fbeamspot, fbspotMap, hPVx, hPVy, pvStore_, resetLSRange(), and resetRefTime().
Referenced by BeamFitter::BeamFitter(), AlcaBeamMonitor::endLuminosityBlock(), and BeamFitter::resetPVFitter().
{
resetLSRange();
resetRefTime();
pvStore_.clear();
bxMap_.clear();
dynamicQualityCut_ = 1.e30;
hPVx->Reset();
hPVy->Reset();
fbeamspot = reco::BeamSpot();
fbspotMap.clear();
};
| void PVFitter::resetLSRange | ( | ) | [inline] |
Definition at line 60 of file PVFitter.h.
References fbeginLumiOfFit, and fendLumiOfFit.
Referenced by resetAll().
{ fbeginLumiOfFit=fendLumiOfFit=-1; }
| void PVFitter::resetRefTime | ( | ) | [inline] |
| void PVFitter::resizepvStore | ( | unsigned int | rmSize | ) | [inline] |
Definition at line 103 of file PVFitter.h.
References pvStore_.
Referenced by BeamFitter::resizePVvector().
| bool PVFitter::runBXFitter | ( | ) |
Definition at line 185 of file PVFitter.cc.
References align::BeamSpot, bxMap_, errorScale_, fbeamspot, fbspotMap, fcn(), fwidthX, fwidthXerr, fwidthY, fwidthYerr, fwidthZ, fwidthZerr, Association::map, makeMuonMisalignmentScenario::matrix, minNrVertices_, funct::pow(), reco::BeamSpot::setBeamWidthX(), reco::BeamSpot::setBeamWidthY(), FcnBeamSpotFitPV::setLimits(), reco::BeamSpot::setType(), sigmaCut_, findQualityFiles::size, and reco::BeamSpot::Tracker.
Referenced by BeamFitter::runPVandTrkFitter().
{
edm::LogInfo("PVFitter") << " Number of bunch crossings: " << bxMap_.size() << std::endl;
bool fit_ok = true;
for ( std::map<int,std::vector<BeamSpotFitPVData> >::const_iterator pvStore = bxMap_.begin();
pvStore!=bxMap_.end(); ++pvStore) {
// first set null beam spot in case
// fit fails
fbspotMap[pvStore->first] = reco::BeamSpot();
edm::LogInfo("PVFitter") << " Number of PVs collected for PVFitter: " << (pvStore->second).size() << " in bx: " << pvStore->first << std::endl;
if ( (pvStore->second).size() <= minNrVertices_ ) {
edm::LogWarning("PVFitter") << " not enough PVs, continue" << std::endl;
fit_ok = false;
continue;
}
//bool fit_ok = false;
edm::LogInfo("PVFitter") << "Calculating beam spot with PVs ..." << std::endl;
//
// LL function and fitter
//
FcnBeamSpotFitPV* fcn = new FcnBeamSpotFitPV(pvStore->second);
TFitterMinuit minuitx;
minuitx.SetMinuitFCN(fcn);
//
// fit parameters: positions, widths, x-y correlations, tilts in xz and yz
//
minuitx.SetParameter(0,"x",0.,0.02,-10.,10.);
minuitx.SetParameter(1,"y",0.,0.02,-10.,10.);
minuitx.SetParameter(2,"z",0.,0.20,-30.,30.);
minuitx.SetParameter(3,"ex",0.015,0.01,0.,10.);
minuitx.SetParameter(4,"corrxy",0.,0.02,-1.,1.);
minuitx.SetParameter(5,"ey",0.015,0.01,0.,10.);
minuitx.SetParameter(6,"dxdz",0.,0.0002,-0.1,0.1);
minuitx.SetParameter(7,"dydz",0.,0.0002,-0.1,0.1);
minuitx.SetParameter(8,"ez",1.,0.1,0.,30.);
minuitx.SetParameter(9,"scale",errorScale_,errorScale_/10.,errorScale_/2.,errorScale_*2.);
//
// first iteration without correlations
//
int ierr(0);
minuitx.FixParameter(4);
minuitx.FixParameter(6);
minuitx.FixParameter(7);
minuitx.FixParameter(9);
minuitx.SetMaxIterations(100);
// minuitx.SetPrintLevel(3);
minuitx.SetPrintLevel(0);
minuitx.CreateMinimizer();
ierr = minuitx.Minimize();
if ( ierr ) {
edm::LogInfo("PVFitter") << "3D beam spot fit failed in 1st iteration" << std::endl;
fit_ok = false;
continue;
}
//
// refit with harder selection on vertices
//
fcn->setLimits(minuitx.GetParameter(0)-sigmaCut_*minuitx.GetParameter(3),
minuitx.GetParameter(0)+sigmaCut_*minuitx.GetParameter(3),
minuitx.GetParameter(1)-sigmaCut_*minuitx.GetParameter(5),
minuitx.GetParameter(1)+sigmaCut_*minuitx.GetParameter(5),
minuitx.GetParameter(2)-sigmaCut_*minuitx.GetParameter(8),
minuitx.GetParameter(2)+sigmaCut_*minuitx.GetParameter(8));
ierr = minuitx.Minimize();
if ( ierr ) {
edm::LogInfo("PVFitter") << "3D beam spot fit failed in 2nd iteration" << std::endl;
fit_ok = false;
continue;
}
//
// refit with correlations
//
minuitx.ReleaseParameter(4);
minuitx.ReleaseParameter(6);
minuitx.ReleaseParameter(7);
ierr = minuitx.Minimize();
if ( ierr ) {
edm::LogInfo("PVFitter") << "3D beam spot fit failed in 3rd iteration" << std::endl;
fit_ok = false;
continue;
}
// refit with floating scale factor
// minuitx.ReleaseParameter(9);
// minuitx.Minimize();
//minuitx.PrintResults(0,0);
fwidthX = minuitx.GetParameter(3);
fwidthY = minuitx.GetParameter(5);
fwidthZ = minuitx.GetParameter(8);
fwidthXerr = minuitx.GetParError(3);
fwidthYerr = minuitx.GetParError(5);
fwidthZerr = minuitx.GetParError(8);
reco::BeamSpot::CovarianceMatrix matrix;
// need to get the full cov matrix
matrix(0,0) = pow( minuitx.GetParError(0), 2);
matrix(1,1) = pow( minuitx.GetParError(1), 2);
matrix(2,2) = pow( minuitx.GetParError(2), 2);
matrix(3,3) = fwidthZerr * fwidthZerr;
matrix(4,4) = pow( minuitx.GetParError(6), 2);
matrix(5,5) = pow( minuitx.GetParError(7), 2);
matrix(6,6) = fwidthXerr * fwidthXerr;
fbeamspot = reco::BeamSpot( reco::BeamSpot::Point(minuitx.GetParameter(0),
minuitx.GetParameter(1),
minuitx.GetParameter(2) ),
fwidthZ,
minuitx.GetParameter(6), minuitx.GetParameter(7),
fwidthX,
matrix );
fbeamspot.setBeamWidthX( fwidthX );
fbeamspot.setBeamWidthY( fwidthY );
fbeamspot.setType( reco::BeamSpot::Tracker );
fbspotMap[pvStore->first] = fbeamspot;
edm::LogInfo("PVFitter") << "3D PV fit done for this bunch crossing."<<std::endl;
minuitx.Clear();
//delete fcn;
fit_ok = fit_ok & true;
}
return fit_ok;
}
| bool PVFitter::runFitter | ( | ) |
Definition at line 319 of file PVFitter.cc.
References align::BeamSpot, do3DFit_, errorScale_, fbeamspot, fcn(), fwidthX, fwidthXerr, fwidthY, fwidthYerr, fwidthZ, fwidthZerr, hPVx, hPVy, edm::detail::isnan(), makeMuonMisalignmentScenario::matrix, minNrVertices_, funct::pow(), pvStore_, reco::BeamSpot::setBeamWidthX(), reco::BeamSpot::setBeamWidthY(), FcnBeamSpotFitPV::setLimits(), reco::BeamSpot::setType(), sigmaCut_, and reco::BeamSpot::Tracker.
Referenced by AlcaBeamMonitor::endLuminosityBlock(), and BeamFitter::runPVandTrkFitter().
{
edm::LogInfo("PVFitter") << " Number of PVs collected for PVFitter: " << pvStore_.size() << std::endl;
if ( pvStore_.size() <= minNrVertices_ ) return false;
//bool fit_ok = false;
if ( ! do3DFit_ ) {
TH1F *h1PVx = (TH1F*) hPVx->ProjectionX("h1PVx", 0, -1, "e");
TH1F *h1PVy = (TH1F*) hPVy->ProjectionX("h1PVy", 0, -1, "e");
TH1F *h1PVz = (TH1F*) hPVx->ProjectionY("h1PVz", 0, -1, "e");
h1PVx->Fit("gaus","QLM0");
h1PVy->Fit("gaus","QLM0");
h1PVz->Fit("gaus","QLM0");
TF1 *gausx = h1PVx->GetFunction("gaus");
TF1 *gausy = h1PVy->GetFunction("gaus");
TF1 *gausz = h1PVz->GetFunction("gaus");
fwidthX = gausx->GetParameter(2);
fwidthY = gausy->GetParameter(2);
fwidthZ = gausz->GetParameter(2);
fwidthXerr = gausx->GetParError(2);
fwidthYerr = gausy->GetParError(2);
fwidthZerr = gausz->GetParError(2);
reco::BeamSpot::CovarianceMatrix matrix;
matrix(2,2) = gausz->GetParError(1) * gausz->GetParError(1);
matrix(3,3) = fwidthZerr * fwidthZerr;
matrix(6,6) = fwidthXerr * fwidthXerr;
fbeamspot = reco::BeamSpot( reco::BeamSpot::Point(gausx->GetParameter(1),
gausy->GetParameter(1),
gausz->GetParameter(1) ),
fwidthZ,
0., 0.,
fwidthX,
matrix );
fbeamspot.setBeamWidthX( fwidthX );
fbeamspot.setBeamWidthY( fwidthY );
fbeamspot.setType(reco::BeamSpot::Tracker);
}
else { // do 3D fit
//
// LL function and fitter
//
FcnBeamSpotFitPV* fcn = new FcnBeamSpotFitPV(pvStore_);
TFitterMinuit minuitx;
minuitx.SetMinuitFCN(fcn);
//
// fit parameters: positions, widths, x-y correlations, tilts in xz and yz
//
minuitx.SetParameter(0,"x",0.,0.02,-10.,10.);
minuitx.SetParameter(1,"y",0.,0.02,-10.,10.);
minuitx.SetParameter(2,"z",0.,0.20,-30.,30.);
//minuitx.SetParameter(3,"ex",0.015,0.01,0.,10.);
minuitx.SetParameter(3,"ex",0.015,0.01,0.0001,10.);
minuitx.SetParameter(4,"corrxy",0.,0.02,-1.,1.);
//minuitx.SetParameter(5,"ey",0.015,0.01,0.,10.);
minuitx.SetParameter(5,"ey",0.015,0.01,0.0001,10.);
minuitx.SetParameter(6,"dxdz",0.,0.0002,-0.1,0.1);
minuitx.SetParameter(7,"dydz",0.,0.0002,-0.1,0.1);
//minuitx.SetParameter(8,"ez",1.,0.1,0.,30.);
minuitx.SetParameter(8,"ez",1.,0.1,1.0,30.);
minuitx.SetParameter(9,"scale",errorScale_,errorScale_/10.,errorScale_/2.,errorScale_*2.);
//
// first iteration without correlations
//
int ierr(0);
minuitx.FixParameter(4);
minuitx.FixParameter(6);
minuitx.FixParameter(7);
minuitx.FixParameter(9);
minuitx.SetMaxIterations(100);
// minuitx.SetPrintLevel(3);
minuitx.SetPrintLevel(0);
minuitx.CreateMinimizer();
ierr = minuitx.Minimize();
if ( ierr ) {
edm::LogWarning("PVFitter") << "3D beam spot fit failed in 1st iteration" << std::endl;
return false;
}
//
// refit with harder selection on vertices
//
fcn->setLimits(minuitx.GetParameter(0)-sigmaCut_*minuitx.GetParameter(3),
minuitx.GetParameter(0)+sigmaCut_*minuitx.GetParameter(3),
minuitx.GetParameter(1)-sigmaCut_*minuitx.GetParameter(5),
minuitx.GetParameter(1)+sigmaCut_*minuitx.GetParameter(5),
minuitx.GetParameter(2)-sigmaCut_*minuitx.GetParameter(8),
minuitx.GetParameter(2)+sigmaCut_*minuitx.GetParameter(8));
ierr = minuitx.Minimize();
if ( ierr ) {
edm::LogWarning("PVFitter") << "3D beam spot fit failed in 2nd iteration" << std::endl;
return false;
}
//
// refit with correlations
//
minuitx.ReleaseParameter(4);
minuitx.ReleaseParameter(6);
minuitx.ReleaseParameter(7);
ierr = minuitx.Minimize();
if ( ierr ) {
edm::LogWarning("PVFitter") << "3D beam spot fit failed in 3rd iteration" << std::endl;
return false;
}
// refit with floating scale factor
// minuitx.ReleaseParameter(9);
// minuitx.Minimize();
//minuitx.PrintResults(0,0);
fwidthX = minuitx.GetParameter(3);
fwidthY = minuitx.GetParameter(5);
fwidthZ = minuitx.GetParameter(8);
fwidthXerr = minuitx.GetParError(3);
fwidthYerr = minuitx.GetParError(5);
fwidthZerr = minuitx.GetParError(8);
// check errors on widths and sigmaZ for nan
if ( isnan(fwidthXerr) || isnan(fwidthYerr) || isnan(fwidthZerr) ) {
edm::LogWarning("PVFitter") << "3D beam spot fit returns nan in 3rd iteration" << std::endl;
return false;
}
reco::BeamSpot::CovarianceMatrix matrix;
// need to get the full cov matrix
matrix(0,0) = pow( minuitx.GetParError(0), 2);
matrix(1,1) = pow( minuitx.GetParError(1), 2);
matrix(2,2) = pow( minuitx.GetParError(2), 2);
matrix(3,3) = fwidthZerr * fwidthZerr;
matrix(6,6) = fwidthXerr * fwidthXerr;
fbeamspot = reco::BeamSpot( reco::BeamSpot::Point(minuitx.GetParameter(0),
minuitx.GetParameter(1),
minuitx.GetParameter(2) ),
fwidthZ,
minuitx.GetParameter(6), minuitx.GetParameter(7),
fwidthX,
matrix );
fbeamspot.setBeamWidthX( fwidthX );
fbeamspot.setBeamWidthY( fwidthY );
fbeamspot.setType(reco::BeamSpot::Tracker);
}
return true; //FIXME: Need to add quality test for the fit results!
}
| void PVFitter::setFitLSRange | ( | int | ls0, |
| int | ls1 | ||
| ) | [inline] |
Definition at line 67 of file PVFitter.h.
References fbeginLumiOfFit, and fendLumiOfFit.
{
fbeginLumiOfFit = ls0;
fendLumiOfFit = ls1;
}
| void PVFitter::setRefTime | ( | std::time_t | t0, |
| std::time_t | t1 | ||
| ) | [inline] |
Definition at line 63 of file PVFitter.h.
References freftime.
| void PVFitter::setTree | ( | TTree * | tree | ) |
Definition at line 180 of file PVFitter.cc.
References BeamSpotTreeData::branch(), ftree_, theBeamSpotTreeData_, and diffTreeTool::tree.
Referenced by BeamFitter::BeamFitter().
{
ftree_ = tree;
theBeamSpotTreeData_.branch(ftree_);
}
std::map< int, std::vector<BeamSpotFitPVData> > PVFitter::bxMap_ [private] |
Definition at line 197 of file PVFitter.h.
Referenced by getNPVsperBX(), readEvent(), resetAll(), and runBXFitter().
bool PVFitter::debug_ [private] |
Definition at line 139 of file PVFitter.h.
Referenced by PVFitter().
bool PVFitter::do3DFit_ [private] |
Definition at line 140 of file PVFitter.h.
Referenced by PVFitter(), and runFitter().
double PVFitter::dynamicQualityCut_ [private] |
Definition at line 198 of file PVFitter.h.
Referenced by compressStore(), PVFitter(), readEvent(), and resetAll().
double PVFitter::errorScale_ [private] |
Definition at line 153 of file PVFitter.h.
Referenced by PVFitter(), runBXFitter(), and runFitter().
std::ofstream PVFitter::fasciiFile [private] |
Definition at line 137 of file PVFitter.h.
reco::BeamSpot PVFitter::fbeamspot [private] |
Definition at line 133 of file PVFitter.h.
Referenced by getBeamSpot(), resetAll(), runBXFitter(), and runFitter().
int PVFitter::fbeginLumiOfFit [private] |
Definition at line 172 of file PVFitter.h.
Referenced by getFitLSRange(), resetLSRange(), and setFitLSRange().
char PVFitter::fbeginTimeOfFit[32] [private] |
Definition at line 174 of file PVFitter.h.
std::map<int,reco::BeamSpot> PVFitter::fbspotMap [private] |
Definition at line 134 of file PVFitter.h.
Referenced by getBeamSpotMap(), resetAll(), and runBXFitter().
double PVFitter::fdxdz [private] |
Definition at line 187 of file PVFitter.h.
double PVFitter::fdxdzErr [private] |
Definition at line 193 of file PVFitter.h.
double PVFitter::fdydz [private] |
Definition at line 188 of file PVFitter.h.
double PVFitter::fdydzErr [private] |
Definition at line 194 of file PVFitter.h.
int PVFitter::fendLumiOfFit [private] |
Definition at line 173 of file PVFitter.h.
Referenced by getFitLSRange(), resetLSRange(), and setFitLSRange().
char PVFitter::fendTimeOfFit[32] [private] |
Definition at line 175 of file PVFitter.h.
bool PVFitter::fFitPerBunchCrossing [private] |
Definition at line 135 of file PVFitter.h.
Referenced by FitPerBunchCrossing(), IsFitPerBunchCrossing(), PVFitter(), and readEvent().
int PVFitter::flumi [private] |
Definition at line 157 of file PVFitter.h.
std::time_t PVFitter::freftime[2] [private] |
Definition at line 158 of file PVFitter.h.
Referenced by getRefTime(), resetRefTime(), and setRefTime().
int PVFitter::frun [private] |
Definition at line 156 of file PVFitter.h.
int PVFitter::frunFit [private] |
Definition at line 171 of file PVFitter.h.
double PVFitter::fsigmaZ [private] |
Definition at line 186 of file PVFitter.h.
double PVFitter::fsigmaZErr [private] |
Definition at line 192 of file PVFitter.h.
TTree* PVFitter::ftree_ [private] |
Definition at line 162 of file PVFitter.h.
Referenced by readEvent(), and setTree().
double PVFitter::fwidthX [private] |
Definition at line 176 of file PVFitter.h.
Referenced by getWidthX(), runBXFitter(), and runFitter().
double PVFitter::fwidthXerr [private] |
Definition at line 179 of file PVFitter.h.
Referenced by getWidthXerr(), runBXFitter(), and runFitter().
double PVFitter::fwidthY [private] |
Definition at line 177 of file PVFitter.h.
Referenced by getWidthY(), runBXFitter(), and runFitter().
double PVFitter::fwidthYerr [private] |
Definition at line 180 of file PVFitter.h.
Referenced by getWidthYerr(), runBXFitter(), and runFitter().
double PVFitter::fwidthZ [private] |
Definition at line 178 of file PVFitter.h.
Referenced by getWidthZ(), runBXFitter(), and runFitter().
double PVFitter::fwidthZerr [private] |
Definition at line 181 of file PVFitter.h.
Referenced by getWidthZerr(), runBXFitter(), and runFitter().
double PVFitter::fx [private] |
Definition at line 183 of file PVFitter.h.
double PVFitter::fxErr [private] |
Definition at line 189 of file PVFitter.h.
double PVFitter::fy [private] |
Definition at line 184 of file PVFitter.h.
double PVFitter::fyErr [private] |
Definition at line 190 of file PVFitter.h.
double PVFitter::fz [private] |
Definition at line 185 of file PVFitter.h.
double PVFitter::fzErr [private] |
Definition at line 191 of file PVFitter.h.
TH2F* PVFitter::hPVx [private] |
Definition at line 160 of file PVFitter.h.
Referenced by PVFitter(), readEvent(), resetAll(), and runFitter().
TH2F* PVFitter::hPVy [private] |
Definition at line 160 of file PVFitter.h.
Referenced by PVFitter(), readEvent(), resetAll(), and runFitter().
unsigned int PVFitter::maxNrVertices_ [private] |
Definition at line 145 of file PVFitter.h.
Referenced by PVFitter(), and readEvent().
double PVFitter::maxVtxNormChi2_ [private] |
Definition at line 148 of file PVFitter.h.
Referenced by PVFitter().
double PVFitter::maxVtxR_ [private] |
Definition at line 151 of file PVFitter.h.
Referenced by PVFitter().
double PVFitter::maxVtxZ_ [private] |
Definition at line 152 of file PVFitter.h.
Referenced by PVFitter().
unsigned int PVFitter::minNrVertices_ [private] |
Definition at line 146 of file PVFitter.h.
Referenced by PVFitter(), runBXFitter(), and runFitter().
double PVFitter::minVtxNdf_ [private] |
Definition at line 147 of file PVFitter.h.
Referenced by PVFitter(), and readEvent().
unsigned int PVFitter::minVtxTracks_ [private] |
Definition at line 149 of file PVFitter.h.
Referenced by PVFitter().
double PVFitter::minVtxWgt_ [private] |
Definition at line 150 of file PVFitter.h.
Referenced by PVFitter(), and readEvent().
std::map<int, int> PVFitter::npvsmap_ [private] |
Definition at line 132 of file PVFitter.h.
Referenced by getNPVsperBX().
std::string PVFitter::outputTxt_ [private] |
Definition at line 143 of file PVFitter.h.
std::vector<double> PVFitter::pvQualities_ [private] |
Definition at line 199 of file PVFitter.h.
Referenced by compressStore().
std::vector<BeamSpotFitPVData> PVFitter::pvStore_ [private] |
Definition at line 196 of file PVFitter.h.
Referenced by compressStore(), getNPVs(), getpvStore(), readEvent(), resetAll(), resizepvStore(), and runFitter().
double PVFitter::sigmaCut_ [private] |
Definition at line 154 of file PVFitter.h.
Referenced by PVFitter(), runBXFitter(), and runFitter().
Definition at line 201 of file PVFitter.h.
Referenced by readEvent(), and setTree().
edm::InputTag PVFitter::vertexLabel_ [private] |
Definition at line 141 of file PVFitter.h.
Referenced by PVFitter(), and readEvent().
bool PVFitter::writeTxt_ [private] |
Definition at line 142 of file PVFitter.h.
1.7.3