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#include <MillePedeMonitor.h>
Public Member Functions | |
| void | fillCorrelations2D (float corr, const TransientTrackingRecHit::ConstRecHitPointer &hit) |
| void | fillDerivatives (const TransientTrackingRecHit::ConstRecHitPointer &recHit, const float *localDerivs, unsigned int nLocal, const float *globalDerivs, unsigned int nGlobal, const int *labels) |
| void | fillFrameToFrame (const AlignableDetOrUnitPtr &aliDet, const Alignable *ali) |
| void | fillPxbSurveyHistsChi2 (const float &chi2) |
| void | fillPxbSurveyHistsLocalPars (const float &a0, const float &a1, const float &S, const float &phi) |
| void | fillRefTrajectory (const ReferenceTrajectoryBase::ReferenceTrajectoryPtr &refTrajPtr) |
| void | fillResiduals (const TransientTrackingRecHit::ConstRecHitPointer &recHit, const TrajectoryStateOnSurface &tsos, unsigned int nHit, float residuum, float sigma, bool isY) |
| void | fillTrack (const reco::Track *track) |
| void | fillUsedTrack (const reco::Track *track, unsigned int nHitX, unsigned int nHitY) |
| MillePedeMonitor (TDirectory *rootDir) | |
| MillePedeMonitor (const char *rootFile="trackMonitor.root") | |
| ~MillePedeMonitor () | |
Private Member Functions | |
| template<class OBJECT_TYPE > | |
| void | addToDirectory (const std::vector< OBJECT_TYPE * > &objs, TDirectory *dir) const |
| template<class OBJECT_TYPE > | |
| std::vector< OBJECT_TYPE * > | cloneHists (const std::vector< OBJECT_TYPE * > &orgs, const TString &namAd, const TString &titAd) const |
| bool | equidistLogBins (double *bins, int nBins, double first, double last) const |
| void | fillResidualHists (const std::vector< TH1 * > &hists, float phiSensToNorm, float residuum, float sigma) |
| void | fillResidualHitHists (const std::vector< TH1 * > &hists, float angle, float residuum, float sigma, unsigned int nHit) |
| void | fillTrack (const reco::Track *track, std::vector< TH1 * > &trackHists1D, std::vector< TH2 * > &trackHists2D) |
| template<class OBJECT_TYPE > | |
| int | GetIndex (const std::vector< OBJECT_TYPE * > &vec, const TString &name) |
| bool | init (TDirectory *directory) |
Private Attributes | |
| std::vector< TH1 * > | myCorrHists |
| bool | myDeleteDir |
| std::vector< TH2 * > | myDerivHists2D |
| std::vector< TH2 * > | myFrame2FrameHists2D |
| std::vector< TH1 * > | myPxbSurveyHists |
| std::vector< TH2 * > | myResidHists2D |
| std::vector< std::vector< TH1 * > > | myResidHistsVec1DX |
| std::vector< std::vector< TH1 * > > | myResidHistsVec1DY |
| [0]=all [1]=TPB [2]=TPE [3]=TIB [4]=TID [5]=TOB [6]=TEC | |
| std::vector< TH1 * > | myResidHitHists1DX |
| [0]=all [1]=TPB [2]=TPE [3]=TIB [4]=TID [5]=TOB [6]=TEC | |
| std::vector< TH1 * > | myResidHitHists1DY |
| TDirectory * | myRootDir |
| std::vector< TH1 * > | myTrackHists1D |
| std::vector< TH2 * > | myTrackHists2D |
| std::vector< TH1 * > | myTrajectoryHists1D |
| std::vector< TH2 * > | myTrajectoryHists2D |
| std::vector< TH1 * > | myUsedTrackHists1D |
| std::vector< TH2 * > | myUsedTrackHists2D |
monitoring of MillePedeAlignmentAlgorithm and its input tracks
(last update by
)
Definition at line 42 of file MillePedeMonitor.h.
| MillePedeMonitor::MillePedeMonitor | ( | const char * | rootFile = "trackMonitor.root" | ) |
Definition at line 46 of file MillePedeMonitor.cc.
References init(), myDeleteDir, and myRootDir.
: myRootDir(0), myDeleteDir(false) { myRootDir = TFile::Open(rootFileName, "recreate"); myDeleteDir = true; this->init(myRootDir); }
| MillePedeMonitor::MillePedeMonitor | ( | TDirectory * | rootDir | ) |
Definition at line 56 of file MillePedeMonitor.cc.
References init(), myDeleteDir, and myRootDir.
: myRootDir(0), myDeleteDir(false) { // cout << "MillePedeMonitor using input TDirectory" << endl; myRootDir = rootDir; myDeleteDir = false; this->init(myRootDir); }
| MillePedeMonitor::~MillePedeMonitor | ( | ) |
Definition at line 68 of file MillePedeMonitor.cc.
References myDeleteDir, and myRootDir.
{
myRootDir->Write();
if (myDeleteDir) delete myRootDir; //hists are deleted with their directory
}
| void MillePedeMonitor::addToDirectory | ( | const std::vector< OBJECT_TYPE * > & | objs, |
| TDirectory * | dir | ||
| ) | const [private] |
Definition at line 139 of file MillePedeMonitor.h.
Referenced by init().
{
// OBJECT_TYPE is required to have method SetDirectory(TDirectory *dir)
for (typename std::vector<OBJECT_TYPE*>::const_iterator iter = obs.begin(), iterEnd = obs.end();
iter != iterEnd; ++iter) {
if (*iter) (*iter)->SetDirectory(dir);
}
}
| std::vector< OBJECT_TYPE * > MillePedeMonitor::cloneHists | ( | const std::vector< OBJECT_TYPE * > & | orgs, |
| const TString & | namAd, | ||
| const TString & | titAd | ||
| ) | const [private] |
Definition at line 119 of file MillePedeMonitor.h.
References query::result.
Referenced by init().
{
// OBJECT_TYPE required to have methods Clone(const char*), GetName(), SetTitle(const char*) and GetTitle()
std::vector<OBJECT_TYPE*> result;
for (typename std::vector<OBJECT_TYPE*>::const_iterator iter = orgs.begin(), iterEnd = orgs.end();
iter != iterEnd; ++iter) {
if (!(*iter)) continue;
result.push_back(static_cast<OBJECT_TYPE*>((*iter)->Clone(namAd + (*iter)->GetName())));
if (result.back()) result.back()->SetTitle((*iter)->GetTitle() + titAd);
else edm::LogError("Alignment") <<"@SUB=MillePedeMonitor::cloneHists"
<< "out of memory?";
}
return result;
}
| bool MillePedeMonitor::equidistLogBins | ( | double * | bins, |
| int | nBins, | ||
| double | first, | ||
| double | last | ||
| ) | const [private] |
Definition at line 500 of file MillePedeMonitor.cc.
References first, i, and prof2calltree::last.
Referenced by init().
{
// Filling 'bins' with borders of 'nBins' bins between 'first' and 'last'
// that are equidistant when viewed in log scale,
// so 'bins' must have length nBins+1;
// If 'first', 'last' or 'nBins' are not positive, failure is reported.
if (nBins < 1 || first <= 0. || last <= 0.) return false;
bins[0] = first;
bins[nBins] = last;
const double firstLog = TMath::Log10(bins[0]);
const double lastLog = TMath::Log10(bins[nBins]);
for (int i = 1; i < nBins; ++i) {
bins[i] = TMath::Power(10., firstLog + i*(lastLog-firstLog)/(nBins));
}
return true;
}
| void MillePedeMonitor::fillCorrelations2D | ( | float | corr, |
| const TransientTrackingRecHit::ConstRecHitPointer & | hit | ||
| ) |
Definition at line 1066 of file MillePedeMonitor.cc.
References AlignableBeamSpot::detId(), myCorrHists, and align::Tracker.
{
const DetId detId(recHit->det()->geographicalId());
if (detId.det() != DetId::Tracker) return;
if ((detId.subdetId() < 1 || detId.subdetId() > 6) &&
detId!=AlignableBeamSpot::detId()) {
edm::LogWarning("Alignment") << "@SUB=MillePedeMonitor::fillCorrelations2D"
<< "Expect subdetId from 1 to 6, got " << detId.subdetId();
return;
}
myCorrHists[detId.subdetId()-1]->Fill(corr);
}
| void MillePedeMonitor::fillDerivatives | ( | const TransientTrackingRecHit::ConstRecHitPointer & | recHit, |
| const float * | localDerivs, | ||
| unsigned int | nLocal, | ||
| const float * | globalDerivs, | ||
| unsigned int | nGlobal, | ||
| const int * | labels | ||
| ) |
Definition at line 837 of file MillePedeMonitor.cc.
References GetIndex(), i, myDerivHists2D, phi, and PedeLabelerBase::theMaxNumParam.
{
const double phi = recHit->det()->position().phi();
static const int iLocPar = this->GetIndex(myDerivHists2D, "localDerivsPar");
static const int iLocPhi = this->GetIndex(myDerivHists2D, "localDerivsPhi");
static const int iLocParLog = this->GetIndex(myDerivHists2D, "localDerivsParLog");
static const int iLocPhiLog = this->GetIndex(myDerivHists2D, "localDerivsPhiLog");
for (unsigned int i = 0; i < nLocal; ++i) {
myDerivHists2D[iLocPar]->Fill(i, localDerivs[i]);
myDerivHists2D[iLocPhi]->Fill(phi, localDerivs[i]);
if (localDerivs[i]) {
myDerivHists2D[iLocParLog]->Fill(i, TMath::Abs(localDerivs[i]));
myDerivHists2D[iLocPhiLog]->Fill(phi, TMath::Abs(localDerivs[i]));
}
}
static const int iGlobPar = this->GetIndex(myDerivHists2D, "globalDerivsPar");
static const int iGlobPhi = this->GetIndex(myDerivHists2D, "globalDerivsPhi");
static const int iGlobParLog = this->GetIndex(myDerivHists2D, "globalDerivsParLog");
static const int iGlobPhiLog = this->GetIndex(myDerivHists2D, "globalDerivsPhiLog");
// static const int iGlobPhiLog2 = this->GetIndex(myDerivHists2D, "globalDerivsPhiLog2");
for (unsigned int i = 0; i < nGlobal; ++i) {
const unsigned int parNum = (labels ? (labels[i]%PedeLabelerBase::theMaxNumParam)-1 : i);
myDerivHists2D[iGlobPar]->Fill(parNum, globalDerivs[i]);
myDerivHists2D[iGlobPhi]->Fill(phi, globalDerivs[i]);
if (globalDerivs[i]) {
myDerivHists2D[iGlobParLog]->Fill(parNum, TMath::Abs(globalDerivs[i]));
myDerivHists2D[iGlobPhiLog]->Fill(phi, TMath::Abs(globalDerivs[i]));
// myDerivHists2D[iGlobPhiLog2]->Fill(phi, TMath::Abs(globalDerivs[i]));
}
}
}
| void MillePedeMonitor::fillFrameToFrame | ( | const AlignableDetOrUnitPtr & | aliDet, |
| const Alignable * | ali | ||
| ) |
Definition at line 1026 of file MillePedeMonitor.cc.
References first, FrameToFrameDerivative::frameToFrameDerivative(), GetIndex(), i, j, myFrame2FrameHists2D, phi, and alignCSCRings::r.
{
// get derivative of higher level structure w.r.t. det
FrameToFrameDerivative ftfd;
const AlgebraicMatrix frameDeriv = ftfd.frameToFrameDerivative(aliDet, ali);
//const AlgebraicMatrix frameDeriv = ftfd.frameToFrameDerivativeAtOrgRot(aliDet, ali);
static const int iF2f = this->GetIndex(myFrame2FrameHists2D, "frame2frame");
static const int iF2fAbs = this->GetIndex(myFrame2FrameHists2D, "frame2frameAbs");
static int iF2fIjPhi[6][6], iF2fIjPhiLog[6][6], iF2fIjR[6][6], iF2fIjRLog[6][6];
static bool first = true;
if (first) {
for (unsigned int i = 0; i < 6; ++i) {
for (unsigned int j = 0; j < 6; ++j) {
iF2fIjPhi[i][j] = this->GetIndex(myFrame2FrameHists2D, Form("frame2framePhi%d%d", i, j));
iF2fIjPhiLog[i][j]=this->GetIndex(myFrame2FrameHists2D, Form("frame2framePhiLog%d%d",i,j));
iF2fIjR[i][j] = this->GetIndex(myFrame2FrameHists2D, Form("frame2frameR%d%d", i, j));
iF2fIjRLog[i][j]=this->GetIndex(myFrame2FrameHists2D, Form("frame2frameRLog%d%d",i,j));
}
}
first = false;
}
const double phi = aliDet->globalPosition().phi(); // after misalignment...
const double r = aliDet->globalPosition().perp(); // after misalignment...
for (unsigned int i = 0; i < 6; ++i) {
for (unsigned int j = 0; j < 6; ++j) {
myFrame2FrameHists2D[iF2f]->Fill(i, j, frameDeriv[i][j]);
myFrame2FrameHists2D[iF2fIjPhi[i][j]]->Fill(phi, frameDeriv[i][j]);
myFrame2FrameHists2D[iF2fIjR[i][j]]->Fill(r, frameDeriv[i][j]);
if (frameDeriv[i][j]) {
myFrame2FrameHists2D[iF2fAbs]->Fill(i, j, TMath::Abs(frameDeriv[i][j]));
myFrame2FrameHists2D[iF2fIjPhiLog[i][j]]->Fill(phi, TMath::Abs(frameDeriv[i][j]));
myFrame2FrameHists2D[iF2fIjRLog[i][j]]->Fill(r, TMath::Abs(frameDeriv[i][j]));
}
}
}
}
| void MillePedeMonitor::fillPxbSurveyHistsChi2 | ( | const float & | chi2 | ) |
Definition at line 1082 of file MillePedeMonitor.cc.
References GetIndex(), and myPxbSurveyHists.
Referenced by MillePedeAlignmentAlgorithm::addPxbSurvey().
{
static const int iPxbSurvChi2_lo = this->GetIndex(myPxbSurveyHists,"PxbSurvChi2_lo");
myPxbSurveyHists[iPxbSurvChi2_lo]->Fill(chi2);
static const int iPxbSurvChi2_md = this->GetIndex(myPxbSurveyHists,"PxbSurvChi2_md");
myPxbSurveyHists[iPxbSurvChi2_md]->Fill(chi2);
static const int iPxbSurvChi2_hi = this->GetIndex(myPxbSurveyHists,"PxbSurvChi2_hi");
myPxbSurveyHists[iPxbSurvChi2_hi]->Fill(chi2);
static const int iPxbSurvChi2prob = this->GetIndex(myPxbSurveyHists,"PxbSurvChi2prob");
myPxbSurveyHists[iPxbSurvChi2prob]->Fill(TMath::Prob(chi2,4));
}
| void MillePedeMonitor::fillPxbSurveyHistsLocalPars | ( | const float & | a0, |
| const float & | a1, | ||
| const float & | S, | ||
| const float & | phi | ||
| ) |
Definition at line 1095 of file MillePedeMonitor.cc.
References GetIndex(), and myPxbSurveyHists.
Referenced by MillePedeAlignmentAlgorithm::addPxbSurvey().
{
static const int iPxbSurv_a0 = this->GetIndex(myPxbSurveyHists,"PxbSurv_a0");
myPxbSurveyHists[iPxbSurv_a0]->Fill(a0);
static const int iPxbSurv_a0_abs = this->GetIndex(myPxbSurveyHists,"PxbSurv_a0_abs");
myPxbSurveyHists[iPxbSurv_a0_abs]->Fill(fabs(a0));
static const int iPxbSurv_a1 = this->GetIndex(myPxbSurveyHists,"PxbSurv_a1");
myPxbSurveyHists[iPxbSurv_a1]->Fill(a1);
static const int iPxbSurv_a1_abs = this->GetIndex(myPxbSurveyHists,"PxbSurv_a1_abs");
myPxbSurveyHists[iPxbSurv_a1_abs]->Fill(fabs(a1));
static const int iPxbSurv_scale = this->GetIndex(myPxbSurveyHists,"PxbSurv_scale");
myPxbSurveyHists[iPxbSurv_scale]->Fill(S);
static const int iPxbSurv_phi = this->GetIndex(myPxbSurveyHists,"PxbSurv_phi");
myPxbSurveyHists[iPxbSurv_phi]->Fill(phi);
}
| void MillePedeMonitor::fillRefTrajectory | ( | const ReferenceTrajectoryBase::ReferenceTrajectoryPtr & | refTrajPtr | ) |
Definition at line 711 of file MillePedeMonitor.cc.
References GetIndex(), myTrajectoryHists1D, myTrajectoryHists2D, phi, position, and rho.
Referenced by MillePedeAlignmentAlgorithm::run().
{
static const int iValid = this->GetIndex(myTrajectoryHists1D, "validRefTraj");
if (refTrajPtr->isValid()) {
myTrajectoryHists1D[iValid]->Fill(1.);
} else {
myTrajectoryHists1D[iValid]->Fill(0.);
return;
}
const AlgebraicSymMatrix &covMeasLoc = refTrajPtr->measurementErrors();
const AlgebraicVector &measurementsLoc = refTrajPtr->measurements();
const AlgebraicVector &trajectoryLoc = refTrajPtr->trajectoryPositions();
const TransientTrackingRecHit::ConstRecHitContainer &recHits = refTrajPtr->recHits();
const AlgebraicMatrix &derivatives = refTrajPtr->derivatives();
// CHK
const int nRow = refTrajPtr->numberOfHitMeas();
for (int iRow = 0; iRow < nRow; ++iRow) {
const double residuum = measurementsLoc[iRow] - trajectoryLoc[iRow];
const double covMeasLocRow = covMeasLoc[iRow][iRow];
const bool is2DhitRow = (!recHits[iRow/2]->detUnit() // FIXME: as in MillePedeAlignmentAlgorithm::is2D()
|| recHits[iRow/2]->detUnit()->type().isTrackerPixel());
//the GeomDetUnit* is zero for composite hits (matched hits in the tracker,...).
if (TMath::Even(iRow)) { // local x
static const int iMeasLocX = this->GetIndex(myTrajectoryHists1D, "measLocX");
myTrajectoryHists1D[iMeasLocX]->Fill(measurementsLoc[iRow]);
static const int iTrajLocX = this->GetIndex(myTrajectoryHists1D, "trajLocX");
myTrajectoryHists1D[iTrajLocX]->Fill(trajectoryLoc[iRow]);
static const int iResidLocX = this->GetIndex(myTrajectoryHists1D, "residLocX");
myTrajectoryHists1D[iResidLocX]->Fill(residuum);
static const int iMeasLocXvsHit = this->GetIndex(myTrajectoryHists2D, "measLocXvsHit");
myTrajectoryHists2D[iMeasLocXvsHit]->Fill(iRow/2, measurementsLoc[iRow]);
static const int iTrajLocXvsHit = this->GetIndex(myTrajectoryHists2D, "trajLocXvsHit");
myTrajectoryHists2D[iTrajLocXvsHit]->Fill(iRow/2, trajectoryLoc[iRow]);
static const int iResidLocXvsHit = this->GetIndex(myTrajectoryHists2D, "residLocXvsHit");
myTrajectoryHists2D[iResidLocXvsHit]->Fill(iRow/2, residuum);
if (covMeasLocRow > 0.) {
static const int iReduResidLocX = this->GetIndex(myTrajectoryHists1D, "reduResidLocX");
myTrajectoryHists1D[iReduResidLocX]->Fill(residuum / TMath::Sqrt(covMeasLocRow));
static const int iReduResidLocXvsHit =
this->GetIndex(myTrajectoryHists2D, "reduResidLocXvsHit");
myTrajectoryHists2D[iReduResidLocXvsHit]->Fill(iRow/2, residuum/TMath::Sqrt(covMeasLocRow));
}
} else if (is2DhitRow) { // local y, 2D detectors only
static const int iMeasLocY = this->GetIndex(myTrajectoryHists1D, "measLocY");
myTrajectoryHists1D[iMeasLocY]->Fill(measurementsLoc[iRow]);
static const int iTrajLocY = this->GetIndex(myTrajectoryHists1D, "trajLocY");
myTrajectoryHists1D[iTrajLocY]->Fill(trajectoryLoc[iRow]);
static const int iResidLocY = this->GetIndex(myTrajectoryHists1D, "residLocY");
myTrajectoryHists1D[iResidLocY]->Fill(residuum);
static const int iMeasLocYvsHit = this->GetIndex(myTrajectoryHists2D, "measLocYvsHit");
myTrajectoryHists2D[iMeasLocYvsHit]->Fill(iRow/2, measurementsLoc[iRow]);
static const int iTrajLocYvsHit = this->GetIndex(myTrajectoryHists2D, "trajLocYvsHit");
myTrajectoryHists2D[iTrajLocYvsHit]->Fill(iRow/2, trajectoryLoc[iRow]);
static const int iResidLocYvsHit = this->GetIndex(myTrajectoryHists2D, "residLocYvsHit");
myTrajectoryHists2D[iResidLocYvsHit]->Fill(iRow/2, residuum);
if (covMeasLocRow > 0.) {
static const int iReduResidLocY = this->GetIndex(myTrajectoryHists1D, "reduResidLocY");
myTrajectoryHists1D[iReduResidLocY]->Fill(residuum / TMath::Sqrt(covMeasLocRow));
static const int iReduResidLocYvsHit = this->GetIndex(myTrajectoryHists2D,
"reduResidLocYvsHit");
myTrajectoryHists2D[iReduResidLocYvsHit]->Fill(iRow/2, residuum/TMath::Sqrt(covMeasLocRow));
}
}
float nHitRow = iRow/2; // '/2' not '/2.'!
if (TMath::Odd(iRow)) nHitRow += 0.5; // y-hit gets 0.5
// correlations
for (int iCol = iRow+1; iCol < nRow; ++iCol) {
double rho = TMath::Sqrt(covMeasLocRow + covMeasLoc[iCol][iCol]);
rho = (0. == rho ? -2 : covMeasLoc[iRow][iCol] / rho);
float nHitCol = iCol/2; //cf. comment nHitRow
if (TMath::Odd(iCol)) nHitCol += 0.5; // dito
// myProfileCorr->Fill(nHitRow, nHitCol, TMath::Abs(rho));
if (0. == rho) continue;
static const int iProfileCorr = this->GetIndex(myTrajectoryHists2D, "profCorr");
myTrajectoryHists2D[iProfileCorr]->Fill(nHitRow, nHitCol, TMath::Abs(rho));
if (iRow+1 == iCol && TMath::Even(iRow)) { // i.e. if iRow is x and iCol the same hit's y
// static const int iProfileCorrXy = this->GetIndex(myTrajectoryHists2D,"profCorrOffXy");
// myTrajectoryHists2D[iProfileCorrOffXy]->Fill(iRow/2, rho);
static const int iHitCorrXy = this->GetIndex(myTrajectoryHists2D, "hitCorrXy");
myTrajectoryHists2D[iHitCorrXy]->Fill(iRow/2, rho);
static const int iHitCorrXyLog = this->GetIndex(myTrajectoryHists2D, "hitCorrXyLog");
myTrajectoryHists2D[iHitCorrXyLog]->Fill(iRow/2, TMath::Abs(rho));
if (is2DhitRow) {
static const int iHitCorrXyValid = this->GetIndex(myTrajectoryHists2D, "hitCorrXyValid");
myTrajectoryHists2D[iHitCorrXyValid]->Fill(iRow/2, rho); // nhitRow??
static const int iHitCorrXyLogValid = this->GetIndex(myTrajectoryHists2D,
"hitCorrXyLogValid");
myTrajectoryHists2D[iHitCorrXyLogValid]->Fill(iRow/2, TMath::Abs(rho)); // nhitRow??
}
} else {
static const int iProfCorrOffXy = this->GetIndex(myTrajectoryHists2D, "profCorrOffXy");
myTrajectoryHists2D[iProfCorrOffXy]->Fill(nHitRow, nHitCol, TMath::Abs(rho));
static const int iHitCorrOffBlock = this->GetIndex(myTrajectoryHists2D, "hitCorrOffBlock");
myTrajectoryHists2D[iHitCorrOffBlock]->Fill(nHitRow, rho);
static const int iHitCorOffBlkLg = this->GetIndex(myTrajectoryHists2D,"hitCorrOffBlockLog");
myTrajectoryHists2D[iHitCorOffBlkLg]->Fill(nHitRow, TMath::Abs(rho));
}
} // end loop on columns of covariance
// derivatives
for (int iCol = 0; iCol < derivatives.num_col(); ++iCol) {
static const int iProfDerivatives = this->GetIndex(myTrajectoryHists2D, "profDerivatives");
myTrajectoryHists2D[iProfDerivatives]->Fill(nHitRow, iCol, derivatives[iRow][iCol]);
static const int iDerivatives = this->GetIndex(myTrajectoryHists2D, "derivatives");
myTrajectoryHists2D[iDerivatives]->Fill(iCol, derivatives[iRow][iCol]);
static const int iDerivativesLog = this->GetIndex(myTrajectoryHists2D, "derivativesLog");
myTrajectoryHists2D[iDerivativesLog]->Fill(iCol, TMath::Abs(derivatives[iRow][iCol]));
static const int iDerivativesPhi = this->GetIndex(myTrajectoryHists2D, "derivativesVsPhi");
myTrajectoryHists2D[iDerivativesPhi]->Fill(recHits[iRow/2]->det()->position().phi(),
derivatives[iRow][iCol]);
}
} // end loop on rows of covarianvce
}
| void MillePedeMonitor::fillResidualHists | ( | const std::vector< TH1 * > & | hists, |
| float | phiSensToNorm, | ||
| float | residuum, | ||
| float | sigma | ||
| ) | [private] |
Definition at line 953 of file MillePedeMonitor.cc.
References GetIndex().
Referenced by fillResiduals().
{
// Histogram indices are calculated at first call, so make sure the vector of hists at the first
// call has the correct names (i.e. without subdet extension) and all later calls have the
// same order of hists...
static const int iRes = this->GetIndex(hists, "resid");
hists[iRes]->Fill(residuum);
static const int iSigma = this->GetIndex(hists, "sigma");
hists[iSigma]->Fill(sigma);
static const int iSigmaVsAngle = this->GetIndex(hists, "sigmaVsAngle");
hists[iSigmaVsAngle]->Fill(phiSensToNorm, sigma);
static const int iResidVsAngle = this->GetIndex(hists, "residVsAngle");
hists[iResidVsAngle]->Fill(phiSensToNorm, residuum);
static const int iReduRes = this->GetIndex(hists, "reduResid");
static const int iReduResidVsAngle = this->GetIndex(hists, "reduResidVsAngle");
if (sigma) {
hists[iReduRes]->Fill(residuum/sigma);
hists[iReduResidVsAngle]->Fill(phiSensToNorm, residuum/sigma);
}
static const int iAngle = this->GetIndex(hists, "angle");
hists[iAngle]->Fill(phiSensToNorm);
if (phiSensToNorm > TMath::DegToRad()*45.) {
static const int iResGt45 = this->GetIndex(hists, "residGt45");
hists[iResGt45]->Fill(residuum);
static const int iSigmaGt45 = this->GetIndex(hists, "sigmaGt45");
hists[iSigmaGt45]->Fill(sigma);
static const int iReduResGt45 = this->GetIndex(hists, "reduResidGt45");
if (sigma) hists[iReduResGt45]->Fill(residuum/sigma);
} else {
static const int iResLt45 = this->GetIndex(hists, "residLt45");
hists[iResLt45]->Fill(residuum);
static const int iSigmaLt45 = this->GetIndex(hists, "sigmaLt45");
hists[iSigmaLt45]->Fill(sigma);
static const int iReduResLt45 = this->GetIndex(hists, "reduResidLt45");
if (sigma) hists[iReduResLt45]->Fill(residuum/sigma);
}
}
| void MillePedeMonitor::fillResidualHitHists | ( | const std::vector< TH1 * > & | hists, |
| float | angle, | ||
| float | residuum, | ||
| float | sigma, | ||
| unsigned int | nHit | ||
| ) | [private] |
Definition at line 995 of file MillePedeMonitor.cc.
References GetIndex(), and i.
Referenced by fillResiduals().
{
// Histogram indices are calculated at first call, so make sure the vector of hists at the first
// call has the correct names (i.e. without subdet extension) and all later calls have the
// same order of hists...
static const unsigned int maxNhit = 29; // 0...29 foreseen in initialisation...
static int iResHit[maxNhit+1] = {-1};
static int iSigmaHit[maxNhit+1] = {-1};
static int iReduResHit[maxNhit+1] = {-1};
static int iAngleHit[maxNhit+1] = {-1};
if (iResHit[0] == -1) { // first event only...
for (unsigned int i = 0; i <= maxNhit; ++i) {
iResHit[i] = this->GetIndex(hists, Form("resid_%d", i));
iSigmaHit[i] = this->GetIndex(hists, Form("sigma_%d", i));
iReduResHit[i] = this->GetIndex(hists, Form("reduResid_%d", i));
iAngleHit[i] = this->GetIndex(hists, Form("angle_%d", i));
}
}
if (nHit > maxNhit) nHit = maxNhit; // limit of hists
hists[iResHit[nHit]]->Fill(residuum);
hists[iSigmaHit[nHit]]->Fill(sigma);
if (sigma) {
hists[iReduResHit[nHit]]->Fill(residuum/sigma);
}
hists[iAngleHit[nHit]]->Fill(angle);
}
| void MillePedeMonitor::fillResiduals | ( | const TransientTrackingRecHit::ConstRecHitPointer & | recHit, |
| const TrajectoryStateOnSurface & | tsos, | ||
| unsigned int | nHit, | ||
| float | residuum, | ||
| float | sigma, | ||
| bool | isY | ||
| ) |
Definition at line 877 of file MillePedeMonitor.cc.
References AlignableBeamSpot::detId(), fillResidualHists(), fillResidualHitHists(), GetIndex(), TrajectoryStateOnSurface::localDirection(), myResidHists2D, myResidHistsVec1DX, myResidHistsVec1DY, myResidHitHists1DX, myResidHitHists1DY, phi, DetId::subdetId(), and align::Tracker.
{
// isY == false: x-measurements
// isY == true: y-measurements
const GlobalPoint detPos(recHit->det()->position());
const double phi = detPos.phi();
// const double rSigned = (detPos.y() > 0. ? detPos.perp() : -detPos.perp());
static const int iResPhi = this->GetIndex(myResidHists2D, "residPhi");
myResidHists2D[iResPhi]->Fill(phi, residuum);
static const int iSigPhi = this->GetIndex(myResidHists2D, "sigmaPhi");
myResidHists2D[iSigPhi]->Fill(phi, sigma);
if (sigma) {
static const int iReduResPhi = this->GetIndex(myResidHists2D, "reduResidPhi");
myResidHists2D[iReduResPhi]->Fill(phi, residuum/sigma);
}
// if (isY) {
// static const int iResYXy = this->GetIndex(myResidHists2D, "residYProfXy");
// myResidHists2D[iResYXy]->Fill(detPos.x(), detPos.y(), TMath::Abs(residuum));
// static const int iResYZr = this->GetIndex(myResidHists2D, "residYProfZr");
// myResidHists2D[iResYZr]->Fill(detPos.z(), rSigned, TMath::Abs(residuum));
// static const int iSigmaYXy = this->GetIndex(myResidHists2D, "sigmaYProfXy");
// myResidHists2D[iSigmaYXy]->Fill(detPos.x(), detPos.y(), sigma);
// static const int iSigmaYZr = this->GetIndex(myResidHists2D, "sigmaYProfZr");
// myResidHists2D[iSigmaYZr]->Fill(detPos.z(), rSigned, sigma);
// if (sigma) {
// static const int iReduResYXy = this->GetIndex(myResidHists2D, "reduResidYProfXy");
// myResidHists2D[iReduResYXy]->Fill(detPos.x(), detPos.y(), TMath::Abs(residuum/sigma));
// static const int iReduResYZr = this->GetIndex(myResidHists2D, "reduResidYProfZr");
// myResidHists2D[iReduResYZr]->Fill(detPos.z(), rSigned, TMath::Abs(residuum/sigma));
// }
// } else {
// static const int iResXXy = this->GetIndex(myResidHists2D, "residXProfXy");
// myResidHists2D[iResXXy]->Fill(detPos.x(), detPos.y(), TMath::Abs(residuum));
// static const int iResXZr = this->GetIndex(myResidHists2D, "residXProfZr");
// myResidHists2D[iResXZr]->Fill(detPos.z(), rSigned, TMath::Abs(residuum));
// static const int iSigmaXXy = this->GetIndex(myResidHists2D, "sigmaXProfXy");
// myResidHists2D[iSigmaXXy]->Fill(detPos.x(), detPos.y(), sigma);
// static const int iSigmaXZr = this->GetIndex(myResidHists2D, "sigmaXProfZr");
// myResidHists2D[iSigmaXZr]->Fill(detPos.z(), rSigned, sigma);
// if (sigma) {
// static const int iReduResXXy = this->GetIndex(myResidHists2D, "reduResidXProfXy");
// myResidHists2D[iReduResXXy]->Fill(detPos.x(), detPos.y(), TMath::Abs(residuum/sigma));
// static const int iReduResXZr = this->GetIndex(myResidHists2D, "reduResidXProfZr");
// myResidHists2D[iReduResXZr]->Fill(detPos.z(), rSigned, TMath::Abs(residuum/sigma));
// }
// }
const LocalVector mom(tsos.localDirection()); // mom.z()==0. impossible for TSOS:
const float phiSensToNorm = TMath::ATan(TMath::Abs((isY ? mom.y() : mom.x())/mom.z()));
std::vector<std::vector<TH1*> > &histArrayVec = (isY ? myResidHistsVec1DY : myResidHistsVec1DX);
std::vector<TH1*> &hitHists = (isY ? myResidHitHists1DY : myResidHitHists1DX);
// call with histArrayVec[0] first: 'static' inside is referring to "subdet-less" names (X/Y irrelevant)
this->fillResidualHists(histArrayVec[0], phiSensToNorm, residuum, sigma);
this->fillResidualHitHists(hitHists, phiSensToNorm, residuum, sigma, nHit);
const DetId detId(recHit->det()->geographicalId());
if (detId.det() == DetId::Tracker) {
// const GeomDet::SubDetector subDetNum = recHit->det()->subDetector();
unsigned int subDetNum = detId.subdetId();
if (subDetNum < histArrayVec.size() && subDetNum > 0) {
this->fillResidualHists(histArrayVec[subDetNum], phiSensToNorm, residuum, sigma);
} else {
if (detId!=AlignableBeamSpot::detId())
edm::LogWarning("Alignment") << "@SUB=MillePedeMonitor::fillResiduals"
<< "Expect subDetNum from 1 to 6, got " << subDetNum;
}
}
}
| void MillePedeMonitor::fillTrack | ( | const reco::Track * | track | ) |
Definition at line 522 of file MillePedeMonitor.cc.
References myTrackHists1D, and myTrackHists2D.
Referenced by fillUsedTrack(), and MillePedeAlignmentAlgorithm::run().
{
this->fillTrack(track, myTrackHists1D, myTrackHists2D);
}
| void MillePedeMonitor::fillTrack | ( | const reco::Track * | track, |
| std::vector< TH1 * > & | trackHists1D, | ||
| std::vector< TH2 * > & | trackHists2D | ||
| ) | [private] |
Definition at line 542 of file MillePedeMonitor.cc.
References reco::TrackBase::d0(), reco::TrackBase::d0Error(), reco::TrackBase::dz(), reco::TrackBase::dzError(), GetIndex(), reco::Track::innerOk(), reco::Track::innerPosition(), TECDetId::isZMinusSide(), TIDDetId::isZMinusSide(), TIDDetId::isZPlusSide(), TECDetId::isZPlusSide(), kBPIX, kFPIX, reco::TrackBase::momentum(), reco::TrackBase::normalizedChi2(), reco::TrackBase::numberOfLostHits(), reco::TrackBase::numberOfValidHits(), reco::Track::outerOk(), reco::Track::outerPosition(), AlCaHLTBitMon_ParallelJobs::p, reco::TrackBase::pt(), reco::Track::recHitsBegin(), reco::Track::recHitsEnd(), PXFDetId::side(), DetId::subdetId(), SiStripDetId::TEC, SiStripDetId::TIB, SiStripDetId::TID, SiStripDetId::TOB, align::Tracker, and DetId::Tracker.
{
if (!track) return;
const reco::TrackBase::Vector p(track->momentum());
static const int iPtLog = this->GetIndex(trackHists1D, "ptTrackLogBins");
trackHists1D[iPtLog]->Fill(track->pt());
static const int iPt = this->GetIndex(trackHists1D, "ptTrack");
trackHists1D[iPt]->Fill(track->pt());
static const int iP = this->GetIndex(trackHists1D, "pTrack");
trackHists1D[iP]->Fill(p.R());
static const int iEta = this->GetIndex(trackHists1D, "etaTrack");
trackHists1D[iEta]->Fill(p.Eta());
static const int iTheta = this->GetIndex(trackHists1D, "thetaTrack");
trackHists1D[iTheta]->Fill(p.Theta());
static const int iPhi = this->GetIndex(trackHists1D, "phiTrack");
trackHists1D[iPhi]->Fill(p.Phi());
static const int iNhit = this->GetIndex(trackHists1D, "nHitTrack");
trackHists1D[iNhit]->Fill(track->numberOfValidHits());
static const int iNhitInvalid = this->GetIndex(trackHists1D, "nHitInvalidTrack");
trackHists1D[iNhitInvalid]->Fill(track->numberOfLostHits());
int nhitinTIB = 0, nhitinTOB = 0, nhitinTID = 0;
int nhitinTEC = 0, nhitinBPIX = 0, nhitinFPIX = 0, nhitinPIXEL=0;
int nhitinENDCAP = 0, nhitinENDCAPplus = 0, nhitinENDCAPminus = 0;
int nhitinTIDplus = 0, nhitinTIDminus = 0;
int nhitinFPIXplus = 0, nhitinFPIXminus = 0;
int nhitinTECplus = 0, nhitinTECminus = 0;
unsigned int thishit = 0;
for (trackingRecHit_iterator iHit = track->recHitsBegin(); iHit != track->recHitsEnd(); ++iHit) {
thishit++;
const DetId detId((*iHit)->geographicalId());
const int subdetId = detId.subdetId();
if (!(*iHit)->isValid()) continue; // only real hits count as in track->numberOfValidHits()
if (detId.det() != DetId::Tracker) {
edm::LogError("DetectorMismatch") << "@SUB=MillePedeMonitor::fillTrack"
<< "DetId.det() != DetId::Tracker (=" << DetId::Tracker
<< "), but " << detId.det() << ".";
}
if (SiStripDetId::TIB == subdetId) ++nhitinTIB;
else if (SiStripDetId::TOB == subdetId) ++nhitinTOB;
else if (SiStripDetId::TID == subdetId) {
++nhitinTID;
++nhitinENDCAP;
TIDDetId tidId(detId);
if (tidId.isZMinusSide()) {
++nhitinTIDminus;
++nhitinENDCAPminus;
}
else if (tidId.isZPlusSide()) {
++nhitinTIDplus;
++nhitinENDCAPplus;
}
}
else if (SiStripDetId::TEC == subdetId) {
++nhitinTEC;
++nhitinENDCAP;
TECDetId tecId(detId);
if (tecId.isZMinusSide()) {
++nhitinTECminus;
++nhitinENDCAPminus;
}
else if (tecId.isZPlusSide()) {
++nhitinTECplus;
++nhitinENDCAPplus;
}
}
else if ( kBPIX == subdetId) {++nhitinBPIX;++nhitinPIXEL;}
else if ( kFPIX == subdetId) {
++nhitinFPIX;
++nhitinPIXEL;
PXFDetId fpixId(detId);
if (fpixId.side()==1) ++nhitinFPIXminus;
else if (fpixId.side()==2) ++nhitinFPIXplus;
}
} // end loop on hits
static const int iNhit01 = this->GetIndex(trackHists1D, "nHitBPIXTrack");
trackHists1D[iNhit01]->Fill(nhitinBPIX);
static const int iNhit02 = this->GetIndex(trackHists1D, "nHitFPIXplusTrack");
trackHists1D[iNhit02]->Fill(nhitinFPIXplus);
static const int iNhit03 = this->GetIndex(trackHists1D, "nHitFPIXminusTrack");
trackHists1D[iNhit03]->Fill(nhitinFPIXminus);
static const int iNhit04 = this->GetIndex(trackHists1D, "nHitFPIXTrack");
trackHists1D[iNhit04]->Fill(nhitinFPIX);
static const int iNhit05 = this->GetIndex(trackHists1D, "nHitPIXELTrack");
trackHists1D[iNhit05]->Fill(nhitinPIXEL);
static const int iNhit06 = this->GetIndex(trackHists1D, "nHitTIBTrack");
trackHists1D[iNhit06]->Fill(nhitinTIB);
static const int iNhit07 = this->GetIndex(trackHists1D, "nHitTOBTrack");
trackHists1D[iNhit07]->Fill(nhitinTOB);
static const int iNhit08 = this->GetIndex(trackHists1D, "nHitTIDplusTrack");
trackHists1D[iNhit08]->Fill(nhitinTIDplus);
static const int iNhit09 = this->GetIndex(trackHists1D, "nHitTIDminusTrack");
trackHists1D[iNhit09]->Fill(nhitinTIDminus);
static const int iNhit10 = this->GetIndex(trackHists1D, "nHitTIDTrack");
trackHists1D[iNhit10]->Fill(nhitinTID);
static const int iNhit11 = this->GetIndex(trackHists1D, "nHitTECplusTrack");
trackHists1D[iNhit11]->Fill(nhitinTECplus);
static const int iNhit12 = this->GetIndex(trackHists1D, "nHitTECminusTrack");
trackHists1D[iNhit12]->Fill(nhitinTECminus);
static const int iNhit13 = this->GetIndex(trackHists1D, "nHitTECTrack");
trackHists1D[iNhit13]->Fill(nhitinTEC);
static const int iNhit14 = this->GetIndex(trackHists1D, "nHitENDCAPplusTrack");
trackHists1D[iNhit14]->Fill(nhitinENDCAPplus);
static const int iNhit15 = this->GetIndex(trackHists1D, "nHitENDCAPminusTrack");
trackHists1D[iNhit15]->Fill(nhitinENDCAPminus);
static const int iNhit16 = this->GetIndex(trackHists1D, "nHitENDCAPTrack");
trackHists1D[iNhit16]->Fill(nhitinENDCAP);
static const int iNhit17 = this->GetIndex(trackHists2D, "nHitENDCAPTrackMinusVsPlus");
trackHists2D[iNhit17]->Fill(nhitinENDCAPplus,nhitinENDCAPminus);
if (track->innerOk()) {
const reco::TrackBase::Point firstPoint(track->innerPosition());
static const int iR1 = this->GetIndex(trackHists1D, "r1Track");
trackHists1D[iR1]->Fill(firstPoint.Rho());
const double rSigned1 = (firstPoint.y() > 0 ? firstPoint.Rho() : -firstPoint.Rho());
static const int iR1Signed = this->GetIndex(trackHists1D, "r1TrackSigned");
trackHists1D[iR1Signed]->Fill(rSigned1);
static const int iZ1 = this->GetIndex(trackHists1D, "z1Track");
trackHists1D[iZ1]->Fill(firstPoint.Z());
static const int iZ1Full = this->GetIndex(trackHists1D, "z1TrackFull");
trackHists1D[iZ1Full]->Fill(firstPoint.Z());
static const int iY1 = this->GetIndex(trackHists1D, "y1Track");
trackHists1D[iY1]->Fill(firstPoint.Y());
static const int iPhi1 = this->GetIndex(trackHists1D, "phi1Track");
trackHists1D[iPhi1]->Fill(firstPoint.phi());
static const int iRz1Full = this->GetIndex(trackHists2D, "rz1TrackFull");
trackHists2D[iRz1Full]->Fill(firstPoint.Z(), rSigned1);
static const int iXy1 = this->GetIndex(trackHists2D, "xy1Track");
trackHists2D[iXy1]->Fill(firstPoint.X(), firstPoint.Y());
}
if (track->outerOk()) {
const reco::TrackBase::Point lastPoint(track->outerPosition());
static const int iRlast = this->GetIndex(trackHists1D, "rLastTrack");
trackHists1D[iRlast]->Fill(lastPoint.Rho());
static const int iZlast = this->GetIndex(trackHists1D, "zLastTrack");
trackHists1D[iZlast]->Fill(lastPoint.Z());
static const int iYlast = this->GetIndex(trackHists1D, "yLastTrack");
trackHists1D[iYlast]->Fill(lastPoint.Y());
static const int iPhiLast = this->GetIndex(trackHists1D, "phiLastTrack");
trackHists1D[iPhiLast]->Fill(lastPoint.phi());
}
static const int iChi2Ndf = this->GetIndex(trackHists1D, "chi2PerNdf");
trackHists1D[iChi2Ndf]->Fill(track->normalizedChi2());
static const int iImpZ = this->GetIndex(trackHists1D, "impParZ");
trackHists1D[iImpZ]->Fill(track->dz());
static const int iImpZerr = this->GetIndex(trackHists1D, "impParErrZ");
trackHists1D[iImpZerr]->Fill(track->dzError());
static const int iImpRphi = this->GetIndex(trackHists1D, "impParRphi");
trackHists1D[iImpRphi]->Fill(track->d0());
static const int iImpRphiErr = this->GetIndex(trackHists1D, "impParErrRphi");
trackHists1D[iImpRphiErr]->Fill(track->d0Error());
}
| void MillePedeMonitor::fillUsedTrack | ( | const reco::Track * | track, |
| unsigned int | nHitX, | ||
| unsigned int | nHitY | ||
| ) |
Definition at line 528 of file MillePedeMonitor.cc.
References fillTrack(), GetIndex(), myUsedTrackHists1D, and myUsedTrackHists2D.
Referenced by MillePedeAlignmentAlgorithm::run().
{
// these hist exist only for 'used track' hists:
static const int iUsedX = this->GetIndex(myUsedTrackHists1D, "usedHitsX");
myUsedTrackHists1D[iUsedX]->Fill(nHitX);
static const int iUsedY = this->GetIndex(myUsedTrackHists1D, "usedHitsY");
myUsedTrackHists1D[iUsedY]->Fill(nHitY);
if (!track) return;
this->fillTrack(track, myUsedTrackHists1D, myUsedTrackHists2D);
}
| int MillePedeMonitor::GetIndex | ( | const std::vector< OBJECT_TYPE * > & | vec, |
| const TString & | name | ||
| ) | [private] |
Definition at line 107 of file MillePedeMonitor.h.
References mergeVDriftHistosByStation::name, and query::result.
Referenced by fillDerivatives(), fillFrameToFrame(), fillPxbSurveyHistsChi2(), fillPxbSurveyHistsLocalPars(), fillRefTrajectory(), fillResidualHists(), fillResidualHitHists(), fillResiduals(), fillTrack(), and fillUsedTrack().
{
int result = 0;
for (typename std::vector<OBJECT_TYPE*>::const_iterator iter = vec.begin(), iterEnd = vec.end();
iter != iterEnd; ++iter, ++result) {
if (*iter && (*iter)->GetName() == name) return result;
}
edm::LogError("Alignment") << "@SUB=MillePedeMonitor::GetIndex" << " could not find " << name;
return -1;
}
| bool MillePedeMonitor::init | ( | TDirectory * | directory | ) | [private] |
Definition at line 76 of file MillePedeMonitor.cc.
References addToDirectory(), cloneHists(), createBeamHaloJobs::directory, equidistLogBins(), h, i, j, myCorrHists, myDerivHists2D, myFrame2FrameHists2D, myPxbSurveyHists, myResidHists2D, myResidHistsVec1DX, myResidHistsVec1DY, myResidHitHists1DX, myResidHitHists1DY, myTrackHists1D, myTrackHists2D, myTrajectoryHists1D, myTrajectoryHists2D, myUsedTrackHists1D, myUsedTrackHists2D, Pi, and PedeLabelerBase::theMaxNumParam.
Referenced by MillePedeMonitor().
{
if (!directory) return false;
TDirectory *oldDir = gDirectory;
const int kNumBins = 20;
double binsPt[kNumBins+1] = {0.}; // fully initialised with 0.
if (!this->equidistLogBins(binsPt, kNumBins, 0.8, 100.)) {
// cerr << "MillePedeMonitor::init: problem with log bins" << endl;
}
const int nHits = 35;
myTrackHists1D.push_back(new TH1F("ptTrackLogBins", "p_{t}(track);p_{t} [GeV]",
kNumBins, binsPt));
myTrackHists1D.push_back(new TH1F("ptTrack", "p_{t}(track);p_{t} [GeV]",
kNumBins, binsPt[0], binsPt[kNumBins]));
myTrackHists1D.push_back(new TH1F("pTrack", "p(track);p [GeV]",
kNumBins, binsPt[0], 1.3*binsPt[kNumBins]));
myTrackHists1D.push_back(new TH1F("etaTrack", "#eta(track);#eta", 26, -2.6, 2.6));
myTrackHists1D.push_back(new TH1F("thetaTrack", "#theta(track);#theta", 100, 0., TMath::Pi()));
myTrackHists1D.push_back(new TH1F("phiTrack", "#phi(track);#phi", 15, -TMath::Pi(), TMath::Pi()));
myTrackHists1D.push_back(new TH1F("nHitTrack", "N_{hit}(track);N_{hit}", 40, 5., 45.));
myTrackHists1D.push_back(new TH1F("nHitBPIXTrack", "N_{hit, BPIX}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitFPIXTrack", "N_{hit, FPIX}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitFPIXplusTrack", "N_{hit, BPIXplus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitFPIXminusTrack", "N_{hit, BPIXminus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitPIXELTrack", "N_{hit, PIXEL}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTIBTrack", "N_{hit, TIB}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTOBTrack", "N_{hit, TOB}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTIDplusTrack", "N_{hit, TIDplus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTIDminusTrack", "N_{hit, TIDminus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTIDTrack", "N_{hit, TID}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTECplusTrack", "N_{hit, TECplus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTECminusTrack", "N_{hit, TECminus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitTECTrack", "N_{hit, TEC}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitENDCAPplusTrack", "N_{hit, ENDCAPplus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitENDCAPminusTrack", "N_{hit, ENDCAPminus}(track);N_{hit}", 45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitENDCAPTrack", "N_{hit, ENDCAP}(track);N_{hit}", 45, 0., 45.));
myTrackHists2D.push_back(new TH2F("nHitENDCAPTrackMinusVsPlus", "N_{hit, ENDCAP}(track);N_{hit, plus};N_{hit, minus}",
45, 0., 45.,45, 0., 45.));
myTrackHists1D.push_back(new TH1F("nHitInvalidTrack", "N_{hit, invalid}(track)", 5, 0., 5.));
myTrackHists1D.push_back(new TH1F("r1Track", "r(1st hit);r [cm]", 20, 0., 20.));
myTrackHists1D.push_back(new TH1F("phi1Track", "#phi(1st hit);#phi",
30, -TMath::Pi(), TMath::Pi()));
myTrackHists1D.push_back(new TH1F("y1Track", "y(1st hit);y [cm]", 40, -120., +120.));
myTrackHists1D.push_back(new TH1F("z1Track", "z(1st hit);z [cm]", 20, -50, +50));
myTrackHists1D.push_back(new TH1F("r1TrackSigned", "r(1st hit);r_{#pm} [cm]",
40, -120., 120.));
myTrackHists1D.push_back(new TH1F("z1TrackFull", "z(1st hit);z [cm]", 20, -300., +300.));
myTrackHists1D.push_back(new TH1F("rLastTrack", "r(last hit);r [cm]", 20, 20., 120.));
myTrackHists1D.push_back(new TH1F("phiLastTrack", "#phi(last hit);#phi",
30, -TMath::Pi(), TMath::Pi()));
myTrackHists1D.push_back(new TH1F("yLastTrack", "y(last hit);y [cm]", 40, -120., +120.));
myTrackHists1D.push_back(new TH1F("zLastTrack", "z(last hit);z [cm]", 30, -300., +300.));
myTrackHists1D.push_back(new TH1F("chi2PerNdf", "#chi^{2}/ndf;#chi^{2}/ndf", 500, 0., 50.));
myTrackHists1D.push_back(new TH1F("impParZ", "impact parameter in z", 20, -20., 20.));
myTrackHists1D.push_back(new TH1F("impParErrZ", "error of impact parameter in z",
40, 0., 0.06));
myTrackHists1D.push_back(new TH1F("impParRphi", "impact parameter in r#phi", 51, -0.05, .05));
myTrackHists1D.push_back(new TH1F("impParErrRphi", "error of impact parameter in r#phi",
50, 0., 0.01));
myTrackHists2D.push_back(new TH2F("rz1TrackFull", "rz(1st hit);z [cm]; r_{#pm} [cm]",
40, -282., +282., 40, -115., +115.));
myTrackHists2D.push_back(new TH2F("xy1Track", "xy(1st hit);x [cm]; y [cm]",
40, -115., +115., 40, -115., +115.));
TDirectory *dirTracks = directory->mkdir("trackHists", "input tracks");
this->addToDirectory(myTrackHists1D, dirTracks);
this->addToDirectory(myTrackHists2D, dirTracks);
// used track
myUsedTrackHists1D = this->cloneHists(myTrackHists1D, "used", " (used tracks)");
myUsedTrackHists2D = this->cloneHists(myTrackHists2D, "used", " (used tracks)");
// must be after clone: index in vector!
myUsedTrackHists1D.push_back(new TH1F("usedHitsX", "n(x-hits) transferred to pede;n(x-hits)", nHits, 0., nHits));
myUsedTrackHists1D.push_back(new TH1F("usedHitsY", "n(y-hits) transferred to pede;n(y-hits)", 10, 0., 10));
TDirectory *dirUsedTracks = directory->mkdir("usedTrackHists", "used tracks");
this->addToDirectory(myUsedTrackHists1D, dirUsedTracks);
this->addToDirectory(myUsedTrackHists2D, dirUsedTracks);
// ReferenceTrajectory
myTrajectoryHists1D.push_back(new TH1F("validRefTraj", "validity of ReferenceTrajectory",
2, 0., 2.));
myTrajectoryHists2D.push_back(new TProfile2D("profCorr",
"mean of |#rho|, #rho#neq0;hit x/y;hit x/y;",
2*nHits, 0., nHits, 2*nHits, 0., nHits));
myTrajectoryHists2D.push_back
(new TProfile2D("profCorrOffXy", "mean of |#rho|, #rho#neq0, no xy_{hit};hit x/y;hit x/y;",
2*nHits, 0., nHits, 2*nHits, 0., nHits));
myTrajectoryHists2D.push_back(new TH2F("hitCorrOffBlock",
"hit correlations: off-block-diagonals;N(hit);#rho",
2*nHits, 0., nHits, 81, -.06, .06));
TArrayD logBins(102);
this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.E-11, .1);
myTrajectoryHists2D.push_back(new TH2F("hitCorrOffBlockLog",
"hit correlations: off-block-diagonals;N(hit);|#rho|",
2*nHits, 0., nHits, logBins.GetSize()-1, logBins.GetArray()));
myTrajectoryHists2D.push_back(new TH2F("hitCorrXy", "hit correlations: xy;N(hit);#rho",
nHits, 0., nHits, 81, -.5, .5));
myTrajectoryHists2D.push_back
(new TH2F("hitCorrXyValid", "hit correlations: xy, 2D-det.;N(hit);#rho",
nHits, 0., nHits, 81, -.02, .02));
this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.E-10, .5);
myTrajectoryHists2D.push_back(new TH2F("hitCorrXyLog", "hit correlations: xy;N(hit);|#rho|",
nHits, 0., nHits, logBins.GetSize()-1, logBins.GetArray()));
myTrajectoryHists2D.push_back
(new TH2F("hitCorrXyLogValid", "hit correlations: xy, 2D-det.;N(hit);|#rho|",
nHits, 0., nHits, logBins.GetSize()-1, logBins.GetArray()));
myTrajectoryHists1D.push_back(new TH1F("measLocX", "local x measurements;x", 101, -6., 6.));
myTrajectoryHists1D.push_back(new TH1F("measLocY", "local y measurements, 2D-det.;y",
101, -10., 10.));
myTrajectoryHists1D.push_back(new TH1F("trajLocX", "local x trajectory;x", 101, -6., 6.));
myTrajectoryHists1D.push_back(new TH1F("trajLocY", "local y trajectory, 2D-det.;y",
101, -10., 10.));
myTrajectoryHists1D.push_back(new TH1F("residLocX", "local x residual;#Deltax", 101, -.75, .75));
myTrajectoryHists1D.push_back(new TH1F("residLocY", "local y residual, 2D-det.;#Deltay",
101, -2., 2.));
myTrajectoryHists1D.push_back(new TH1F("reduResidLocX", "local x reduced residual;#Deltax/#sigma",
101, -20., 20.));
myTrajectoryHists1D.push_back
(new TH1F("reduResidLocY", "local y reduced residual, 2D-det.;#Deltay/#sigma", 101, -20., 20.));
// 2D vs. hit
myTrajectoryHists2D.push_back(new TH2F("measLocXvsHit", "local x measurements;hit;x",
nHits, 0., nHits, 101, -6., 6.));
myTrajectoryHists2D.push_back(new TH2F("measLocYvsHit", "local y measurements, 2D-det.;hit;y",
nHits, 0., nHits, 101, -10., 10.));
myTrajectoryHists2D.push_back(new TH2F("trajLocXvsHit", "local x trajectory;hit;x",
nHits, 0., nHits, 101, -6., 6.));
myTrajectoryHists2D.push_back(new TH2F("trajLocYvsHit", "local y trajectory, 2D-det.;hit;y",
nHits, 0., nHits, 101, -10., 10.));
myTrajectoryHists2D.push_back(new TH2F("residLocXvsHit", "local x residual;hit;#Deltax",
nHits, 0., nHits, 101, -.75, .75));
myTrajectoryHists2D.push_back(new TH2F("residLocYvsHit", "local y residual, 2D-det.;hit;#Deltay",
nHits, 0., nHits, 101, -1., 1.));
myTrajectoryHists2D.push_back
(new TH2F("reduResidLocXvsHit", "local x reduced residual;hit;#Deltax/#sigma",
nHits, 0., nHits, 101, -20., 20.));
myTrajectoryHists2D.push_back
(new TH2F("reduResidLocYvsHit", "local y reduced residual, 2D-det.;hit;#Deltay/#sigma",
nHits, 0., nHits, 101, -20., 20.));
myTrajectoryHists2D.push_back(new TProfile2D("profDerivatives",
"mean derivatives;hit x/y;parameter;",
2*nHits, 0., nHits, 10, 0., 10.));
myTrajectoryHists2D.push_back
(new TH2F("derivatives", "derivative;parameter;#partial(x/y)_{local}/#partial(param)",
10, 0., 10., 101, -20., 20.));
this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.E-12, 100.);
myTrajectoryHists2D.push_back
(new TH2F("derivativesLog", "|derivative|;parameter;|#partial(x/y)_{local}/#partial(param)|",
10, 0., 10., logBins.GetSize()-1, logBins.GetArray()));
myTrajectoryHists2D.push_back
(new TH2F("derivativesVsPhi",
"derivatives vs. #phi;#phi(geomDet);#partial(x/y)_{local}/#partial(param)",
50, -TMath::Pi(), TMath::Pi(), 101, -300., 300.));
// myTrajectoryHists2D.back()->SetBit(TH1::kCanRebin);
TDirectory *dirTraject = directory->mkdir("refTrajectoryHists", "ReferenceTrajectory's");
this->addToDirectory(myTrajectoryHists2D, dirTraject);
this->addToDirectory(myTrajectoryHists1D, dirTraject);
// derivatives hists
myDerivHists2D.push_back
(new TH2F("localDerivsPar","local derivatives vs. paramater;parameter;#partial/#partial(param)",
6, 0., 6., 101, -200., 200.));
myDerivHists2D.push_back
(new TH2F("localDerivsPhi","local derivatives vs. #phi(det);#phi(det);#partial/#partial(param)",
51, -TMath::Pi(), TMath::Pi(), 101, -150., 150.));
this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.E-13, 150.);
myDerivHists2D.push_back
(new TH2F("localDerivsParLog",
"local derivatives (#neq 0) vs. parameter;parameter;|#partial/#partial(param)|",
6, 0., 6., logBins.GetSize()-1, logBins.GetArray()));
myDerivHists2D.push_back
(new TH2F("localDerivsPhiLog",
"local derivatives (#neq 0) vs. #phi(det);#phi(det);|#partial/#partial(param)|",
51, -TMath::Pi(), TMath::Pi(), logBins.GetSize()-1, logBins.GetArray()));
const unsigned int maxParNum = PedeLabelerBase::theMaxNumParam;
myDerivHists2D.push_back
(new TH2F("globalDerivsPar",
"global derivatives vs. paramater;parameter;#partial/#partial(param)",
maxParNum, 0., maxParNum, 100, -200, 200));
myDerivHists2D.push_back
(new TH2F("globalDerivsPhi",
"global derivatives vs. #phi(det);#phi(det);#partial/#partial(param)",
51, -TMath::Pi(), TMath::Pi(), 102, -1.02, 1.02));
this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.E-7, 5.e2);
myDerivHists2D.push_back
(new TH2F("globalDerivsParLog",
"global derivatives (#neq 0) vs. parameter;parameter;|#partial/#partial(param)|",
maxParNum, 0., maxParNum, logBins.GetSize()-1, logBins.GetArray()));
myDerivHists2D.push_back
(new TH2F("globalDerivsPhiLog",
"global derivatives (#neq 0) vs. #phi(det);#phi(det);|#partial/#partial(param)|",
51, -TMath::Pi(), TMath::Pi(), logBins.GetSize()-1, logBins.GetArray()));
// this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.e-40, 1.E-35);
// myDerivHists2D.push_back
// (new TH2F("globalDerivsPhiLog2",
// "global derivatives (#neq 0) vs. #phi(det);#phi(det);|#partial/#partial(param)|",
// 51, -TMath::Pi(), TMath::Pi(), logBins.GetSize()-1, logBins.GetArray()));
TDirectory *dirDerivs = directory->mkdir("derivatives", "derivatives etc.");
this->addToDirectory(myDerivHists2D, dirDerivs);
// residual hists
myResidHists2D.push_back(new TH2F("residPhi","residuum vs. #phi(det);#phi(det);residuum[cm]",
51, -TMath::Pi(), TMath::Pi(), 101, -.5, .5));
myResidHists2D.push_back(new TH2F("sigmaPhi","#sigma vs. #phi(det);#phi(det);#sigma[cm]",
51, -TMath::Pi(), TMath::Pi(), 101, .0, .1));
myResidHists2D.push_back(new TH2F("reduResidPhi",
"residuum/#sigma vs. #phi(det);#phi(det);residuum/#sigma",
51, -TMath::Pi(), TMath::Pi(), 101, -14., 14.));
// myResidHists2D.push_back(new TProfile2D("residXProfXy",
// "mean |residuum| (u);x [cm];y [cm];#LT|residuum|#GT",
// 25, -110., 110., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("residXProfZr",
// "mean |residuum| (u);z [cm];r_{#pm} [cm];#LT|residuum|#GT",
// 25, -275., 275., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("residYProfXy",
// "mean |residuum| (v);x [cm];y [cm];#LT|residuum|#GT",
// 25, -110., 110., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("residYProfZr",
// "mean |residuum| (v);z [cm];r_{#pm} [cm];#LT|residuum|#GT",
// 25, -275., 275., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("reduResidXProfXy",
// "mean |residuum/#sigma| (u);x [cm];y [cm];#LT|res./#sigma|#GT",
// 25, -110., 110., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("reduResidXProfZr",
// "mean |residuum/#sigma| (u);z [cm];r_{#pm} [cm];#LT|res./#sigma|#GT",
// 25, -275., 275., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("reduResidYProfXy",
// "mean |residuum/#sigma| (v);x [cm];y [cm];#LT|res./#sigma|#GT",
// 25, -110., 110., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("reduResidYProfZr",
// "mean |residuum/#sigma| (v);z [cm];r_{#pm} [cm];#LT|res./#sigma|#GT",
// 25, -275., 275., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("sigmaXProfXy",
// "mean sigma (u);x [cm];y [cm];#LT#sigma#GT",
// 25, -110., 110., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("sigmaXProfZr",
// "mean sigma (u);z [cm];r_{#pm} [cm];#LT#sigma#GT",
// 25, -275., 275., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("sigmaYProfXy",
// "mean sigma (v);x [cm];y [cm];#LT#sigma#GT",
// 25, -110., 110., 25, -110., 110.));
// myResidHists2D.push_back(new TProfile2D("sigmaYProfZr",
// "mean sigma (v);z [cm];r_{#pm} [cm];#LT#sigma#GT",
// 25, -275., 275., 25, -110., 110.));
TDirectory *dirResid = directory->mkdir("residuals", "hit residuals, sigma,...");
this->addToDirectory(myResidHists2D, dirResid);
// Residuum, hit sigma and res./sigma for all sensor/track angles and separated for large and
// small angles with respect to the sensor normal in sensitive direction.
// Here for x-measurements:
std::vector<TH1*> allResidHistsX;
allResidHistsX.push_back(new TH1F("resid", "hit residuals;residuum [cm]", 101,-.5,.5));//51,-.05, .05));
//allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("sigma", "hit uncertainties;#sigma [cm]", 100,0.,1.));//50, 0., .02));
//allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("reduResid", "reduced hit residuals;res./#sigma",
101, -10., 10.));//51, -3., 3.));
// allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("angle", "#phi_{tr} wrt normal (sens. plane);#phi_{n}^{sens}",
50, 0., TMath::PiOver2()));
allResidHistsX.push_back(new TH2F("residVsAngle",
"residuum vs. #phi_{tr} wrt normal (sens. plane);#phi_{n}^{sens};residuum [cm]",
50, 0., TMath::PiOver2(), 51, -1., 1.));
this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.E-6, 100.);
allResidHistsX.push_back(new TH2F("sigmaVsAngle",
"#sigma vs. #phi_{tr} wrt normal (sens. plane);#phi_{n}^{sens};#sigma [cm]",
50, 0., TMath::PiOver2(), logBins.GetSize()-1, logBins.GetArray()));
allResidHistsX.push_back(new TH2F("reduResidVsAngle",
"reduced residuum vs. #phi_{tr} wrt normal (sens. plane);#phi_{n}^{sens};res./#sigma",
50, 0., TMath::PiOver2(), 51, -15., 15.));
allResidHistsX.push_back(new TH1F("residGt45",
"hit residuals (#phi_{n}^{sens}>45#circ);residuum [cm]",
101, -.5, .5));//51, -.05, .05));
// allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("sigmaGt45",
"hit uncertainties(#phi_{n}^{sens}>45#circ);#sigma [cm]",
100, 0., 1.));//50, 0., .02));
// allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("reduResidGt45",
"reduced hit residuals(#phi_{n}^{sens}>45#circ);res./#sigma",
101, -10., 10.));//51,-3.,3.));
// allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("residLt45",
"hit residuals (#phi_{n}^{sens}<45#circ);residuum [cm]",
101, -.5, .5));//51, -.15, .15));
// allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("sigmaLt45",
"hit uncertainties(#phi_{n}^{sens}<45#circ);#sigma [cm]",
100, 0., 1.));//50, 0., .01));
// allResidHistsX.back()->SetBit(TH1::kCanRebin);
allResidHistsX.push_back(new TH1F("reduResidLt45",
"reduced hit residuals(#phi_{n}^{sens}<45#circ);res./#sigma",
101, -10., 10.));//51,-3.,3.));
myResidHistsVec1DX.push_back(allResidHistsX); // at [0] for all subdets together...
// ... then separately - indices/order like DetId.subdetId() in tracker:
myResidHistsVec1DX.push_back(this->cloneHists(allResidHistsX, "TPB", " x-coord. in pixel barrel"));
myResidHistsVec1DX.push_back(this->cloneHists(allResidHistsX, "TPE", " x-coord. in pixel discs"));
myResidHistsVec1DX.push_back(this->cloneHists(allResidHistsX, "TIB", " x-coord. in TIB"));
myResidHistsVec1DX.push_back(this->cloneHists(allResidHistsX, "TID", " x-coord. in TID"));
myResidHistsVec1DX.push_back(this->cloneHists(allResidHistsX, "TOB", " x-coord. in TOB"));
myResidHistsVec1DX.push_back(this->cloneHists(allResidHistsX, "TEC", " x-coord. in TEC"));
// finally, differential in hit number (but subdet independent)
for (unsigned int iHit = 0; iHit < 30; ++iHit) { // 4: for each hit fill only angle independent plots
for (unsigned int iHist = 0; iHist < 4 && iHist < allResidHistsX.size(); ++iHist) {
TH1 *h = allResidHistsX[iHist];
myResidHitHists1DX.push_back(static_cast<TH1*>(h->Clone(Form("%s_%d", h->GetName(), iHit))));
myResidHitHists1DX.back()->SetTitle(Form("%s, hit %d", h->GetTitle(), iHit));
}
}
TDirectory *dirResidX =
(dirResid ? dirResid : directory)->mkdir("X", "hit residuals etc. for x measurements");
this->addToDirectory(myResidHitHists1DX, dirResidX);
for (std::vector<std::vector<TH1*> >::iterator vecIter = myResidHistsVec1DX.begin(),
vecIterEnd = myResidHistsVec1DX.end(); vecIter != vecIterEnd; ++vecIter) {
this->addToDirectory(*vecIter, dirResidX);
}
// Now clone the same as above for y-ccordinate:
myResidHistsVec1DY.push_back(this->cloneHists(allResidHistsX, "", " y-coord."));// all subdets
std::vector<TH1*> &yHists1D = allResidHistsX;//myResidHistsVec1DY.back(); crashes? ROOT?
myResidHistsVec1DY.push_back(this->cloneHists(yHists1D, "TPB", " y-coord. in pixel barrel"));
myResidHistsVec1DY.push_back(this->cloneHists(yHists1D, "TPE", " y-coord. in pixel discs"));
myResidHistsVec1DY.push_back(this->cloneHists(yHists1D, "TIB", " y-coord. in TIB"));
myResidHistsVec1DY.push_back(this->cloneHists(yHists1D, "TID", " y-coord. in TID"));
myResidHistsVec1DY.push_back(this->cloneHists(yHists1D, "TOB", " y-coord. in TOB"));
myResidHistsVec1DY.push_back(this->cloneHists(yHists1D, "TEC", " y-coord. in TEC"));
myResidHitHists1DY = this->cloneHists(myResidHitHists1DX, "", " y-coord.");// diff. in nHit
TDirectory *dirResidY =
(dirResid ? dirResid : directory)->mkdir("Y", "hit residuals etc. for y measurements");
this->addToDirectory(myResidHitHists1DY, dirResidY);
for (std::vector<std::vector<TH1*> >::iterator vecIter = myResidHistsVec1DY.begin(),
vecIterEnd = myResidHistsVec1DY.end(); vecIter != vecIterEnd; ++vecIter) {
this->addToDirectory(*vecIter, dirResidY);
}
// farme-to-frame derivatives
myFrame2FrameHists2D.push_back(new TProfile2D("frame2frame",
"mean frame to frame derivatives;col;row",
6, 0., 6., 6, 0., 6.));
myFrame2FrameHists2D.push_back(new TProfile2D("frame2frameAbs",
"mean |frame to frame derivatives|, #neq0;col;row",
6, 0., 6., 6, 0., 6.));
this->equidistLogBins(logBins.GetArray(), logBins.GetSize()-1, 1.E-36, 100.);
for (unsigned int i = 0; i < 6; ++i) {
for (unsigned int j = 0; j < 6; ++j) {
myFrame2FrameHists2D.push_back
(new TH2F(Form("frame2framePhi%d%d", i, j),
Form("frame to frame derivatives, %d%d;#phi(aliDet);deriv",i,j),
51, -TMath::Pi(), TMath::Pi(), 10, 0., 1.));
myFrame2FrameHists2D.back()->SetBit(TH1::kCanRebin);
myFrame2FrameHists2D.push_back
(new TH2F(Form("frame2frameR%d%d", i, j),
Form("frame to frame derivatives, %d%d;r(aliDet);deriv",i,j),
51, 0., 110., 10, 0., 1.));
myFrame2FrameHists2D.back()->SetBit(TH1::kCanRebin);
myFrame2FrameHists2D.push_back
(new TH2F(Form("frame2framePhiLog%d%d", i, j),
Form("frame to frame |derivatives|, %d%d, #neq0;#phi(aliDet);deriv",i,j),
51, -TMath::Pi(), TMath::Pi(), logBins.GetSize()-1, logBins.GetArray()));
myFrame2FrameHists2D.push_back
(new TH2F(Form("frame2frameRLog%d%d", i, j),
Form("frame to frame |derivatives|, %d%d, #neq0;r(aliDet);deriv",i,j),
51, 0., 110., logBins.GetSize()-1, logBins.GetArray()));
}
}
TDirectory *dirF2f = directory->mkdir("frame2FrameHists", "derivatives etc.");
this->addToDirectory(myFrame2FrameHists2D, dirF2f);
myCorrHists.push_back(new TH1F("xyCorrTPB", "#rho_{xy} in pixel barrel", 50, -.5, .5));
myCorrHists.push_back(new TH1F("xyCorrTPE", "#rho_{xy} in forward pixel", 50, -.5, .5));
myCorrHists.push_back(new TH1F("xyCorrTIB", "#rho_{xy} in TIB", 50, -.5, .5));
myCorrHists.push_back(new TH1F("xyCorrTID", "#rho_{xy} in TID", 50, -1., 1.));
myCorrHists.push_back(new TH1F("xyCorrTOB", "#rho_{xy} in TOB", 50, -.5, .5));
myCorrHists.push_back(new TH1F("xyCorrTEC", "#rho_{xy} in TEC", 50, -1., 1.));
TDirectory *dirCorr = directory->mkdir("hitCorrelationHists", "correlations");
this->addToDirectory( myCorrHists, dirCorr);
// PXB Survey
myPxbSurveyHists.push_back(new TH1F("PxbSurvChi2_lo", "#chi^{2} from PXB survey", 25, 0, 25));
myPxbSurveyHists.push_back(new TH1F("PxbSurvChi2_md", "#chi^{2} from PXB survey", 25, 0, 500));
myPxbSurveyHists.push_back(new TH1F("PxbSurvChi2_hi", "#chi^{2} from PXB survey", 25, 0, 50000));
myPxbSurveyHists.push_back(new TH1F("PxbSurvChi2prob", "Math::Prob(#chi^{2},4) from PXB survey", 25, 0, 1));
myPxbSurveyHists.push_back(new TH1F("PxbSurv_a0", "a_{0} from PXB survey", 100, -3000, 3000));
myPxbSurveyHists.push_back(new TH1F("PxbSurv_a0_abs", "fabs(a_{0}) from PXB survey", 100, 0, 3000));
myPxbSurveyHists.push_back(new TH1F("PxbSurv_a1", "a_{1} from PXB survey", 100, -6000, 6000));
myPxbSurveyHists.push_back(new TH1F("PxbSurv_a1_abs", "fabs(a_{1}) from PXB survey", 100, 0, 6000));
myPxbSurveyHists.push_back(new TH1F("PxbSurv_scale", "scale (#sqrt{a_{2}^{2}+a_{3}^{2}}) from PXB survey", 100, 0, 1500));
myPxbSurveyHists.push_back(new TH1F("PxbSurv_phi", "angle(#atan{a_{3}/a_{4}}) from PXB survey", 100, -.05, .05));
TDirectory *dirPxbSurvey = directory->mkdir("PxbSurveyHists", "PxbSurvey");
this->addToDirectory( myPxbSurveyHists, dirPxbSurvey);
oldDir->cd();
return true;
}
std::vector<TH1*> MillePedeMonitor::myCorrHists [private] |
Definition at line 101 of file MillePedeMonitor.h.
Referenced by fillCorrelations2D(), and init().
bool MillePedeMonitor::myDeleteDir [private] |
Definition at line 86 of file MillePedeMonitor.h.
Referenced by MillePedeMonitor(), and ~MillePedeMonitor().
std::vector<TH2*> MillePedeMonitor::myDerivHists2D [private] |
Definition at line 94 of file MillePedeMonitor.h.
Referenced by fillDerivatives(), and init().
std::vector<TH2*> MillePedeMonitor::myFrame2FrameHists2D [private] |
Definition at line 100 of file MillePedeMonitor.h.
Referenced by fillFrameToFrame(), and init().
std::vector<TH1*> MillePedeMonitor::myPxbSurveyHists [private] |
Definition at line 102 of file MillePedeMonitor.h.
Referenced by fillPxbSurveyHistsChi2(), fillPxbSurveyHistsLocalPars(), and init().
std::vector<TH2*> MillePedeMonitor::myResidHists2D [private] |
Definition at line 95 of file MillePedeMonitor.h.
Referenced by fillResiduals(), and init().
std::vector<std::vector<TH1*> > MillePedeMonitor::myResidHistsVec1DX [private] |
Definition at line 96 of file MillePedeMonitor.h.
Referenced by fillResiduals(), and init().
std::vector<std::vector<TH1*> > MillePedeMonitor::myResidHistsVec1DY [private] |
[0]=all [1]=TPB [2]=TPE [3]=TIB [4]=TID [5]=TOB [6]=TEC
Definition at line 97 of file MillePedeMonitor.h.
Referenced by fillResiduals(), and init().
std::vector<TH1*> MillePedeMonitor::myResidHitHists1DX [private] |
[0]=all [1]=TPB [2]=TPE [3]=TIB [4]=TID [5]=TOB [6]=TEC
Definition at line 98 of file MillePedeMonitor.h.
Referenced by fillResiduals(), and init().
std::vector<TH1*> MillePedeMonitor::myResidHitHists1DY [private] |
Definition at line 99 of file MillePedeMonitor.h.
Referenced by fillResiduals(), and init().
TDirectory* MillePedeMonitor::myRootDir [private] |
Definition at line 85 of file MillePedeMonitor.h.
Referenced by MillePedeMonitor(), and ~MillePedeMonitor().
std::vector<TH1*> MillePedeMonitor::myTrackHists1D [private] |
Definition at line 88 of file MillePedeMonitor.h.
Referenced by fillTrack(), and init().
std::vector<TH2*> MillePedeMonitor::myTrackHists2D [private] |
Definition at line 89 of file MillePedeMonitor.h.
Referenced by fillTrack(), and init().
std::vector<TH1*> MillePedeMonitor::myTrajectoryHists1D [private] |
Definition at line 92 of file MillePedeMonitor.h.
Referenced by fillRefTrajectory(), and init().
std::vector<TH2*> MillePedeMonitor::myTrajectoryHists2D [private] |
Definition at line 93 of file MillePedeMonitor.h.
Referenced by fillRefTrajectory(), and init().
std::vector<TH1*> MillePedeMonitor::myUsedTrackHists1D [private] |
Definition at line 90 of file MillePedeMonitor.h.
Referenced by fillUsedTrack(), and init().
std::vector<TH2*> MillePedeMonitor::myUsedTrackHists2D [private] |
Definition at line 91 of file MillePedeMonitor.h.
Referenced by fillUsedTrack(), and init().
1.7.3