Inheritance diagram for AlignmentMonitorSegmentDifferences:

Public Member Functions
	AlignmentMonitorSegmentDifferences (const edm::ParameterSet &cfg)

void	book () override
	Book or retrieve histograms; MUST be reimplemented. More...

void	event (const edm::Event &iEvent, const edm::EventSetup &iSetup, const ConstTrajTrackPairCollection &iTrajTracks) override
	Called for each event (by "run()"): may be reimplemented. More...

void	processMuonResidualsFromTrack (MuonResidualsFromTrack &mrft)

	~AlignmentMonitorSegmentDifferences () override

Public Member Functions inherited from AlignmentMonitorBase
virtual void	afterAlignment ()

	AlignmentMonitorBase (const edm::ParameterSet &cfg, std::string name)
	Constructor. More...

void	beginOfJob (AlignableTracker pTracker, AlignableMuon pMuon, AlignmentParameterStore *pStore)
	Called at beginning of job: don't reimplement. More...

void	duringLoop (const edm::Event &iEvent, const edm::EventSetup &iSetup, const ConstTrajTrackPairCollection &iTrajTracks)
	Called for each event: don't reimplement. More...

void	endOfJob ()
	Called at end of processing: don't implement. More...

void	endOfLoop ()
	Called at end of loop: don't reimplement. More...

void	startingNewLoop ()
	Called at beginning of loop: don't reimplement. More...

virtual	~AlignmentMonitorBase ()
	Destructor. More...

Private Attributes
bool	m_allowTIDTEC

TProfile *	m_cscinner_resid [2][18][3]

TProfile *	m_cscinner_slope [2][18][3]

TProfile *	m_cscouter_resid [2][36][2]

TProfile *	m_cscouter_slope [2][36][2]

bool	m_doCSC

bool	m_doDT

TProfile *	m_dt13_resid [5][12][3]

TProfile *	m_dt13_slope [5][12][3]

TProfile *	m_dt2_resid [5][12][2]

TProfile *	m_dt2_slope [5][12][2]

double	m_maxDxy

double	m_maxTrackerRedChi2

int	m_minCSCHits

int	m_minDT13Hits

int	m_minDT2Hits

bool	m_minNCrossedChambers

int	m_minTrackerHits

double	m_minTrackP

double	m_minTrackPt

edm::InputTag	m_muonCollectionTag

TH1F *	m_negcscinner_resid [2][18][3]

TH1F *	m_negcscinner_slope [2][18][3]

TH1F *	m_negcscouter_resid [2][36][2]

TH1F *	m_negcscouter_slope [2][36][2]

TH1F *	m_negdt13_resid [5][12][3]

TH1F *	m_negdt13_slope [5][12][3]

TH1F *	m_negdt2_resid [5][12][2]

TH1F *	m_negdt2_slope [5][12][2]

TH1F *	m_poscscinner_resid [2][18][3]

TH1F *	m_poscscinner_slope [2][18][3]

TH1F *	m_poscscouter_resid [2][36][2]

TH1F *	m_poscscouter_slope [2][36][2]

TH1F *	m_posdt13_resid [5][12][3]

TH1F *	m_posdt13_slope [5][12][3]

TH1F *	m_posdt2_resid [5][12][2]

TH1F *	m_posdt2_slope [5][12][2]

TH1F *	m_x_neg_dt1_csc1_resid [2][12]

TH1F *	m_x_neg_dt1_csc2_resid [2][12]

TH1F *	m_x_neg_dt2_csc1_resid [2][12]

TH1F *	m_x_pos_dt1_csc1_resid [2][12]

TH1F *	m_x_pos_dt1_csc2_resid [2][12]

TH1F *	m_x_pos_dt2_csc1_resid [2][12]

Additional Inherited Members
Public Types inherited from AlignmentMonitorBase
typedef std::pair< const Trajectory , const reco::Track >	ConstTrajTrackPair

typedef std::vector< ConstTrajTrackPair >	ConstTrajTrackPairCollection

Protected Member Functions inherited from AlignmentMonitorBase
TH1F *	book1D (std::string dir, std::string name, std::string title, int nchX, double lowX, double highX)

TH2F *	book2D (std::string dir, std::string name, std::string title, int nchX, double lowX, double highX, int nchY, double lowY, double highY)

TProfile *	bookProfile (std::string dir, std::string name, std::string title, int nchX, double lowX, double highX, int nchY=1, double lowY=0., double highY=0., const char *option="s")

TFileDirectory *	directory (std::string dir)

int	iteration ()

AlignableMuon *	pMuon ()

AlignableNavigator *	pNavigator ()

AlignmentParameterStore *	pStore ()

AlignableTracker *	pTracker ()

Protected Attributes inherited from AlignmentMonitorBase
const edm::InputTag	m_beamSpotTag

Detailed Description

Definition at line 34 of file AlignmentMonitorSegmentDifferences.cc.

Constructor & Destructor Documentation

◆ AlignmentMonitorSegmentDifferences()

AlignmentMonitorSegmentDifferences::AlignmentMonitorSegmentDifferences ( const edm::ParameterSet & cfg )

Definition at line 110 of file AlignmentMonitorSegmentDifferences.cc.

     : AlignmentMonitorBase(cfg, "AlignmentMonitorSegmentDifferences"),
       m_muonCollectionTag(cfg.getParameter<edm::InputTag>("muonCollectionTag")),
       m_minTrackPt(cfg.getParameter<double>("minTrackPt")),
       m_minTrackP(cfg.getParameter<double>("minTrackP")),
       m_maxDxy(cfg.getParameter<double>("maxDxy")),
       m_minTrackerHits(cfg.getParameter<int>("minTrackerHits")),
       m_maxTrackerRedChi2(cfg.getParameter<double>("maxTrackerRedChi2")),
       m_allowTIDTEC(cfg.getParameter<bool>("allowTIDTEC")),
       m_minNCrossedChambers(cfg.getParameter<int>("minNCrossedChambers")),
       m_minDT13Hits(cfg.getParameter<int>("minDT13Hits")),
       m_minDT2Hits(cfg.getParameter<int>("minDT2Hits")),
       m_minCSCHits(cfg.getParameter<int>("minCSCHits")),
       m_doDT(cfg.getParameter<bool>("doDT")),
       m_doCSC(cfg.getParameter<bool>("doCSC")) {}

◆ ~AlignmentMonitorSegmentDifferences()

AlignmentMonitorSegmentDifferences::~AlignmentMonitorSegmentDifferences ( )

inlineoverride

Definition at line 37 of file AlignmentMonitorSegmentDifferences.cc.

37 {}

Member Function Documentation

◆ book()

void AlignmentMonitorSegmentDifferences::book ( )

overridevirtual

Book or retrieve histograms; MUST be reimplemented.

Implements AlignmentMonitorBase.

Definition at line 126 of file AlignmentMonitorSegmentDifferences.cc.

                                               {
   char name[225], pos[228], neg[228];
  
   double max_curv = 1. / m_minTrackPt;
  
   if (m_doDT)
     for (int wheel = -2; wheel <= +2; wheel++) {
       char wheel_label[][2] = {"A", "B", "C", "D", "E"};
       for (int sector = 1; sector <= 12; sector++) {
         char wheel_sector[50];
         sprintf(wheel_sector, "%s_%02d", wheel_label[wheel + 2], sector);
  
         int nb = 100;
         double wnd = 25.;
  
         sprintf(name, "dt13_resid_%s_12", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt13_resid[wheel + 2][sector - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_posdt13_resid[wheel + 2][sector - 1][0] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt13_resid[wheel + 2][sector - 1][0] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt13_resid_%s_23", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt13_resid[wheel + 2][sector - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_posdt13_resid[wheel + 2][sector - 1][1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt13_resid[wheel + 2][sector - 1][1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt13_resid_%s_34", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt13_resid[wheel + 2][sector - 1][2] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_posdt13_resid[wheel + 2][sector - 1][2] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt13_resid[wheel + 2][sector - 1][2] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt2_resid_%s_12", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt2_resid[wheel + 2][sector - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -200., 200., " ");
         m_posdt2_resid[wheel + 2][sector - 1][0] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt2_resid[wheel + 2][sector - 1][0] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt2_resid_%s_23", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt2_resid[wheel + 2][sector - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -200., 200., " ");
         m_posdt2_resid[wheel + 2][sector - 1][1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt2_resid[wheel + 2][sector - 1][1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt13_slope_%s_12", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt13_slope[wheel + 2][sector - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_posdt13_slope[wheel + 2][sector - 1][0] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt13_slope[wheel + 2][sector - 1][0] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt13_slope_%s_23", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt13_slope[wheel + 2][sector - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_posdt13_slope[wheel + 2][sector - 1][1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt13_slope[wheel + 2][sector - 1][1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt13_slope_%s_34", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt13_slope[wheel + 2][sector - 1][2] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_posdt13_slope[wheel + 2][sector - 1][2] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negdt13_slope[wheel + 2][sector - 1][2] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "dt2_slope_%s_12", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt2_slope[wheel + 2][sector - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -1000., 1000., " ");
         m_posdt2_slope[wheel + 2][sector - 1][0] = book1D("/iterN/", pos, pos, nb, -100., 100.);
         m_negdt2_slope[wheel + 2][sector - 1][0] = book1D("/iterN/", neg, neg, nb, -100., 100.);
  
         sprintf(name, "dt2_slope_%s_23", wheel_sector);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_dt2_slope[wheel + 2][sector - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -1000., 1000., " ");
         m_posdt2_slope[wheel + 2][sector - 1][1] = book1D("/iterN/", pos, pos, nb, -100., 100.);
         m_negdt2_slope[wheel + 2][sector - 1][1] = book1D("/iterN/", neg, neg, nb, -100., 100.);
       }
     }
  
   if (m_doCSC)
     for (int endcap = 1; endcap <= 2; endcap++) {
       std::string endcapletter;
       if (endcap == 1)
         endcapletter = "p";
       else if (endcap == 2)
         endcapletter = "m";
  
       for (int chamber = 1; chamber <= 36; chamber++) {
         char ec_chamber[50];
         sprintf(ec_chamber, "%s_%02d", endcapletter.c_str(), chamber);
  
         int nb = 100;
         double wnd = 60.;
  
         sprintf(name, "cscouter_resid_%s_12", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscouter_resid[endcap - 1][chamber - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscouter_resid[endcap - 1][chamber - 1][0] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscouter_resid[endcap - 1][chamber - 1][0] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscouter_resid_%s_23", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscouter_resid[endcap - 1][chamber - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscouter_resid[endcap - 1][chamber - 1][1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscouter_resid[endcap - 1][chamber - 1][1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscouter_slope_%s_12", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscouter_slope[endcap - 1][chamber - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscouter_slope[endcap - 1][chamber - 1][0] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscouter_slope[endcap - 1][chamber - 1][0] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscouter_slope_%s_23", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscouter_slope[endcap - 1][chamber - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscouter_slope[endcap - 1][chamber - 1][1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscouter_slope[endcap - 1][chamber - 1][1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
       }
  
       for (int chamber = 1; chamber <= 18; chamber++) {
         char ec_chamber[50];
         sprintf(ec_chamber, "%s_%02d", endcapletter.c_str(), chamber);
  
         int nb = 100;
         double wnd = 40.;
  
         sprintf(name, "cscinner_resid_%s_12", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscinner_resid[endcap - 1][chamber - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscinner_resid[endcap - 1][chamber - 1][0] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscinner_resid[endcap - 1][chamber - 1][0] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscinner_resid_%s_23", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscinner_resid[endcap - 1][chamber - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscinner_resid[endcap - 1][chamber - 1][1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscinner_resid[endcap - 1][chamber - 1][1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscinner_resid_%s_34", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscinner_resid[endcap - 1][chamber - 1][2] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscinner_resid[endcap - 1][chamber - 1][2] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscinner_resid[endcap - 1][chamber - 1][2] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscinner_slope_%s_12", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscinner_slope[endcap - 1][chamber - 1][0] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscinner_slope[endcap - 1][chamber - 1][0] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscinner_slope[endcap - 1][chamber - 1][0] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscinner_slope_%s_23", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscinner_slope[endcap - 1][chamber - 1][1] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscinner_slope[endcap - 1][chamber - 1][1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscinner_slope[endcap - 1][chamber - 1][1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
         sprintf(name, "cscinner_slope_%s_34", ec_chamber);
         sprintf(pos, "pos%s", name);
         sprintf(neg, "neg%s", name);
         m_cscinner_slope[endcap - 1][chamber - 1][2] =
             bookProfile("/iterN/", name, name, 20, -max_curv, max_curv, 1, -100., 100., " ");
         m_poscscinner_slope[endcap - 1][chamber - 1][2] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
         m_negcscinner_slope[endcap - 1][chamber - 1][2] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
       }
     }
  
   // cross-system
   for (int e = 1; e <= 2; e++)
     for (int s = 1; s <= 12; s++) {
       char endcap_sector[50];
       if (e == 1)
         sprintf(endcap_sector, "Wp2S%02d", s);
       if (e == 2)
         sprintf(endcap_sector, "Wm2S%02d", s);
  
       int nb = 200;
       double wnd = 100.;
  
       sprintf(pos, "pos_x_dt1_csc1_%s", endcap_sector);
       sprintf(neg, "neg_x_dt1_csc1_%s", endcap_sector);
       m_x_pos_dt1_csc1_resid[e - 1][s - 1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
       m_x_neg_dt1_csc1_resid[e - 1][s - 1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
       sprintf(pos, "pos_x_dt1_csc2_%s", endcap_sector);
       sprintf(neg, "neg_x_dt1_csc2_%s", endcap_sector);
       m_x_pos_dt1_csc2_resid[e - 1][s - 1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
       m_x_neg_dt1_csc2_resid[e - 1][s - 1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
  
       sprintf(pos, "pos_x_dt2_csc1_%s", endcap_sector);
       sprintf(neg, "neg_x_dt2_csc1_%s", endcap_sector);
       m_x_pos_dt2_csc1_resid[e - 1][s - 1] = book1D("/iterN/", pos, pos, nb, -wnd, wnd);
       m_x_neg_dt2_csc1_resid[e - 1][s - 1] = book1D("/iterN/", neg, neg, nb, -wnd, wnd);
     }
 }

References AlignmentMonitorBase::book1D(), AlignmentMonitorBase::bookProfile(), relativeConstraints::chamber, MillePedeFileConverter_cfg::e, makeMuonMisalignmentScenario::endcap, m_cscinner_resid, m_cscinner_slope, m_cscouter_resid, m_cscouter_slope, m_doCSC, m_doDT, m_dt13_resid, m_dt13_slope, m_dt2_resid, m_dt2_slope, m_minTrackPt, m_negcscinner_resid, m_negcscinner_slope, m_negcscouter_resid, m_negcscouter_slope, m_negdt13_resid, m_negdt13_slope, m_negdt2_resid, m_negdt2_slope, m_poscscinner_resid, m_poscscinner_slope, m_poscscouter_resid, m_poscscouter_slope, m_posdt13_resid, m_posdt13_slope, m_posdt2_resid, m_posdt2_slope, m_x_neg_dt1_csc1_resid, m_x_neg_dt1_csc2_resid, m_x_neg_dt2_csc1_resid, m_x_pos_dt1_csc1_resid, m_x_pos_dt1_csc2_resid, m_x_pos_dt2_csc1_resid, Skims_PA_cff::name, alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, and makeMuonMisalignmentScenario::wheel.

◆ event()

void AlignmentMonitorSegmentDifferences::event	(	const edm::Event &	iEvent,
		const edm::EventSetup &	iSetup,
		const ConstTrajTrackPairCollection &	iTrajTracks
	)

overridevirtual

Called for each event (by "run()"): may be reimplemented.

Reimplemented from AlignmentMonitorBase.

Definition at line 357 of file AlignmentMonitorSegmentDifferences.cc.

                                                                                                {
   edm::ESHandle<GlobalTrackingGeometry> globalGeometry;
   iSetup.get<GlobalTrackingGeometryRecord>().get(globalGeometry);
  
   edm::Handle<reco::BeamSpot> beamSpot;
   iEvent.getByLabel(m_beamSpotTag, beamSpot);
  
   edm::ESHandle<DetIdAssociator> muonDetIdAssociator_;
   iSetup.get<DetIdAssociatorRecord>().get("MuonDetIdAssociator", muonDetIdAssociator_);
  
   edm::ESHandle<Propagator> prop;
   iSetup.get<TrackingComponentsRecord>().get("SteppingHelixPropagatorAny", prop);
  
   edm::ESHandle<MagneticField> magneticField;
   iSetup.get<IdealMagneticFieldRecord>().get(magneticField);
  
   if (m_muonCollectionTag.label().empty())  // use trajectories
   {
     for (ConstTrajTrackPairCollection::const_iterator trajtrack = trajtracks.begin(); trajtrack != trajtracks.end();
          ++trajtrack) {
       const Trajectory *traj = (*trajtrack).first;
       const reco::Track *track = (*trajtrack).second;
  
       if (track->pt() > m_minTrackPt && track->p() > m_minTrackP && fabs(track->dxy(beamSpot->position())) < m_maxDxy) {
         MuonResidualsFromTrack muonResidualsFromTrack(
             iSetup, magneticField, globalGeometry, muonDetIdAssociator_, prop, traj, track, pNavigator(), 1000.);
         processMuonResidualsFromTrack(muonResidualsFromTrack);
       }
     }  // end loop over tracks
   } else {
     edm::Handle<reco::MuonCollection> muons;
     iEvent.getByLabel(m_muonCollectionTag, muons);
  
     for (reco::MuonCollection::const_iterator muon = muons->begin(); muon != muons->end(); ++muon) {
       if (!(muon->isTrackerMuon() && muon->innerTrack().isNonnull()))
         continue;
  
       if (m_minTrackPt < muon->pt() && m_minTrackP < muon->p() &&
           fabs(muon->innerTrack()->dxy(beamSpot->position())) < m_maxDxy) {
         MuonResidualsFromTrack muonResidualsFromTrack(globalGeometry, &(*muon), pNavigator(), 100.);
         processMuonResidualsFromTrack(muonResidualsFromTrack);
       }
     }
   }
 }

References pwdgSkimBPark_cfi::beamSpot, edm::EventSetup::get(), get, iEvent, edm::InputTag::label(), AlignmentMonitorBase::m_beamSpotTag, m_maxDxy, m_minTrackP, m_minTrackPt, m_muonCollectionTag, HLT_FULL_cff::magneticField, HLT_FULL_cff::muon, PDWG_BPHSkim_cff::muons, AlignmentMonitorBase::pNavigator(), processMuonResidualsFromTrack(), DiDispStaMuonMonitor_cfi::pt, and HLT_FULL_cff::track.

Referenced by Types.EventID::cppID().

◆ processMuonResidualsFromTrack()

void AlignmentMonitorSegmentDifferences::processMuonResidualsFromTrack ( MuonResidualsFromTrack & mrft )

Definition at line 405 of file AlignmentMonitorSegmentDifferences.cc.

                                                                                                    {
   if (mrft.trackerNumHits() < m_minTrackerHits)
     return;
   if (!m_allowTIDTEC && mrft.contains_TIDTEC())
     return;
   if (mrft.normalizedChi2() > m_maxTrackerRedChi2)
     return;
  
   int nMuChambers = 0;
   std::vector<DetId> chamberIds = mrft.chamberIds();
   for (unsigned ch = 0; ch < chamberIds.size(); ch++)
     if (chamberIds[ch].det() == DetId::Muon)
       nMuChambers++;
   if (nMuChambers < m_minNCrossedChambers)
     return;
  
   double qoverpt = (mrft.getTrack()->charge() > 0 ? 1. : -1.) / mrft.getTrack()->pt();
   double qoverpz = 0.;
   if (fabs(mrft.getTrack()->pz()) > 0.01)
     qoverpz = mrft.getTrack()->charge() / fabs(mrft.getTrack()->pz());
  
   for (std::vector<DetId>::const_iterator chamberId = chamberIds.begin(); chamberId != chamberIds.end(); ++chamberId) {
     if (chamberId->det() != DetId::Muon)
       continue;
  
     // **************** DT ****************
     if (m_doDT && chamberId->subdetId() == MuonSubdetId::DT) {
       MuonChamberResidual *dt13 = mrft.chamberResidual(*chamberId, MuonChamberResidual::kDT13);
       MuonChamberResidual *dt2 = mrft.chamberResidual(*chamberId, MuonChamberResidual::kDT2);
  
       if (dt13 != nullptr && dt13->numHits() >= m_minDT13Hits) {
         DTChamberId thisid(chamberId->rawId());
         for (std::vector<DetId>::const_iterator otherId = chamberIds.begin(); otherId != chamberIds.end(); ++otherId) {
           if (otherId->det() == DetId::Muon && otherId->subdetId() == MuonSubdetId::DT) {
             DTChamberId thatid(otherId->rawId());
             if (thisid.rawId() != thatid.rawId() && thisid.wheel() == thatid.wheel() &&
                 thisid.sector() == thatid.sector()) {
               MuonChamberResidual *dt13other = mrft.chamberResidual(*otherId, MuonChamberResidual::kDT13);
               if (dt13other != nullptr && dt13other->numHits() >= m_minDT13Hits) {
                 double slopediff = 1000. * (dt13->global_resslope() - dt13other->global_resslope());
                 //double length = dt13->chamberAlignable()->surface().toGlobal(align::LocalPoint(0,0,0)).perp() -
                 //                dt13other->chamberAlignable()->surface().toGlobal(align::LocalPoint(0,0,0)).perp();
                 //double residdiff = 10. * (dt13->global_residual() + length*dt13->global_resslope() - dt13other->global_residual());
                 double residdiff = 10. * (dt13->global_residual() - dt13other->global_residual());
  
                 int st = 0;
                 if (thatid.station() - thisid.station() == 1)
                   st = thisid.station();
                 if (st > 0) {
                   m_dt13_resid[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(qoverpt, residdiff);
                   m_dt13_slope[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(qoverpt, slopediff);
                   if (qoverpt > 0) {
                     m_posdt13_resid[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(residdiff);
                     m_posdt13_slope[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(slopediff);
                   } else {
                     m_negdt13_resid[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(residdiff);
                     m_negdt13_slope[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(slopediff);
                   }
                 }
               }  // end other numhits
             }    // end this near other
           }      // end other is DT
  
           // cross-system: other is CSC
           // only do it for DT stubs in W+-2 St1&2:
           if (!(abs(thisid.wheel()) == 2 && (thisid.station() == 1 || thisid.station() == 2)))
             continue;
           if (otherId->det() == DetId::Muon && otherId->subdetId() == MuonSubdetId::CSC) {
             CSCDetId thatid(otherId->rawId());
             //only do it for CSC stubs in St1R3 or St2R2:
             if (!((thatid.station() == 1 && thatid.ring() == 3) || (thatid.station() == 2 && thatid.ring() == 2)))
               continue;
  
             MuonChamberResidual *cscother = mrft.chamberResidual(*otherId, MuonChamberResidual::kCSC);
             if (cscother != nullptr && cscother->numHits() >= m_minCSCHits) {
               // scale to adjust the csc residual size to be comparabe to dt's one
               double csc_scale = dt13->chamberAlignable()
                                      ->surface()
                                      .toGlobal(align::LocalPoint(dt13->trackx(), dt13->tracky(), 0))
                                      .perp() /
                                  cscother->chamberAlignable()
                                      ->surface()
                                      .toGlobal(align::LocalPoint(cscother->trackx(), cscother->tracky(), 0))
                                      .perp();
               double residdiff = 10. * (dt13->global_residual() - cscother->global_residual() * csc_scale);
               if (thisid.station() == 1 && thatid.station() == 1) {
                 if (qoverpt > 0)
                   m_x_pos_dt1_csc1_resid[thatid.endcap() - 1][thisid.sector() - 1]->Fill(residdiff);
                 else
                   m_x_neg_dt1_csc1_resid[thatid.endcap() - 1][thisid.sector() - 1]->Fill(residdiff);
               } else if (thisid.station() == 1 && thatid.station() == 2) {
                 if (qoverpt > 0)
                   m_x_pos_dt1_csc2_resid[thatid.endcap() - 1][thisid.sector() - 1]->Fill(residdiff);
                 else
                   m_x_neg_dt1_csc2_resid[thatid.endcap() - 1][thisid.sector() - 1]->Fill(residdiff);
               } else if (thisid.station() == 2 && thatid.station() == 1) {
                 if (qoverpt > 0)
                   m_x_pos_dt2_csc1_resid[thatid.endcap() - 1][thisid.sector() - 1]->Fill(residdiff);
                 else
                   m_x_neg_dt2_csc1_resid[thatid.endcap() - 1][thisid.sector() - 1]->Fill(residdiff);
               }
             }
           }  // end other is CSC
         }    // end loop over other
       }      // end if DT13
  
       // z-direction
       if (dt2 != nullptr && dt2->numHits() >= m_minDT2Hits && (dt2->chi2() / double(dt2->ndof())) < 2.0) {
         DTChamberId thisid(chamberId->rawId());
         for (std::vector<DetId>::const_iterator otherId = chamberIds.begin(); otherId != chamberIds.end(); ++otherId) {
           if (otherId->det() == DetId::Muon && otherId->subdetId() == MuonSubdetId::DT) {
             DTChamberId thatid(otherId->rawId());
             if (thisid.rawId() != thatid.rawId() && thisid.wheel() == thatid.wheel() &&
                 thisid.sector() == thatid.sector()) {
               MuonChamberResidual *dt2other = mrft.chamberResidual(*otherId, MuonChamberResidual::kDT2);
               if (dt2other != nullptr && dt2other->numHits() >= m_minDT2Hits) {
                 double slopediff = 1000. * (dt2->global_resslope() - dt2other->global_resslope());
                 //double length = dt2->chamberAlignable()->surface().toGlobal(align::LocalPoint(0,0,0)).perp() -
                 //                dt2other->chamberAlignable()->surface().toGlobal(align::LocalPoint(0,0,0)).perp();
                 //double residdiff = 10. * (dt2->global_residual() + length*dt2->global_resslope() - dt2other->global_residual());
                 double residdiff = 10. * (dt2->global_residual() - dt2other->global_residual());
  
                 int st = 0;
                 if (thatid.station() - thisid.station() == 1)
                   st = thisid.station();
                 if (st > 0) {
                   m_dt2_resid[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(qoverpt, residdiff);
                   m_dt2_slope[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(qoverpt, slopediff);
                   if (qoverpt > 0) {
                     m_posdt2_resid[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(residdiff);
                     m_posdt2_slope[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(slopediff);
                   } else {
                     m_negdt2_resid[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(residdiff);
                     m_negdt2_slope[thisid.wheel() + 2][thisid.sector() - 1][st - 1]->Fill(slopediff);
                   }
                 }
               }  // end other numhits
             }    // end this near other
           }      // end other is DT
         }        // end loop over other
       }          // end if DT2
     }            // end if DT
  
     // **************** CSC ****************
     else if (m_doCSC && chamberId->subdetId() == MuonSubdetId::CSC) {
       MuonChamberResidual *csc = mrft.chamberResidual(*chamberId, MuonChamberResidual::kCSC);
       if (csc->numHits() >= m_minCSCHits) {
         CSCDetId thisid(chamberId->rawId());
         for (std::vector<DetId>::const_iterator otherId = chamberIds.begin(); otherId != chamberIds.end(); ++otherId) {
           if (otherId->det() == DetId::Muon && otherId->subdetId() == MuonSubdetId::CSC) {
             CSCDetId thatid(otherId->rawId());
             if (thisid.rawId() != thatid.rawId() && thisid.endcap() == thatid.endcap()) {
               MuonChamberResidual *cscother = mrft.chamberResidual(*otherId, MuonChamberResidual::kCSC);
               if (cscother != nullptr && cscother->numHits() >= m_minCSCHits) {
                 double slopediff = 1000. * (csc->global_resslope() - cscother->global_resslope());
                 //double length = csc->chamberAlignable()->surface().toGlobal(align::LocalPoint(0,0,0)).z() -
                 //                cscother->chamberAlignable()->surface().toGlobal(align::LocalPoint(0,0,0)).z();
                 //double residdiff = 10. * (csc->global_residual() + length*csc->global_resslope() - cscother->global_residual());
                 double residdiff = 10. * (csc->global_residual() - cscother->global_residual());
  
                 int thischamber = thisid.chamber();
                 int thisring = thisid.ring();
                 if (thisid.station() == 1 && (thisring == 1 || thisring == 4)) {
                   thischamber = (thischamber - 1) / 2 + 1;
                   thisring = 1;
                 }
  
                 if (thisring == thatid.ring() && thischamber == thatid.chamber()) {
                   bool inner = (thisring == 1);
                   bool outer = (thisring == 2);
                   int st = 0;
                   if (thatid.station() - thisid.station() == 1 && (inner || thisid.station() < 3))
                     st = thisid.station();
  
                   if (outer && st > 0) {
                     m_cscouter_resid[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(qoverpz, residdiff);
                     m_cscouter_slope[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(qoverpz, slopediff);
                     if (qoverpz > 0) {
                       m_poscscouter_resid[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(residdiff);
                       m_poscscouter_slope[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(slopediff);
                     } else {
                       m_negcscouter_resid[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(residdiff);
                       m_negcscouter_slope[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(slopediff);
                     }
                   }
                   if (inner && st > 0) {
                     m_cscinner_resid[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(qoverpz, residdiff);
                     m_cscinner_slope[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(qoverpz, slopediff);
                     if (qoverpz > 0) {
                       m_poscscinner_resid[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(residdiff);
                       m_poscscinner_slope[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(slopediff);
                     } else {
                       m_negcscinner_resid[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(residdiff);
                       m_negcscinner_slope[thisid.endcap() - 1][thischamber - 1][st - 1]->Fill(slopediff);
                     }
                   }
                 }  // end of same ring&chamber
               }    // end other min numhits
             }      // end this near other
           }        // end other is CSC
         }          // end loop over other
  
       }  // end if this min numhits
     }    // end if CSC
  
   }  // end loop over chamberIds
 }

References funct::abs(), MuonChamberResidual::chamberAlignable(), MuonResidualsFromTrack::chamberIds(), MuonResidualsFromTrack::chamberResidual(), reco::TrackBase::charge(), MuonChamberResidual::chi2(), MuonResidualsFromTrack::contains_TIDTEC(), MuonSubdetId::CSC, MuonSubdetId::DT, MuonResidualsFromTrack::getTrack(), MuonChamberResidual::global_residual(), MuonChamberResidual::global_resslope(), SurfaceOrientation::inner, MuonChamberResidual::kCSC, MuonChamberResidual::kDT13, MuonChamberResidual::kDT2, m_allowTIDTEC, m_cscinner_resid, m_cscinner_slope, m_cscouter_resid, m_cscouter_slope, m_doCSC, m_doDT, m_dt13_resid, m_dt13_slope, m_dt2_resid, m_dt2_slope, m_maxTrackerRedChi2, m_minCSCHits, m_minDT13Hits, m_minDT2Hits, m_minNCrossedChambers, m_minTrackerHits, m_negcscinner_resid, m_negcscinner_slope, m_negcscouter_resid, m_negcscouter_slope, m_negdt13_resid, m_negdt13_slope, m_negdt2_resid, m_negdt2_slope, m_poscscinner_resid, m_poscscinner_slope, m_poscscouter_resid, m_poscscouter_slope, m_posdt13_resid, m_posdt13_slope, m_posdt2_resid, m_posdt2_slope, m_x_neg_dt1_csc1_resid, m_x_neg_dt1_csc2_resid, m_x_neg_dt2_csc1_resid, m_x_pos_dt1_csc1_resid, m_x_pos_dt1_csc2_resid, m_x_pos_dt2_csc1_resid, DetId::Muon, MuonChamberResidual::ndof(), MuonResidualsFromTrack::normalizedChi2(), MuonChamberResidual::numHits(), SurfaceOrientation::outer, reco::TrackBase::pt(), reco::TrackBase::pz(), Alignable::surface(), AlignableSurface::toGlobal(), MuonResidualsFromTrack::trackerNumHits(), MuonChamberResidual::trackx(), and MuonChamberResidual::tracky().

Referenced by event().

Member Data Documentation

◆ m_allowTIDTEC

bool AlignmentMonitorSegmentDifferences::m_allowTIDTEC

private

Definition at line 53 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by processMuonResidualsFromTrack().

◆ m_cscinner_resid

TProfile* AlignmentMonitorSegmentDifferences::m_cscinner_resid[2][18][3]

private

Definition at line 78 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_cscinner_slope

TProfile* AlignmentMonitorSegmentDifferences::m_cscinner_slope[2][18][3]

private

Definition at line 79 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_cscouter_resid

TProfile* AlignmentMonitorSegmentDifferences::m_cscouter_resid[2][36][2]

private

Definition at line 76 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_cscouter_slope

TProfile* AlignmentMonitorSegmentDifferences::m_cscouter_slope[2][36][2]

private

Definition at line 77 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_doCSC

bool AlignmentMonitorSegmentDifferences::m_doCSC

private

Definition at line 59 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_doDT

bool AlignmentMonitorSegmentDifferences::m_doDT

private

Definition at line 58 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_dt13_resid

TProfile* AlignmentMonitorSegmentDifferences::m_dt13_resid[5][12][3]

private

Definition at line 62 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_dt13_slope

TProfile* AlignmentMonitorSegmentDifferences::m_dt13_slope[5][12][3]

private

Definition at line 63 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_dt2_resid

TProfile* AlignmentMonitorSegmentDifferences::m_dt2_resid[5][12][2]

private

Definition at line 64 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_dt2_slope

TProfile* AlignmentMonitorSegmentDifferences::m_dt2_slope[5][12][2]

private

Definition at line 65 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_maxDxy

double AlignmentMonitorSegmentDifferences::m_maxDxy

private

Definition at line 50 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by event().

◆ m_maxTrackerRedChi2

double AlignmentMonitorSegmentDifferences::m_maxTrackerRedChi2

private

Definition at line 52 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by processMuonResidualsFromTrack().

◆ m_minCSCHits

int AlignmentMonitorSegmentDifferences::m_minCSCHits

private

Definition at line 57 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by processMuonResidualsFromTrack().

◆ m_minDT13Hits

int AlignmentMonitorSegmentDifferences::m_minDT13Hits

private

Definition at line 55 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by processMuonResidualsFromTrack().

◆ m_minDT2Hits

int AlignmentMonitorSegmentDifferences::m_minDT2Hits

private

Definition at line 56 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by processMuonResidualsFromTrack().

◆ m_minNCrossedChambers

bool AlignmentMonitorSegmentDifferences::m_minNCrossedChambers

private

Definition at line 54 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by processMuonResidualsFromTrack().

◆ m_minTrackerHits

int AlignmentMonitorSegmentDifferences::m_minTrackerHits

private

Definition at line 51 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by processMuonResidualsFromTrack().

◆ m_minTrackP

double AlignmentMonitorSegmentDifferences::m_minTrackP

private

Definition at line 49 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by event().

◆ m_minTrackPt

double AlignmentMonitorSegmentDifferences::m_minTrackPt

private

Definition at line 48 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and event().

◆ m_muonCollectionTag

edm::InputTag AlignmentMonitorSegmentDifferences::m_muonCollectionTag

private

Definition at line 47 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by event().

◆ m_negcscinner_resid

TH1F* AlignmentMonitorSegmentDifferences::m_negcscinner_resid[2][18][3]

private

Definition at line 86 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_negcscinner_slope

TH1F* AlignmentMonitorSegmentDifferences::m_negcscinner_slope[2][18][3]

private

Definition at line 87 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_negcscouter_resid

TH1F* AlignmentMonitorSegmentDifferences::m_negcscouter_resid[2][36][2]

private

Definition at line 84 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_negcscouter_slope

TH1F* AlignmentMonitorSegmentDifferences::m_negcscouter_slope[2][36][2]

private

Definition at line 85 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_negdt13_resid

TH1F* AlignmentMonitorSegmentDifferences::m_negdt13_resid[5][12][3]

private

Definition at line 70 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_negdt13_slope

TH1F* AlignmentMonitorSegmentDifferences::m_negdt13_slope[5][12][3]

private

Definition at line 71 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_negdt2_resid

TH1F* AlignmentMonitorSegmentDifferences::m_negdt2_resid[5][12][2]

private

Definition at line 72 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_negdt2_slope

TH1F* AlignmentMonitorSegmentDifferences::m_negdt2_slope[5][12][2]

private

Definition at line 73 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_poscscinner_resid

TH1F* AlignmentMonitorSegmentDifferences::m_poscscinner_resid[2][18][3]

private

Definition at line 82 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_poscscinner_slope

TH1F* AlignmentMonitorSegmentDifferences::m_poscscinner_slope[2][18][3]

private

Definition at line 83 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_poscscouter_resid

TH1F* AlignmentMonitorSegmentDifferences::m_poscscouter_resid[2][36][2]

private

Definition at line 80 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_poscscouter_slope

TH1F* AlignmentMonitorSegmentDifferences::m_poscscouter_slope[2][36][2]

private

Definition at line 81 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_posdt13_resid

TH1F* AlignmentMonitorSegmentDifferences::m_posdt13_resid[5][12][3]

private

Definition at line 66 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_posdt13_slope

TH1F* AlignmentMonitorSegmentDifferences::m_posdt13_slope[5][12][3]

private

Definition at line 67 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_posdt2_resid

TH1F* AlignmentMonitorSegmentDifferences::m_posdt2_resid[5][12][2]

private

Definition at line 68 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_posdt2_slope

TH1F* AlignmentMonitorSegmentDifferences::m_posdt2_slope[5][12][2]

private

Definition at line 69 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_x_neg_dt1_csc1_resid

TH1F* AlignmentMonitorSegmentDifferences::m_x_neg_dt1_csc1_resid[2][12]

private

Definition at line 93 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_x_neg_dt1_csc2_resid

TH1F* AlignmentMonitorSegmentDifferences::m_x_neg_dt1_csc2_resid[2][12]

private

Definition at line 94 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_x_neg_dt2_csc1_resid

TH1F* AlignmentMonitorSegmentDifferences::m_x_neg_dt2_csc1_resid[2][12]

private

Definition at line 95 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_x_pos_dt1_csc1_resid

TH1F* AlignmentMonitorSegmentDifferences::m_x_pos_dt1_csc1_resid[2][12]

private

Definition at line 90 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_x_pos_dt1_csc2_resid

TH1F* AlignmentMonitorSegmentDifferences::m_x_pos_dt1_csc2_resid[2][12]

private

Definition at line 91 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

◆ m_x_pos_dt2_csc1_resid

TH1F* AlignmentMonitorSegmentDifferences::m_x_pos_dt2_csc1_resid[2][12]

private

Definition at line 92 of file AlignmentMonitorSegmentDifferences.cc.

Referenced by book(), and processMuonResidualsFromTrack().

Public Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ AlignmentMonitorSegmentDifferences()

◆ ~AlignmentMonitorSegmentDifferences()

Member Function Documentation

◆ book()

◆ event()

◆ processMuonResidualsFromTrack()

Member Data Documentation

◆ m_allowTIDTEC

◆ m_cscinner_resid

◆ m_cscinner_slope

◆ m_cscouter_resid

◆ m_cscouter_slope

◆ m_doCSC

◆ m_doDT

◆ m_dt13_resid

◆ m_dt13_slope

◆ m_dt2_resid

◆ m_dt2_slope

◆ m_maxDxy

◆ m_maxTrackerRedChi2

◆ m_minCSCHits

◆ m_minDT13Hits

◆ m_minDT2Hits

◆ m_minNCrossedChambers

◆ m_minTrackerHits

◆ m_minTrackP

◆ m_minTrackPt

◆ m_muonCollectionTag

◆ m_negcscinner_resid

◆ m_negcscinner_slope

◆ m_negcscouter_resid

◆ m_negcscouter_slope

◆ m_negdt13_resid

◆ m_negdt13_slope

◆ m_negdt2_resid

◆ m_negdt2_slope

◆ m_poscscinner_resid

◆ m_poscscinner_slope

◆ m_poscscouter_resid

◆ m_poscscouter_slope

◆ m_posdt13_resid

◆ m_posdt13_slope

◆ m_posdt2_resid

◆ m_posdt2_slope

◆ m_x_neg_dt1_csc1_resid

◆ m_x_neg_dt1_csc2_resid

◆ m_x_neg_dt2_csc1_resid

◆ m_x_pos_dt1_csc1_resid

◆ m_x_pos_dt1_csc2_resid

◆ m_x_pos_dt2_csc1_resid