CMS 3D CMS Logo

Public Member Functions | Private Attributes

AlignmentMonitorMuonResiduals Class Reference

Inheritance diagram for AlignmentMonitorMuonResiduals:
AlignmentMonitorBase

List of all members.

Public Member Functions

void afterAlignment (const edm::EventSetup &iSetup)
 AlignmentMonitorMuonResiduals (const edm::ParameterSet &cfg)
void book ()
 Book or retrieve histograms; MUST be reimplemented.
void event (const edm::Event &iEvent, const edm::EventSetup &iSetup, const ConstTrajTrackPairCollection &iTrajTracks)
 Called for each event (by "run()"): may be reimplemented.
 ~AlignmentMonitorMuonResiduals ()

Private Attributes

TTree * m_chambers
Int_t m_chambers_chamber
Int_t m_chambers_endcap
Int_t m_chambers_numx
Int_t m_chambers_numy
Int_t m_chambers_rawid
Int_t m_chambers_ring
Int_t m_chambers_sector
Int_t m_chambers_station
Int_t m_chambers_wheel
Float_t m_chambers_x_w
Float_t m_chambers_x_ww
Float_t m_chambers_x_wx
Float_t m_chambers_x_wxx
Float_t m_chambers_y_w
Float_t m_chambers_y_ww
Float_t m_chambers_y_wy
Float_t m_chambers_y_wyy
std::map< int, int > m_numx
std::map< int, int > m_numy
TH1F * m_sumnumx
TH1F * m_sumnumy
std::map< int, double > m_x_w
std::map< int, double > m_x_ww
std::map< int, double > m_x_wx
std::map< int, double > m_x_wxx
TH1F * m_xerronmean
TH1F * m_xerronmean_mb
TH1F * m_xerronmean_mb1
TH1F * m_xerronmean_mb2
TH1F * m_xerronmean_mb3
TH1F * m_xerronmean_mb4
TH1F * m_xerronmean_me
TH1F * m_xerronmean_me11
TH1F * m_xerronmean_me12
TH1F * m_xerronmean_me13
TH1F * m_xerronmean_me14
TH1F * m_xerronmean_me21
TH1F * m_xerronmean_me22
TH1F * m_xerronmean_me31
TH1F * m_xerronmean_me32
TH1F * m_xerronmean_me41
TH1F * m_xerronmean_mem11
TH1F * m_xerronmean_mem12
TH1F * m_xerronmean_mem13
TH1F * m_xerronmean_mem14
TH1F * m_xerronmean_mem21
TH1F * m_xerronmean_mem22
TH1F * m_xerronmean_mem31
TH1F * m_xerronmean_mem32
TH1F * m_xerronmean_mem41
TH1F * m_xerronmean_mep11
TH1F * m_xerronmean_mep12
TH1F * m_xerronmean_mep13
TH1F * m_xerronmean_mep14
TH1F * m_xerronmean_mep21
TH1F * m_xerronmean_mep22
TH1F * m_xerronmean_mep31
TH1F * m_xerronmean_mep32
TH1F * m_xerronmean_mep41
TH1F * m_xerronmean_minus1
TH1F * m_xerronmean_minus2
TH1F * m_xerronmean_plus1
TH1F * m_xerronmean_plus2
TH1F * m_xerronmean_zero
TH1F * m_xmean
TH1F * m_xmean_mb
TH1F * m_xmean_mb1
TH1F * m_xmean_mb2
TH1F * m_xmean_mb3
TH1F * m_xmean_mb4
TH1F * m_xmean_me
TH1F * m_xmean_me11
TH1F * m_xmean_me12
TH1F * m_xmean_me13
TH1F * m_xmean_me14
TH1F * m_xmean_me21
TH1F * m_xmean_me22
TH1F * m_xmean_me31
TH1F * m_xmean_me32
TH1F * m_xmean_me41
TH1F * m_xmean_mem11
TH1F * m_xmean_mem12
TH1F * m_xmean_mem13
TH1F * m_xmean_mem14
TH1F * m_xmean_mem21
TH1F * m_xmean_mem22
TH1F * m_xmean_mem31
TH1F * m_xmean_mem32
TH1F * m_xmean_mem41
TH1F * m_xmean_mep11
TH1F * m_xmean_mep12
TH1F * m_xmean_mep13
TH1F * m_xmean_mep14
TH1F * m_xmean_mep21
TH1F * m_xmean_mep22
TH1F * m_xmean_mep31
TH1F * m_xmean_mep32
TH1F * m_xmean_mep41
TH1F * m_xmean_minus1
TH1F * m_xmean_minus2
TH1F * m_xmean_plus1
TH1F * m_xmean_plus2
TH1F * m_xmean_zero
TH1F * m_xresid
TH1F * m_xresid_mb
TH1F * m_xresid_mb1
TH1F * m_xresid_mb2
TH1F * m_xresid_mb3
TH1F * m_xresid_mb4
TH1F * m_xresid_me
TH1F * m_xresid_me11
TH1F * m_xresid_me12
TH1F * m_xresid_me13
TH1F * m_xresid_me14
TH1F * m_xresid_me21
TH1F * m_xresid_me22
TH1F * m_xresid_me31
TH1F * m_xresid_me32
TH1F * m_xresid_me41
TH1F * m_xresid_mem11
TH1F * m_xresid_mem12
TH1F * m_xresid_mem13
TH1F * m_xresid_mem14
TH1F * m_xresid_mem21
TH1F * m_xresid_mem22
TH1F * m_xresid_mem31
TH1F * m_xresid_mem32
TH1F * m_xresid_mem41
TH1F * m_xresid_mep11
TH1F * m_xresid_mep12
TH1F * m_xresid_mep13
TH1F * m_xresid_mep14
TH1F * m_xresid_mep21
TH1F * m_xresid_mep22
TH1F * m_xresid_mep31
TH1F * m_xresid_mep32
TH1F * m_xresid_mep41
TH1F * m_xresid_minus1
TH1F * m_xresid_minus2
TH1F * m_xresid_plus1
TH1F * m_xresid_plus2
TH1F * m_xresid_zero
TH1F * m_xstdev
TH1F * m_xstdev_mb
TH1F * m_xstdev_mb1
TH1F * m_xstdev_mb2
TH1F * m_xstdev_mb3
TH1F * m_xstdev_mb4
TH1F * m_xstdev_me
TH1F * m_xstdev_me11
TH1F * m_xstdev_me12
TH1F * m_xstdev_me13
TH1F * m_xstdev_me14
TH1F * m_xstdev_me21
TH1F * m_xstdev_me22
TH1F * m_xstdev_me31
TH1F * m_xstdev_me32
TH1F * m_xstdev_me41
TH1F * m_xstdev_mem11
TH1F * m_xstdev_mem12
TH1F * m_xstdev_mem13
TH1F * m_xstdev_mem14
TH1F * m_xstdev_mem21
TH1F * m_xstdev_mem22
TH1F * m_xstdev_mem31
TH1F * m_xstdev_mem32
TH1F * m_xstdev_mem41
TH1F * m_xstdev_mep11
TH1F * m_xstdev_mep12
TH1F * m_xstdev_mep13
TH1F * m_xstdev_mep14
TH1F * m_xstdev_mep21
TH1F * m_xstdev_mep22
TH1F * m_xstdev_mep31
TH1F * m_xstdev_mep32
TH1F * m_xstdev_mep41
TH1F * m_xstdev_minus1
TH1F * m_xstdev_minus2
TH1F * m_xstdev_plus1
TH1F * m_xstdev_plus2
TH1F * m_xstdev_zero
TH1F * m_xsummary
std::map< int, double > m_y_w
std::map< int, double > m_y_ww
std::map< int, double > m_y_wy
std::map< int, double > m_y_wyy
TH1F * m_yerronmean
TH1F * m_yerronmean_mb
TH1F * m_yerronmean_mb1
TH1F * m_yerronmean_mb2
TH1F * m_yerronmean_mb3
TH1F * m_yerronmean_mb4
TH1F * m_yerronmean_me
TH1F * m_yerronmean_me11
TH1F * m_yerronmean_me12
TH1F * m_yerronmean_me13
TH1F * m_yerronmean_me14
TH1F * m_yerronmean_me21
TH1F * m_yerronmean_me22
TH1F * m_yerronmean_me31
TH1F * m_yerronmean_me32
TH1F * m_yerronmean_me41
TH1F * m_yerronmean_mem11
TH1F * m_yerronmean_mem12
TH1F * m_yerronmean_mem13
TH1F * m_yerronmean_mem14
TH1F * m_yerronmean_mem21
TH1F * m_yerronmean_mem22
TH1F * m_yerronmean_mem31
TH1F * m_yerronmean_mem32
TH1F * m_yerronmean_mem41
TH1F * m_yerronmean_mep11
TH1F * m_yerronmean_mep12
TH1F * m_yerronmean_mep13
TH1F * m_yerronmean_mep14
TH1F * m_yerronmean_mep21
TH1F * m_yerronmean_mep22
TH1F * m_yerronmean_mep31
TH1F * m_yerronmean_mep32
TH1F * m_yerronmean_mep41
TH1F * m_yerronmean_minus1
TH1F * m_yerronmean_minus2
TH1F * m_yerronmean_plus1
TH1F * m_yerronmean_plus2
TH1F * m_yerronmean_zero
TH1F * m_ymean
TH1F * m_ymean_mb
TH1F * m_ymean_mb1
TH1F * m_ymean_mb2
TH1F * m_ymean_mb3
TH1F * m_ymean_mb4
TH1F * m_ymean_me
TH1F * m_ymean_me11
TH1F * m_ymean_me12
TH1F * m_ymean_me13
TH1F * m_ymean_me14
TH1F * m_ymean_me21
TH1F * m_ymean_me22
TH1F * m_ymean_me31
TH1F * m_ymean_me32
TH1F * m_ymean_me41
TH1F * m_ymean_mem11
TH1F * m_ymean_mem12
TH1F * m_ymean_mem13
TH1F * m_ymean_mem14
TH1F * m_ymean_mem21
TH1F * m_ymean_mem22
TH1F * m_ymean_mem31
TH1F * m_ymean_mem32
TH1F * m_ymean_mem41
TH1F * m_ymean_mep11
TH1F * m_ymean_mep12
TH1F * m_ymean_mep13
TH1F * m_ymean_mep14
TH1F * m_ymean_mep21
TH1F * m_ymean_mep22
TH1F * m_ymean_mep31
TH1F * m_ymean_mep32
TH1F * m_ymean_mep41
TH1F * m_ymean_minus1
TH1F * m_ymean_minus2
TH1F * m_ymean_plus1
TH1F * m_ymean_plus2
TH1F * m_ymean_zero
TH1F * m_yresid
TH1F * m_yresid_mb
TH1F * m_yresid_mb1
TH1F * m_yresid_mb2
TH1F * m_yresid_mb3
TH1F * m_yresid_mb4
TH1F * m_yresid_me
TH1F * m_yresid_me11
TH1F * m_yresid_me12
TH1F * m_yresid_me13
TH1F * m_yresid_me14
TH1F * m_yresid_me21
TH1F * m_yresid_me22
TH1F * m_yresid_me31
TH1F * m_yresid_me32
TH1F * m_yresid_me41
TH1F * m_yresid_mem11
TH1F * m_yresid_mem12
TH1F * m_yresid_mem13
TH1F * m_yresid_mem14
TH1F * m_yresid_mem21
TH1F * m_yresid_mem22
TH1F * m_yresid_mem31
TH1F * m_yresid_mem32
TH1F * m_yresid_mem41
TH1F * m_yresid_mep11
TH1F * m_yresid_mep12
TH1F * m_yresid_mep13
TH1F * m_yresid_mep14
TH1F * m_yresid_mep21
TH1F * m_yresid_mep22
TH1F * m_yresid_mep31
TH1F * m_yresid_mep32
TH1F * m_yresid_mep41
TH1F * m_yresid_minus1
TH1F * m_yresid_minus2
TH1F * m_yresid_plus1
TH1F * m_yresid_plus2
TH1F * m_yresid_zero
TH1F * m_ystdev
TH1F * m_ystdev_mb
TH1F * m_ystdev_mb1
TH1F * m_ystdev_mb2
TH1F * m_ystdev_mb3
TH1F * m_ystdev_mb4
TH1F * m_ystdev_me
TH1F * m_ystdev_me11
TH1F * m_ystdev_me12
TH1F * m_ystdev_me13
TH1F * m_ystdev_me14
TH1F * m_ystdev_me21
TH1F * m_ystdev_me22
TH1F * m_ystdev_me31
TH1F * m_ystdev_me32
TH1F * m_ystdev_me41
TH1F * m_ystdev_mem11
TH1F * m_ystdev_mem12
TH1F * m_ystdev_mem13
TH1F * m_ystdev_mem14
TH1F * m_ystdev_mem21
TH1F * m_ystdev_mem22
TH1F * m_ystdev_mem31
TH1F * m_ystdev_mem32
TH1F * m_ystdev_mem41
TH1F * m_ystdev_mep11
TH1F * m_ystdev_mep12
TH1F * m_ystdev_mep13
TH1F * m_ystdev_mep14
TH1F * m_ystdev_mep21
TH1F * m_ystdev_mep22
TH1F * m_ystdev_mep31
TH1F * m_ystdev_mep32
TH1F * m_ystdev_mep41
TH1F * m_ystdev_minus1
TH1F * m_ystdev_minus2
TH1F * m_ystdev_plus1
TH1F * m_ystdev_plus2
TH1F * m_ystdev_zero
TH1F * m_ysummary
unsigned int xerronmean_bins
double xerronmean_high
double xerronmean_low
unsigned int xmean_bins
double xmean_high
double xmean_low
unsigned int xresid_bins
double xresid_high
double xresid_low
unsigned int xstdev_bins
double xstdev_high
double xstdev_low
unsigned int yerronmean_bins
double yerronmean_high
double yerronmean_low
unsigned int ymean_bins
double ymean_high
double ymean_low
unsigned int yresid_bins
double yresid_high
double yresid_low
unsigned int ystdev_bins
double ystdev_high
double ystdev_low

Detailed Description

Definition at line 33 of file AlignmentMonitorMuonResiduals.cc.


Constructor & Destructor Documentation

AlignmentMonitorMuonResiduals::AlignmentMonitorMuonResiduals ( const edm::ParameterSet cfg)

Definition at line 159 of file AlignmentMonitorMuonResiduals.cc.

References edm::ParameterSet::getParameter(), xerronmean_bins, xerronmean_high, xerronmean_low, xmean_bins, xmean_high, xmean_low, xresid_bins, xresid_high, xresid_low, xstdev_bins, xstdev_high, xstdev_low, yerronmean_bins, yerronmean_high, yerronmean_low, ymean_bins, ymean_high, ymean_low, yresid_bins, yresid_high, yresid_low, ystdev_bins, ystdev_high, and ystdev_low.

   : AlignmentMonitorBase(cfg, "AlignmentMonitorMuonResiduals")
{
   xresid_bins = cfg.getParameter<unsigned int>("xresid_bins");
   xmean_bins = cfg.getParameter<unsigned int>("xmean_bins");
   xstdev_bins = cfg.getParameter<unsigned int>("xstdev_bins");
   xerronmean_bins = cfg.getParameter<unsigned int>("xerronmean_bins");
   yresid_bins = cfg.getParameter<unsigned int>("yresid_bins");
   ymean_bins = cfg.getParameter<unsigned int>("ymean_bins");
   ystdev_bins = cfg.getParameter<unsigned int>("ystdev_bins");
   yerronmean_bins = cfg.getParameter<unsigned int>("yerronmean_bins");
   xresid_low = cfg.getParameter<double>("xresid_low");
   xresid_high = cfg.getParameter<double>("xresid_high");
   xmean_low = cfg.getParameter<double>("xmean_low");
   xmean_high = cfg.getParameter<double>("xmean_high");
   xstdev_low = cfg.getParameter<double>("xstdev_low");
   xstdev_high = cfg.getParameter<double>("xstdev_high");
   xerronmean_low = cfg.getParameter<double>("xerronmean_low");
   xerronmean_high = cfg.getParameter<double>("xerronmean_high");
   yresid_low = cfg.getParameter<double>("yresid_low");
   yresid_high = cfg.getParameter<double>("yresid_high");
   ymean_low = cfg.getParameter<double>("ymean_low");
   ymean_high = cfg.getParameter<double>("ymean_high");
   ystdev_low = cfg.getParameter<double>("ystdev_low");
   ystdev_high = cfg.getParameter<double>("ystdev_high");
   yerronmean_low = cfg.getParameter<double>("yerronmean_low");
   yerronmean_high = cfg.getParameter<double>("yerronmean_high");
}
AlignmentMonitorMuonResiduals::~AlignmentMonitorMuonResiduals ( ) [inline]

Definition at line 36 of file AlignmentMonitorMuonResiduals.cc.

{};

Member Function Documentation

void AlignmentMonitorMuonResiduals::afterAlignment ( const edm::EventSetup iSetup) [virtual]

Called after updating AlignableTracker and AlignableMuon (by "endOfLoop()"): may be reimplemented

Reimplemented from AlignmentMonitorBase.

Definition at line 813 of file AlignmentMonitorMuonResiduals.cc.

References chambers, AlignableMuon::CSCChambers(), GeomDetEnumerators::DT, AlignableMuon::DTChambers(), Reference_intrackfit_cff::endcap, errorMatrix2Lands_multiChannel::id, getHLTprescales::index, m_chambers, m_chambers_chamber, m_chambers_endcap, m_chambers_numx, m_chambers_numy, m_chambers_rawid, m_chambers_ring, m_chambers_sector, m_chambers_station, m_chambers_wheel, m_chambers_x_w, m_chambers_x_ww, m_chambers_x_wx, m_chambers_x_wxx, m_chambers_y_w, m_chambers_y_ww, m_chambers_y_wy, m_chambers_y_wyy, m_numx, m_numy, m_sumnumx, m_sumnumy, m_x_w, m_x_ww, m_x_wx, m_x_wxx, m_xerronmean, m_xerronmean_mb, m_xerronmean_mb1, m_xerronmean_mb2, m_xerronmean_mb3, m_xerronmean_mb4, m_xerronmean_me, m_xerronmean_me11, m_xerronmean_me12, m_xerronmean_me13, m_xerronmean_me14, m_xerronmean_me21, m_xerronmean_me22, m_xerronmean_me31, m_xerronmean_me32, m_xerronmean_me41, m_xerronmean_mem11, m_xerronmean_mem12, m_xerronmean_mem13, m_xerronmean_mem14, m_xerronmean_mem21, m_xerronmean_mem22, m_xerronmean_mem31, m_xerronmean_mem32, m_xerronmean_mem41, m_xerronmean_mep11, m_xerronmean_mep12, m_xerronmean_mep13, m_xerronmean_mep14, m_xerronmean_mep21, m_xerronmean_mep22, m_xerronmean_mep31, m_xerronmean_mep32, m_xerronmean_mep41, m_xerronmean_minus1, m_xerronmean_minus2, m_xerronmean_plus1, m_xerronmean_plus2, m_xerronmean_zero, m_xmean, m_xmean_mb, m_xmean_mb1, m_xmean_mb2, m_xmean_mb3, m_xmean_mb4, m_xmean_me, m_xmean_me11, m_xmean_me12, m_xmean_me13, m_xmean_me14, m_xmean_me21, m_xmean_me22, m_xmean_me31, m_xmean_me32, m_xmean_me41, m_xmean_mem11, m_xmean_mem12, m_xmean_mem13, m_xmean_mem14, m_xmean_mem21, m_xmean_mem22, m_xmean_mem31, m_xmean_mem32, m_xmean_mem41, m_xmean_mep11, m_xmean_mep12, m_xmean_mep13, m_xmean_mep14, m_xmean_mep21, m_xmean_mep22, m_xmean_mep31, m_xmean_mep32, m_xmean_mep41, m_xmean_minus1, m_xmean_minus2, m_xmean_plus1, m_xmean_plus2, m_xmean_zero, m_xstdev, m_xstdev_mb, m_xstdev_mb1, m_xstdev_mb2, m_xstdev_mb3, m_xstdev_mb4, m_xstdev_me, m_xstdev_me11, m_xstdev_me12, m_xstdev_me13, m_xstdev_me14, m_xstdev_me21, m_xstdev_me22, m_xstdev_me31, m_xstdev_me32, m_xstdev_me41, m_xstdev_mem11, m_xstdev_mem12, m_xstdev_mem13, m_xstdev_mem14, m_xstdev_mem21, m_xstdev_mem22, m_xstdev_mem31, m_xstdev_mem32, m_xstdev_mem41, m_xstdev_mep11, m_xstdev_mep12, m_xstdev_mep13, m_xstdev_mep14, m_xstdev_mep21, m_xstdev_mep22, m_xstdev_mep31, m_xstdev_mep32, m_xstdev_mep41, m_xstdev_minus1, m_xstdev_minus2, m_xstdev_plus1, m_xstdev_plus2, m_xstdev_zero, m_xsummary, m_y_w, m_y_ww, m_y_wy, m_y_wyy, m_yerronmean, m_yerronmean_mb, m_yerronmean_mb1, m_yerronmean_mb2, m_yerronmean_mb3, m_yerronmean_mb4, m_yerronmean_me, m_yerronmean_me11, m_yerronmean_me12, m_yerronmean_me13, m_yerronmean_me14, m_yerronmean_me21, m_yerronmean_me22, m_yerronmean_me31, m_yerronmean_me32, m_yerronmean_me41, m_yerronmean_mem11, m_yerronmean_mem12, m_yerronmean_mem13, m_yerronmean_mem14, m_yerronmean_mem21, m_yerronmean_mem22, m_yerronmean_mem31, m_yerronmean_mem32, m_yerronmean_mem41, m_yerronmean_mep11, m_yerronmean_mep12, m_yerronmean_mep13, m_yerronmean_mep14, m_yerronmean_mep21, m_yerronmean_mep22, m_yerronmean_mep31, m_yerronmean_mep32, m_yerronmean_mep41, m_yerronmean_minus1, m_yerronmean_minus2, m_yerronmean_plus1, m_yerronmean_plus2, m_yerronmean_zero, m_ymean, m_ymean_mb, m_ymean_mb1, m_ymean_mb2, m_ymean_mb3, m_ymean_mb4, m_ymean_me, m_ymean_me11, m_ymean_me12, m_ymean_me13, m_ymean_me14, m_ymean_me21, m_ymean_me22, m_ymean_me31, m_ymean_me32, m_ymean_me41, m_ymean_mem11, m_ymean_mem12, m_ymean_mem13, m_ymean_mem14, m_ymean_mem21, m_ymean_mem22, m_ymean_mem31, m_ymean_mem32, m_ymean_mem41, m_ymean_mep11, m_ymean_mep12, m_ymean_mep13, m_ymean_mep14, m_ymean_mep21, m_ymean_mep22, m_ymean_mep31, m_ymean_mep32, m_ymean_mep41, m_ymean_minus1, m_ymean_minus2, m_ymean_plus1, m_ymean_plus2, m_ymean_zero, m_ystdev, m_ystdev_mb, m_ystdev_mb1, m_ystdev_mb2, m_ystdev_mb3, m_ystdev_mb4, m_ystdev_me, m_ystdev_me11, m_ystdev_me12, m_ystdev_me13, m_ystdev_me14, m_ystdev_me21, m_ystdev_me22, m_ystdev_me31, m_ystdev_me32, m_ystdev_me41, m_ystdev_mem11, m_ystdev_mem12, m_ystdev_mem13, m_ystdev_mem14, m_ystdev_mem21, m_ystdev_mem22, m_ystdev_mem31, m_ystdev_mem32, m_ystdev_mem41, m_ystdev_mep11, m_ystdev_mep12, m_ystdev_mep13, m_ystdev_mep14, m_ystdev_mep21, m_ystdev_mep22, m_ystdev_mep31, m_ystdev_mep32, m_ystdev_mep41, m_ystdev_minus1, m_ystdev_minus2, m_ystdev_plus1, m_ystdev_plus2, m_ystdev_zero, m_ysummary, mergeVDriftHistosByStation::name, AlignmentMonitorBase::pMuon(), relativeConstraints::ring, mathSSE::sqrt(), relativeConstraints::station, CSCDetId::station(), and DTChamberId::wheel().

                                                                              {
   std::vector<Alignable*> chambers;
   std::vector<Alignable*> tmp1 = pMuon()->DTChambers();
   for (std::vector<Alignable*>::const_iterator iter = tmp1.begin();  iter != tmp1.end();  ++iter) chambers.push_back(*iter);
   std::vector<Alignable*> tmp2 = pMuon()->CSCChambers();
   for (std::vector<Alignable*>::const_iterator iter = tmp2.begin();  iter != tmp2.end();  ++iter) chambers.push_back(*iter);

   int index = 0;
   for (std::vector<Alignable*>::const_iterator chamber = chambers.begin();  chamber != chambers.end();  ++chamber) {
      const int id = (*chamber)->geomDetId().rawId();
      
      m_chambers_rawid = id;
      m_chambers_numx = m_numx[id];
      m_chambers_x_w = m_x_w[id];
      m_chambers_x_ww = m_x_ww[id];
      m_chambers_x_wx = m_x_wx[id];
      m_chambers_x_wxx = m_x_wxx[id];
      m_chambers_numy = m_numy[id];
      m_chambers_y_w = m_y_w[id];
      m_chambers_y_ww = m_y_ww[id];
      m_chambers_y_wy = m_y_wy[id];
      m_chambers_y_wyy = m_y_wyy[id];

      index++;
      m_sumnumx->SetBinContent(index, m_numx[id]);
      m_sumnumy->SetBinContent(index, m_numy[id]);

      std::ostringstream name;
      if ((*chamber)->geomDetId().subdetId() == MuonSubdetId::DT) {
         DTChamberId dtId((*chamber)->geomDetId());
         name << "MB" << dtId.wheel() << "/" << dtId.station() << " (" << dtId.sector() << ")";
         m_chambers_endcap = 0;
         m_chambers_wheel = dtId.wheel();
         m_chambers_station = dtId.station();
         m_chambers_sector = dtId.sector();
         m_chambers_ring = 0;
         m_chambers_chamber = 0;
      }
      else {
         CSCDetId cscId((*chamber)->geomDetId());
         name << "ME" << (cscId.endcap() == 1? "+": "-") << cscId.station() << "/" << cscId.ring() << " (" << cscId.chamber() << ")";
         m_chambers_endcap = cscId.endcap();
         m_chambers_wheel = 0;
         m_chambers_station = cscId.station();
         m_chambers_sector = 0;
         m_chambers_ring = cscId.ring();
         m_chambers_chamber = cscId.chamber();
      }
      m_chambers->Fill();

      m_sumnumx->GetXaxis()->SetBinLabel(index, name.str().c_str());
      m_sumnumy->GetXaxis()->SetBinLabel(index, name.str().c_str());
      m_xsummary->GetXaxis()->SetBinLabel(index, name.str().c_str());
      m_ysummary->GetXaxis()->SetBinLabel(index, name.str().c_str());

      if (m_numx[id] > 0.) {
         double xmean = m_x_wx[id] / m_x_w[id];
         double xstdev = sqrt(((m_x_wxx[id] * m_x_w[id]) - (m_x_wx[id] * m_x_wx[id]))/((m_x_w[id] * m_x_w[id]) - m_x_ww[id]));
         double xerronmean = xstdev / sqrt(m_numx[id]);

         m_xsummary->SetBinContent(index, xmean);
         m_xsummary->SetBinError(index, xerronmean);

         m_xmean->Fill(xmean);  m_xstdev->Fill(xstdev);  m_xerronmean->Fill(xerronmean);
         if ((*chamber)->geomDetId().subdetId() == MuonSubdetId::DT) {
            m_xmean_mb->Fill(xmean);  m_xstdev_mb->Fill(xstdev);  m_xerronmean_mb->Fill(xerronmean);
            DTChamberId id((*chamber)->geomDetId().rawId());
            if (id.station() == 1) {
               m_xmean_mb1->Fill(xmean);  m_xstdev_mb1->Fill(xstdev);  m_xerronmean_mb1->Fill(xerronmean);
            }
            else if (id.station() == 2) {
               m_xmean_mb2->Fill(xmean);  m_xstdev_mb2->Fill(xstdev);  m_xerronmean_mb2->Fill(xerronmean);
            }
            else if (id.station() == 3) {
               m_xmean_mb3->Fill(xmean);  m_xstdev_mb3->Fill(xstdev);  m_xerronmean_mb3->Fill(xerronmean);
            }
            else if (id.station() == 4) {
               m_xmean_mb4->Fill(xmean);  m_xstdev_mb4->Fill(xstdev);  m_xerronmean_mb4->Fill(xerronmean);
            }

            if (id.wheel() == -2) {
               m_xmean_minus2->Fill(xmean);  m_xstdev_minus2->Fill(xstdev);  m_xerronmean_minus2->Fill(xerronmean);
            }
            else if (id.wheel() == -1) {
               m_xmean_minus1->Fill(xmean);  m_xstdev_minus1->Fill(xstdev);  m_xerronmean_minus1->Fill(xerronmean);
            }
            else if (id.wheel() == 0) {
               m_xmean_zero->Fill(xmean);  m_xstdev_zero->Fill(xstdev);  m_xerronmean_zero->Fill(xerronmean);
            }
            else if (id.wheel() == 1) {
               m_xmean_plus1->Fill(xmean);  m_xstdev_plus1->Fill(xstdev);  m_xerronmean_plus1->Fill(xerronmean);
            }
            else if (id.wheel() == 2) {
               m_xmean_plus2->Fill(xmean);  m_xstdev_plus2->Fill(xstdev);  m_xerronmean_plus2->Fill(xerronmean);
            }
         } // end if DT
         else {
            m_xmean_me->Fill(xmean);  m_xstdev_me->Fill(xstdev);  m_xerronmean_me->Fill(xerronmean);

            CSCDetId id((*chamber)->geomDetId().rawId());

            if ((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 1) {
               m_xmean_mep11->Fill(xmean);  m_xstdev_mep11->Fill(xstdev);  m_xerronmean_mep11->Fill(xerronmean);
               m_xmean_me11->Fill(xmean);  m_xstdev_me11->Fill(xstdev);  m_xerronmean_me11->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 1) {
               m_xmean_mem11->Fill(xmean);  m_xstdev_mem11->Fill(xstdev);  m_xerronmean_mem11->Fill(xerronmean);
               m_xmean_me11->Fill(xmean);  m_xstdev_me11->Fill(xstdev);  m_xerronmean_me11->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 2) {
               m_xmean_mep12->Fill(xmean);  m_xstdev_mep12->Fill(xstdev);  m_xerronmean_mep12->Fill(xerronmean);
               m_xmean_me12->Fill(xmean);  m_xstdev_me12->Fill(xstdev);  m_xerronmean_me12->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 2) {
               m_xmean_mem12->Fill(xmean);  m_xstdev_mem12->Fill(xstdev);  m_xerronmean_mem12->Fill(xerronmean);
               m_xmean_me12->Fill(xmean);  m_xstdev_me12->Fill(xstdev);  m_xerronmean_me12->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 3) {
               m_xmean_mep13->Fill(xmean);  m_xstdev_mep13->Fill(xstdev);  m_xerronmean_mep13->Fill(xerronmean);
               m_xmean_me13->Fill(xmean);  m_xstdev_me13->Fill(xstdev);  m_xerronmean_me13->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 3) {
               m_xmean_mem13->Fill(xmean);  m_xstdev_mem13->Fill(xstdev);  m_xerronmean_mem13->Fill(xerronmean);
               m_xmean_me13->Fill(xmean);  m_xstdev_me13->Fill(xstdev);  m_xerronmean_me13->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 4) {
               m_xmean_mep14->Fill(xmean);  m_xstdev_mep14->Fill(xstdev);  m_xerronmean_mep14->Fill(xerronmean);
               m_xmean_me14->Fill(xmean);  m_xstdev_me14->Fill(xstdev);  m_xerronmean_me14->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 4) {
               m_xmean_mem14->Fill(xmean);  m_xstdev_mem14->Fill(xstdev);  m_xerronmean_mem14->Fill(xerronmean);
               m_xmean_me14->Fill(xmean);  m_xstdev_me14->Fill(xstdev);  m_xerronmean_me14->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 2  &&  id.ring() == 1) {
               m_xmean_mep21->Fill(xmean);  m_xstdev_mep21->Fill(xstdev);  m_xerronmean_mep21->Fill(xerronmean);
               m_xmean_me21->Fill(xmean);  m_xstdev_me21->Fill(xstdev);  m_xerronmean_me21->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -2  &&  id.ring() == 1) {
               m_xmean_mem21->Fill(xmean);  m_xstdev_mem21->Fill(xstdev);  m_xerronmean_mem21->Fill(xerronmean);
               m_xmean_me21->Fill(xmean);  m_xstdev_me21->Fill(xstdev);  m_xerronmean_me21->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 2  &&  id.ring() == 2) {
               m_xmean_mep22->Fill(xmean);  m_xstdev_mep22->Fill(xstdev);  m_xerronmean_mep22->Fill(xerronmean);
               m_xmean_me22->Fill(xmean);  m_xstdev_me22->Fill(xstdev);  m_xerronmean_me22->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -2  &&  id.ring() == 2) {
               m_xmean_mem22->Fill(xmean);  m_xstdev_mem22->Fill(xstdev);  m_xerronmean_mem22->Fill(xerronmean);
               m_xmean_me22->Fill(xmean);  m_xstdev_me22->Fill(xstdev);  m_xerronmean_me22->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 3  &&  id.ring() == 1) {
               m_xmean_mep31->Fill(xmean);  m_xstdev_mep31->Fill(xstdev);  m_xerronmean_mep31->Fill(xerronmean);
               m_xmean_me31->Fill(xmean);  m_xstdev_me31->Fill(xstdev);  m_xerronmean_me31->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -3  &&  id.ring() == 1) {
               m_xmean_mem31->Fill(xmean);  m_xstdev_mem31->Fill(xstdev);  m_xerronmean_mem31->Fill(xerronmean);
               m_xmean_me31->Fill(xmean);  m_xstdev_me31->Fill(xstdev);  m_xerronmean_me31->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 3  &&  id.ring() == 2) {
               m_xmean_mep32->Fill(xmean);  m_xstdev_mep32->Fill(xstdev);  m_xerronmean_mep32->Fill(xerronmean);
               m_xmean_me32->Fill(xmean);  m_xstdev_me32->Fill(xstdev);  m_xerronmean_me32->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -3  &&  id.ring() == 2) {
               m_xmean_mem32->Fill(xmean);  m_xstdev_mem32->Fill(xstdev);  m_xerronmean_mem32->Fill(xerronmean);
               m_xmean_me32->Fill(xmean);  m_xstdev_me32->Fill(xstdev);  m_xerronmean_me32->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 4  &&  id.ring() == 1) {
               m_xmean_mep41->Fill(xmean);  m_xstdev_mep41->Fill(xstdev);  m_xerronmean_mep41->Fill(xerronmean);
               m_xmean_me41->Fill(xmean);  m_xstdev_me41->Fill(xstdev);  m_xerronmean_me41->Fill(xerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -4  &&  id.ring() == 1) {
               m_xmean_mem41->Fill(xmean);  m_xstdev_mem41->Fill(xstdev);  m_xerronmean_mem41->Fill(xerronmean);
               m_xmean_me41->Fill(xmean);  m_xstdev_me41->Fill(xstdev);  m_xerronmean_me41->Fill(xerronmean);
            }
         } // else itis CSC
      } // end if xmean, xstdev exist
      
      if (m_numy[id] > 0.) {
         double ymean = m_y_wy[id] / m_y_w[id];
         double ystdev = sqrt(((m_y_wyy[id] * m_y_w[id]) - (m_y_wy[id] * m_y_wy[id]))/((m_y_w[id] * m_y_w[id]) - m_y_ww[id]));
         double yerronmean = ystdev / sqrt(m_numy[id]);

         m_ysummary->SetBinContent(index, ymean);
         m_ysummary->SetBinError(index, yerronmean);

         m_ymean->Fill(ymean);  m_ystdev->Fill(ystdev);  m_yerronmean->Fill(yerronmean);
         if ((*chamber)->geomDetId().subdetId() == MuonSubdetId::DT) {
            m_ymean_mb->Fill(ymean);  m_ystdev_mb->Fill(ystdev);  m_yerronmean_mb->Fill(yerronmean);
            DTChamberId id((*chamber)->geomDetId().rawId());
            if (id.station() == 1) {
               m_ymean_mb1->Fill(ymean);  m_ystdev_mb1->Fill(ystdev);  m_yerronmean_mb1->Fill(yerronmean);
            }
            else if (id.station() == 2) {
               m_ymean_mb2->Fill(ymean);  m_ystdev_mb2->Fill(ystdev);  m_yerronmean_mb2->Fill(yerronmean);
            }
            else if (id.station() == 3) {
               m_ymean_mb3->Fill(ymean);  m_ystdev_mb3->Fill(ystdev);  m_yerronmean_mb3->Fill(yerronmean);
            }
            else if (id.station() == 4) {
               m_ymean_mb4->Fill(ymean);  m_ystdev_mb4->Fill(ystdev);  m_yerronmean_mb4->Fill(yerronmean);
            }

            if (id.wheel() == -2) {
               m_ymean_minus2->Fill(ymean);  m_ystdev_minus2->Fill(ystdev);  m_yerronmean_minus2->Fill(yerronmean);
            }
            else if (id.wheel() == -1) {
               m_ymean_minus1->Fill(ymean);  m_ystdev_minus1->Fill(ystdev);  m_yerronmean_minus1->Fill(yerronmean);
            }
            else if (id.wheel() == 0) {
               m_ymean_zero->Fill(ymean);  m_ystdev_zero->Fill(ystdev);  m_yerronmean_zero->Fill(yerronmean);
            }
            else if (id.wheel() == 1) {
               m_ymean_plus1->Fill(ymean);  m_ystdev_plus1->Fill(ystdev);  m_yerronmean_plus1->Fill(yerronmean);
            }
            else if (id.wheel() == 2) {
               m_ymean_plus2->Fill(ymean);  m_ystdev_plus2->Fill(ystdev);  m_yerronmean_plus2->Fill(yerronmean);
            }
         } // end if DT
         else {
            m_ymean_me->Fill(ymean);  m_ystdev_me->Fill(ystdev);  m_yerronmean_me->Fill(yerronmean);

            CSCDetId id((*chamber)->geomDetId().rawId());

            if ((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 1) {
               m_ymean_mep11->Fill(ymean);  m_ystdev_mep11->Fill(ystdev);  m_yerronmean_mep11->Fill(yerronmean);
               m_ymean_me11->Fill(ymean);  m_ystdev_me11->Fill(ystdev);  m_yerronmean_me11->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 1) {
               m_ymean_mem11->Fill(ymean);  m_ystdev_mem11->Fill(ystdev);  m_yerronmean_mem11->Fill(yerronmean);
               m_ymean_me11->Fill(ymean);  m_ystdev_me11->Fill(ystdev);  m_yerronmean_me11->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 2) {
               m_ymean_mep12->Fill(ymean);  m_ystdev_mep12->Fill(ystdev);  m_yerronmean_mep12->Fill(yerronmean);
               m_ymean_me12->Fill(ymean);  m_ystdev_me12->Fill(ystdev);  m_yerronmean_me12->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 2) {
               m_ymean_mem12->Fill(ymean);  m_ystdev_mem12->Fill(ystdev);  m_yerronmean_mem12->Fill(yerronmean);
               m_ymean_me12->Fill(ymean);  m_ystdev_me12->Fill(ystdev);  m_yerronmean_me12->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 3) {
               m_ymean_mep13->Fill(ymean);  m_ystdev_mep13->Fill(ystdev);  m_yerronmean_mep13->Fill(yerronmean);
               m_ymean_me13->Fill(ymean);  m_ystdev_me13->Fill(ystdev);  m_yerronmean_me13->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 3) {
               m_ymean_mem13->Fill(ymean);  m_ystdev_mem13->Fill(ystdev);  m_yerronmean_mem13->Fill(yerronmean);
               m_ymean_me13->Fill(ymean);  m_ystdev_me13->Fill(ystdev);  m_yerronmean_me13->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 1  &&  id.ring() == 4) {
               m_ymean_mep14->Fill(ymean);  m_ystdev_mep14->Fill(ystdev);  m_yerronmean_mep14->Fill(yerronmean);
               m_ymean_me14->Fill(ymean);  m_ystdev_me14->Fill(ystdev);  m_yerronmean_me14->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -1  &&  id.ring() == 4) {
               m_ymean_mem14->Fill(ymean);  m_ystdev_mem14->Fill(ystdev);  m_yerronmean_mem14->Fill(yerronmean);
               m_ymean_me14->Fill(ymean);  m_ystdev_me14->Fill(ystdev);  m_yerronmean_me14->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 2  &&  id.ring() == 1) {
               m_ymean_mep21->Fill(ymean);  m_ystdev_mep21->Fill(ystdev);  m_yerronmean_mep21->Fill(yerronmean);
               m_ymean_me21->Fill(ymean);  m_ystdev_me21->Fill(ystdev);  m_yerronmean_me21->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -2  &&  id.ring() == 1) {
               m_ymean_mem21->Fill(ymean);  m_ystdev_mem21->Fill(ystdev);  m_yerronmean_mem21->Fill(yerronmean);
               m_ymean_me21->Fill(ymean);  m_ystdev_me21->Fill(ystdev);  m_yerronmean_me21->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 2  &&  id.ring() == 2) {
               m_ymean_mep22->Fill(ymean);  m_ystdev_mep22->Fill(ystdev);  m_yerronmean_mep22->Fill(yerronmean);
               m_ymean_me22->Fill(ymean);  m_ystdev_me22->Fill(ystdev);  m_yerronmean_me22->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -2  &&  id.ring() == 2) {
               m_ymean_mem22->Fill(ymean);  m_ystdev_mem22->Fill(ystdev);  m_yerronmean_mem22->Fill(yerronmean);
               m_ymean_me22->Fill(ymean);  m_ystdev_me22->Fill(ystdev);  m_yerronmean_me22->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 3  &&  id.ring() == 1) {
               m_ymean_mep31->Fill(ymean);  m_ystdev_mep31->Fill(ystdev);  m_yerronmean_mep31->Fill(yerronmean);
               m_ymean_me31->Fill(ymean);  m_ystdev_me31->Fill(ystdev);  m_yerronmean_me31->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -3  &&  id.ring() == 1) {
               m_ymean_mem31->Fill(ymean);  m_ystdev_mem31->Fill(ystdev);  m_yerronmean_mem31->Fill(yerronmean);
               m_ymean_me31->Fill(ymean);  m_ystdev_me31->Fill(ystdev);  m_yerronmean_me31->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 3  &&  id.ring() == 2) {
               m_ymean_mep32->Fill(ymean);  m_ystdev_mep32->Fill(ystdev);  m_yerronmean_mep32->Fill(yerronmean);
               m_ymean_me32->Fill(ymean);  m_ystdev_me32->Fill(ystdev);  m_yerronmean_me32->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -3  &&  id.ring() == 2) {
               m_ymean_mem32->Fill(ymean);  m_ystdev_mem32->Fill(ystdev);  m_yerronmean_mem32->Fill(yerronmean);
               m_ymean_me32->Fill(ymean);  m_ystdev_me32->Fill(ystdev);  m_yerronmean_me32->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == 4  &&  id.ring() == 1) {
               m_ymean_mep41->Fill(ymean);  m_ystdev_mep41->Fill(ystdev);  m_yerronmean_mep41->Fill(yerronmean);
               m_ymean_me41->Fill(ymean);  m_ystdev_me41->Fill(ystdev);  m_yerronmean_me41->Fill(yerronmean);
            }
            else if((id.endcap() == 1? 1: -1)*id.station() == -4  &&  id.ring() == 1) {
               m_ymean_mem41->Fill(ymean);  m_ystdev_mem41->Fill(ystdev);  m_yerronmean_mem41->Fill(yerronmean);
               m_ymean_me41->Fill(ymean);  m_ystdev_me41->Fill(ystdev);  m_yerronmean_me41->Fill(yerronmean);
            }
         } // else itis CSC
      } // end if ymean, ystdev exist

   } // end loop over chambers
}
void AlignmentMonitorMuonResiduals::book ( ) [virtual]

Book or retrieve histograms; MUST be reimplemented.

Implements AlignmentMonitorBase.

Definition at line 188 of file AlignmentMonitorMuonResiduals.cc.

References AlignmentMonitorBase::book1D(), chambers, AlignableMuon::CSCChambers(), AlignmentMonitorBase::directory(), AlignableMuon::DTChambers(), errorMatrix2Lands_multiChannel::id, m_chambers, m_chambers_chamber, m_chambers_endcap, m_chambers_numx, m_chambers_numy, m_chambers_rawid, m_chambers_ring, m_chambers_sector, m_chambers_station, m_chambers_wheel, m_chambers_x_w, m_chambers_x_ww, m_chambers_x_wx, m_chambers_x_wxx, m_chambers_y_w, m_chambers_y_ww, m_chambers_y_wy, m_chambers_y_wyy, m_numx, m_numy, m_sumnumx, m_sumnumy, m_x_w, m_x_ww, m_x_wx, m_x_wxx, m_xerronmean, m_xerronmean_mb, m_xerronmean_mb1, m_xerronmean_mb2, m_xerronmean_mb3, m_xerronmean_mb4, m_xerronmean_me, m_xerronmean_me11, m_xerronmean_me12, m_xerronmean_me13, m_xerronmean_me14, m_xerronmean_me21, m_xerronmean_me22, m_xerronmean_me31, m_xerronmean_me32, m_xerronmean_me41, m_xerronmean_mem11, m_xerronmean_mem12, m_xerronmean_mem13, m_xerronmean_mem14, m_xerronmean_mem21, m_xerronmean_mem22, m_xerronmean_mem31, m_xerronmean_mem32, m_xerronmean_mem41, m_xerronmean_mep11, m_xerronmean_mep12, m_xerronmean_mep13, m_xerronmean_mep14, m_xerronmean_mep21, m_xerronmean_mep22, m_xerronmean_mep31, m_xerronmean_mep32, m_xerronmean_mep41, m_xerronmean_minus1, m_xerronmean_minus2, m_xerronmean_plus1, m_xerronmean_plus2, m_xerronmean_zero, m_xmean, m_xmean_mb, m_xmean_mb1, m_xmean_mb2, m_xmean_mb3, m_xmean_mb4, m_xmean_me, m_xmean_me11, m_xmean_me12, m_xmean_me13, m_xmean_me14, m_xmean_me21, m_xmean_me22, m_xmean_me31, m_xmean_me32, m_xmean_me41, m_xmean_mem11, m_xmean_mem12, m_xmean_mem13, m_xmean_mem14, m_xmean_mem21, m_xmean_mem22, m_xmean_mem31, m_xmean_mem32, m_xmean_mem41, m_xmean_mep11, m_xmean_mep12, m_xmean_mep13, m_xmean_mep14, m_xmean_mep21, m_xmean_mep22, m_xmean_mep31, m_xmean_mep32, m_xmean_mep41, m_xmean_minus1, m_xmean_minus2, m_xmean_plus1, m_xmean_plus2, m_xmean_zero, m_xresid, m_xresid_mb, m_xresid_mb1, m_xresid_mb2, m_xresid_mb3, m_xresid_mb4, m_xresid_me, m_xresid_me11, m_xresid_me12, m_xresid_me13, m_xresid_me14, m_xresid_me21, m_xresid_me22, m_xresid_me31, m_xresid_me32, m_xresid_me41, m_xresid_mem11, m_xresid_mem12, m_xresid_mem13, m_xresid_mem14, m_xresid_mem21, m_xresid_mem22, m_xresid_mem31, m_xresid_mem32, m_xresid_mem41, m_xresid_mep11, m_xresid_mep12, m_xresid_mep13, m_xresid_mep14, m_xresid_mep21, m_xresid_mep22, m_xresid_mep31, m_xresid_mep32, m_xresid_mep41, m_xresid_minus1, m_xresid_minus2, m_xresid_plus1, m_xresid_plus2, m_xresid_zero, m_xstdev, m_xstdev_mb, m_xstdev_mb1, m_xstdev_mb2, m_xstdev_mb3, m_xstdev_mb4, m_xstdev_me, m_xstdev_me11, m_xstdev_me12, m_xstdev_me13, m_xstdev_me14, m_xstdev_me21, m_xstdev_me22, m_xstdev_me31, m_xstdev_me32, m_xstdev_me41, m_xstdev_mem11, m_xstdev_mem12, m_xstdev_mem13, m_xstdev_mem14, m_xstdev_mem21, m_xstdev_mem22, m_xstdev_mem31, m_xstdev_mem32, m_xstdev_mem41, m_xstdev_mep11, m_xstdev_mep12, m_xstdev_mep13, m_xstdev_mep14, m_xstdev_mep21, m_xstdev_mep22, m_xstdev_mep31, m_xstdev_mep32, m_xstdev_mep41, m_xstdev_minus1, m_xstdev_minus2, m_xstdev_plus1, m_xstdev_plus2, m_xstdev_zero, m_xsummary, m_y_w, m_y_ww, m_y_wy, m_y_wyy, m_yerronmean, m_yerronmean_mb, m_yerronmean_mb1, m_yerronmean_mb2, m_yerronmean_mb3, m_yerronmean_mb4, m_yerronmean_me, m_yerronmean_me11, m_yerronmean_me12, m_yerronmean_me13, m_yerronmean_me14, m_yerronmean_me21, m_yerronmean_me22, m_yerronmean_me31, m_yerronmean_me32, m_yerronmean_me41, m_yerronmean_mem11, m_yerronmean_mem12, m_yerronmean_mem13, m_yerronmean_mem14, m_yerronmean_mem21, m_yerronmean_mem22, m_yerronmean_mem31, m_yerronmean_mem32, m_yerronmean_mem41, m_yerronmean_mep11, m_yerronmean_mep12, m_yerronmean_mep13, m_yerronmean_mep14, m_yerronmean_mep21, m_yerronmean_mep22, m_yerronmean_mep31, m_yerronmean_mep32, m_yerronmean_mep41, m_yerronmean_minus1, m_yerronmean_minus2, m_yerronmean_plus1, m_yerronmean_plus2, m_yerronmean_zero, m_ymean, m_ymean_mb, m_ymean_mb1, m_ymean_mb2, m_ymean_mb3, m_ymean_mb4, m_ymean_me, m_ymean_me11, m_ymean_me12, m_ymean_me13, m_ymean_me14, m_ymean_me21, m_ymean_me22, m_ymean_me31, m_ymean_me32, m_ymean_me41, m_ymean_mem11, m_ymean_mem12, m_ymean_mem13, m_ymean_mem14, m_ymean_mem21, m_ymean_mem22, m_ymean_mem31, m_ymean_mem32, m_ymean_mem41, m_ymean_mep11, m_ymean_mep12, m_ymean_mep13, m_ymean_mep14, m_ymean_mep21, m_ymean_mep22, m_ymean_mep31, m_ymean_mep32, m_ymean_mep41, m_ymean_minus1, m_ymean_minus2, m_ymean_plus1, m_ymean_plus2, m_ymean_zero, m_yresid, m_yresid_mb, m_yresid_mb1, m_yresid_mb2, m_yresid_mb3, m_yresid_mb4, m_yresid_me, m_yresid_me11, m_yresid_me12, m_yresid_me13, m_yresid_me14, m_yresid_me21, m_yresid_me22, m_yresid_me31, m_yresid_me32, m_yresid_me41, m_yresid_mem11, m_yresid_mem12, m_yresid_mem13, m_yresid_mem14, m_yresid_mem21, m_yresid_mem22, m_yresid_mem31, m_yresid_mem32, m_yresid_mem41, m_yresid_mep11, m_yresid_mep12, m_yresid_mep13, m_yresid_mep14, m_yresid_mep21, m_yresid_mep22, m_yresid_mep31, m_yresid_mep32, m_yresid_mep41, m_yresid_minus1, m_yresid_minus2, m_yresid_plus1, m_yresid_plus2, m_yresid_zero, m_ystdev, m_ystdev_mb, m_ystdev_mb1, m_ystdev_mb2, m_ystdev_mb3, m_ystdev_mb4, m_ystdev_me, m_ystdev_me11, m_ystdev_me12, m_ystdev_me13, m_ystdev_me14, m_ystdev_me21, m_ystdev_me22, m_ystdev_me31, m_ystdev_me32, m_ystdev_me41, m_ystdev_mem11, m_ystdev_mem12, m_ystdev_mem13, m_ystdev_mem14, m_ystdev_mem21, m_ystdev_mem22, m_ystdev_mem31, m_ystdev_mem32, m_ystdev_mem41, m_ystdev_mep11, m_ystdev_mep12, m_ystdev_mep13, m_ystdev_mep14, m_ystdev_mep21, m_ystdev_mep22, m_ystdev_mep31, m_ystdev_mep32, m_ystdev_mep41, m_ystdev_minus1, m_ystdev_minus2, m_ystdev_plus1, m_ystdev_plus2, m_ystdev_zero, m_ysummary, TFileDirectory::make(), AlignmentMonitorBase::pMuon(), xerronmean_bins, xerronmean_high, xerronmean_low, xmean_bins, xmean_high, xmean_low, xresid_bins, xresid_high, xresid_low, xstdev_bins, xstdev_high, xstdev_low, yerronmean_bins, yerronmean_high, yerronmean_low, ymean_bins, ymean_high, ymean_low, yresid_bins, yresid_high, yresid_low, ystdev_bins, ystdev_high, and ystdev_low.

                                         {
   m_numx.clear();
   m_x_w.clear();
   m_x_ww.clear();
   m_x_wx.clear();
   m_x_wxx.clear();
   m_numy.clear();
   m_y_w.clear();
   m_y_ww.clear();
   m_y_wy.clear();
   m_y_wyy.clear();

   std::vector<Alignable*> chambers;
   std::vector<Alignable*> tmp1 = pMuon()->DTChambers();
   for (std::vector<Alignable*>::const_iterator iter = tmp1.begin();  iter != tmp1.end();  ++iter) chambers.push_back(*iter);
   std::vector<Alignable*> tmp2 = pMuon()->CSCChambers();
   for (std::vector<Alignable*>::const_iterator iter = tmp2.begin();  iter != tmp2.end();  ++iter) chambers.push_back(*iter);

   for (std::vector<Alignable*>::const_iterator chamber = chambers.begin();  chamber != chambers.end();  ++chamber) {
      int id = (*chamber)->geomDetId().rawId();
      m_numx[id] = 0;
      m_x_w[id] = 0;
      m_x_ww[id] = 0;
      m_x_wx[id] = 0;
      m_x_wxx[id] = 0;
      m_numy[id] = 0;
      m_y_w[id] = 0;
      m_y_ww[id] = 0;
      m_y_wy[id] = 0;
      m_y_wyy[id] = 0;
   }

   m_sumnumx = book1D("/iterN/", "numx", "number of x hits", chambers.size(), 0.5, chambers.size() + 0.5);
   m_sumnumy = book1D("/iterN/", "numy", "number of y hits", chambers.size(), 0.5, chambers.size() + 0.5);
   m_xsummary = book1D("/iterN/", "xsummary", "summary of x means and errors (mm vertical axis)", chambers.size(), 0.5, chambers.size() + 0.5);
   m_ysummary = book1D("/iterN/", "ysummary", "summary of y means and errors (mm vertical axis)", chambers.size(), 0.5, chambers.size() + 0.5);

   m_xresid = book1D("/iterN/", "xresid", "x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mb = book1D("/iterN/mb/", "xresid_mb", "barrel x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me = book1D("/iterN/me/", "xresid_me", "endcap x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mb1 = book1D("/iterN/mb1/", "xresid_mb1", "MB station 1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mb2 = book1D("/iterN/mb2/", "xresid_mb2", "MB station 2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mb3 = book1D("/iterN/mb3/", "xresid_mb3", "MB station 3 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mb4 = book1D("/iterN/mb4/", "xresid_mb4", "MB station 4 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_minus2 = book1D("/iterN/minus2/", "xresid_minus2", "MB wheel -2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_minus1 = book1D("/iterN/minus1/", "xresid_minus1", "MB wheel -1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_zero = book1D("/iterN/zero/", "xresid_zero", "MB wheel 0 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_plus1 = book1D("/iterN/plus1/", "xresid_plus1", "MB wheel +1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_plus2 = book1D("/iterN/plus2/", "xresid_plus2", "MB wheel +2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep11 = book1D("/iterN/mep11/", "xresid_mep11", "ME+1/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep12 = book1D("/iterN/mep12/", "xresid_mep12", "ME+1/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep13 = book1D("/iterN/mep13/", "xresid_mep13", "ME+1/3 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep14 = book1D("/iterN/mep14/", "xresid_mep14", "ME+1/4 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep21 = book1D("/iterN/mep21/", "xresid_mep21", "ME+2/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep22 = book1D("/iterN/mep22/", "xresid_mep22", "ME+2/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep31 = book1D("/iterN/mep31/", "xresid_mep31", "ME+3/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep32 = book1D("/iterN/mep32/", "xresid_mep32", "ME+3/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mep41 = book1D("/iterN/mep41/", "xresid_mep41", "ME+4/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem11 = book1D("/iterN/mem11/", "xresid_mem11", "ME-1/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem12 = book1D("/iterN/mem12/", "xresid_mem12", "ME-1/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem13 = book1D("/iterN/mem13/", "xresid_mem13", "ME-1/3 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem14 = book1D("/iterN/mem14/", "xresid_mem14", "ME-1/4 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem21 = book1D("/iterN/mem21/", "xresid_mem21", "ME-2/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem22 = book1D("/iterN/mem22/", "xresid_mem22", "ME-2/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem31 = book1D("/iterN/mem31/", "xresid_mem31", "ME-3/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem32 = book1D("/iterN/mem32/", "xresid_mem32", "ME-3/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_mem41 = book1D("/iterN/mem41/", "xresid_mem41", "ME-4/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me11 = book1D("/iterN/me11/", "xresid_me11", "ME1/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me12 = book1D("/iterN/me12/", "xresid_me12", "ME1/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me13 = book1D("/iterN/me13/", "xresid_me13", "ME1/3 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me14 = book1D("/iterN/me14/", "xresid_me14", "ME1/4 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me21 = book1D("/iterN/me21/", "xresid_me21", "ME2/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me22 = book1D("/iterN/me22/", "xresid_me22", "ME2/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me31 = book1D("/iterN/me31/", "xresid_me31", "ME3/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me32 = book1D("/iterN/me32/", "xresid_me32", "ME3/2 x residual (mm)", xresid_bins, xresid_low, xresid_high);
   m_xresid_me41 = book1D("/iterN/me41/", "xresid_me41", "ME4/1 x residual (mm)", xresid_bins, xresid_low, xresid_high);

   m_xmean = book1D("/iterN/", "xmean", "weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mb = book1D("/iterN/mb/", "xmean_mb", "barrel weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me = book1D("/iterN/me/", "xmean_me", "endcap weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mb1 = book1D("/iterN/mb1/", "xmean_mb1", "MB station 1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mb2 = book1D("/iterN/mb2/", "xmean_mb2", "MB station 2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mb3 = book1D("/iterN/mb3/", "xmean_mb3", "MB station 3 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mb4 = book1D("/iterN/mb4/", "xmean_mb4", "MB station 4 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_minus2 = book1D("/iterN/minus2/", "xmean_minus2", "MB wheel -2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_minus1 = book1D("/iterN/minus1/", "xmean_minus1", "MB wheel -1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_zero = book1D("/iterN/zero/", "xmean_zero", "MB wheel 0 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_plus1 = book1D("/iterN/plus1/", "xmean_plus1", "MB wheel +1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_plus2 = book1D("/iterN/plus2/", "xmean_plus2", "MB wheel +2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep11 = book1D("/iterN/mep11/", "xmean_mep11", "ME+1/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep12 = book1D("/iterN/mep12/", "xmean_mep12", "ME+1/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep13 = book1D("/iterN/mep13/", "xmean_mep13", "ME+1/3 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep14 = book1D("/iterN/mep14/", "xmean_mep14", "ME+1/4 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep21 = book1D("/iterN/mep21/", "xmean_mep21", "ME+2/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep22 = book1D("/iterN/mep22/", "xmean_mep22", "ME+2/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep31 = book1D("/iterN/mep31/", "xmean_mep31", "ME+3/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep32 = book1D("/iterN/mep32/", "xmean_mep32", "ME+3/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mep41 = book1D("/iterN/mep41/", "xmean_mep41", "ME+4/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem11 = book1D("/iterN/mem11/", "xmean_mem11", "ME-1/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem12 = book1D("/iterN/mem12/", "xmean_mem12", "ME-1/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem13 = book1D("/iterN/mem13/", "xmean_mem13", "ME-1/3 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem14 = book1D("/iterN/mem14/", "xmean_mem14", "ME-1/4 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem21 = book1D("/iterN/mem21/", "xmean_mem21", "ME-2/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem22 = book1D("/iterN/mem22/", "xmean_mem22", "ME-2/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem31 = book1D("/iterN/mem31/", "xmean_mem31", "ME-3/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem32 = book1D("/iterN/mem32/", "xmean_mem32", "ME-3/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_mem41 = book1D("/iterN/mem41/", "xmean_mem41", "ME-4/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me11 = book1D("/iterN/me11/", "xmean_me11", "ME1/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me12 = book1D("/iterN/me12/", "xmean_me12", "ME1/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me13 = book1D("/iterN/me13/", "xmean_me13", "ME1/3 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me14 = book1D("/iterN/me14/", "xmean_me14", "ME1/4 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me21 = book1D("/iterN/me21/", "xmean_me21", "ME2/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me22 = book1D("/iterN/me22/", "xmean_me22", "ME2/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me31 = book1D("/iterN/me31/", "xmean_me31", "ME3/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me32 = book1D("/iterN/me32/", "xmean_me32", "ME3/2 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);
   m_xmean_me41 = book1D("/iterN/me41/", "xmean_me41", "ME4/1 weighted mean x residual per chamber (mm)", xmean_bins, xmean_low, xmean_high);

   m_xstdev = book1D("/iterN/", "xstdev", "weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mb = book1D("/iterN/mb/", "xstdev_mb", "barrel weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me = book1D("/iterN/me/", "xstdev_me", "endcap weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mb1 = book1D("/iterN/mb1/", "xstdev_mb1", "MB station 1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mb2 = book1D("/iterN/mb2/", "xstdev_mb2", "MB station 2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mb3 = book1D("/iterN/mb3/", "xstdev_mb3", "MB station 3 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mb4 = book1D("/iterN/mb4/", "xstdev_mb4", "MB station 4 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_minus2 = book1D("/iterN/minus2/", "xstdev_minus2", "MB wheel -2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_minus1 = book1D("/iterN/minus1/", "xstdev_minus1", "MB wheel -1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_zero = book1D("/iterN/zero/", "xstdev_zero", "MB wheel 0 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_plus1 = book1D("/iterN/plus1/", "xstdev_plus1", "MB wheel +1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_plus2 = book1D("/iterN/plus2/", "xstdev_plus2", "MB wheel +2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep11 = book1D("/iterN/mep11/", "xstdev_mep11", "ME+1/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep12 = book1D("/iterN/mep12/", "xstdev_mep12", "ME+1/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep13 = book1D("/iterN/mep13/", "xstdev_mep13", "ME+1/3 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep14 = book1D("/iterN/mep14/", "xstdev_mep14", "ME+1/4 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep21 = book1D("/iterN/mep21/", "xstdev_mep21", "ME+2/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep22 = book1D("/iterN/mep22/", "xstdev_mep22", "ME+2/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep31 = book1D("/iterN/mep31/", "xstdev_mep31", "ME+3/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep32 = book1D("/iterN/mep32/", "xstdev_mep32", "ME+3/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mep41 = book1D("/iterN/mep41/", "xstdev_mep41", "ME+4/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem11 = book1D("/iterN/mem11/", "xstdev_mem11", "ME-1/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem12 = book1D("/iterN/mem12/", "xstdev_mem12", "ME-1/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem13 = book1D("/iterN/mem13/", "xstdev_mem13", "ME-1/3 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem14 = book1D("/iterN/mem14/", "xstdev_mem14", "ME-1/4 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem21 = book1D("/iterN/mem21/", "xstdev_mem21", "ME-2/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem22 = book1D("/iterN/mem22/", "xstdev_mem22", "ME-2/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem31 = book1D("/iterN/mem31/", "xstdev_mem31", "ME-3/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem32 = book1D("/iterN/mem32/", "xstdev_mem32", "ME-3/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_mem41 = book1D("/iterN/mem41/", "xstdev_mem41", "ME-4/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me11 = book1D("/iterN/me11/", "xstdev_me11", "ME1/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me12 = book1D("/iterN/me12/", "xstdev_me12", "ME1/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me13 = book1D("/iterN/me13/", "xstdev_me13", "ME1/3 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me14 = book1D("/iterN/me14/", "xstdev_me14", "ME1/4 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me21 = book1D("/iterN/me21/", "xstdev_me21", "ME2/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me22 = book1D("/iterN/me22/", "xstdev_me22", "ME2/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me31 = book1D("/iterN/me31/", "xstdev_me31", "ME3/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me32 = book1D("/iterN/me32/", "xstdev_me32", "ME3/2 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);
   m_xstdev_me41 = book1D("/iterN/me41/", "xstdev_me41", "ME4/1 weighted stdev x residual per chamber (mm)", xstdev_bins, xstdev_low, xstdev_high);

   m_xerronmean = book1D("/iterN/", "xerronmean", "error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mb = book1D("/iterN/mb/", "xerronmean_mb", "barrel error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me = book1D("/iterN/me/", "xerronmean_me", "endcap error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mb1 = book1D("/iterN/mb1/", "xerronmean_mb1", "MB station 1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mb2 = book1D("/iterN/mb2/", "xerronmean_mb2", "MB station 2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mb3 = book1D("/iterN/mb3/", "xerronmean_mb3", "MB station 3 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mb4 = book1D("/iterN/mb4/", "xerronmean_mb4", "MB station 4 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_minus2 = book1D("/iterN/minus2/", "xerronmean_minus2", "MB wheel -2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_minus1 = book1D("/iterN/minus1/", "xerronmean_minus1", "MB wheel -1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_zero = book1D("/iterN/zero/", "xerronmean_zero", "MB wheel 0 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_plus1 = book1D("/iterN/plus1/", "xerronmean_plus1", "MB wheel +1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_plus2 = book1D("/iterN/plus2/", "xerronmean_plus2", "MB wheel +2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep11 = book1D("/iterN/mep11/", "xerronmean_mep11", "ME+1/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep12 = book1D("/iterN/mep12/", "xerronmean_mep12", "ME+1/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep13 = book1D("/iterN/mep13/", "xerronmean_mep13", "ME+1/3 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep14 = book1D("/iterN/mep14/", "xerronmean_mep14", "ME+1/4 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep21 = book1D("/iterN/mep21/", "xerronmean_mep21", "ME+2/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep22 = book1D("/iterN/mep22/", "xerronmean_mep22", "ME+2/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep31 = book1D("/iterN/mep31/", "xerronmean_mep31", "ME+3/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep32 = book1D("/iterN/mep32/", "xerronmean_mep32", "ME+3/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mep41 = book1D("/iterN/mep41/", "xerronmean_mep41", "ME+4/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem11 = book1D("/iterN/mem11/", "xerronmean_mem11", "ME-1/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem12 = book1D("/iterN/mem12/", "xerronmean_mem12", "ME-1/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem13 = book1D("/iterN/mem13/", "xerronmean_mem13", "ME-1/3 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem14 = book1D("/iterN/mem14/", "xerronmean_mem14", "ME-1/4 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem21 = book1D("/iterN/mem21/", "xerronmean_mem21", "ME-2/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem22 = book1D("/iterN/mem22/", "xerronmean_mem22", "ME-2/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem31 = book1D("/iterN/mem31/", "xerronmean_mem31", "ME-3/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem32 = book1D("/iterN/mem32/", "xerronmean_mem32", "ME-3/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_mem41 = book1D("/iterN/mem41/", "xerronmean_mem41", "ME-4/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me11 = book1D("/iterN/me11/", "xerronmean_me11", "ME1/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me12 = book1D("/iterN/me12/", "xerronmean_me12", "ME1/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me13 = book1D("/iterN/me13/", "xerronmean_me13", "ME1/3 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me14 = book1D("/iterN/me14/", "xerronmean_me14", "ME1/4 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me21 = book1D("/iterN/me21/", "xerronmean_me21", "ME2/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me22 = book1D("/iterN/me22/", "xerronmean_me22", "ME2/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me31 = book1D("/iterN/me31/", "xerronmean_me31", "ME3/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me32 = book1D("/iterN/me32/", "xerronmean_me32", "ME3/2 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);
   m_xerronmean_me41 = book1D("/iterN/me41/", "xerronmean_me41", "ME4/1 error on x weighted mean residual per chamber (mm)", xerronmean_bins, xerronmean_low, xerronmean_high);

   m_yresid = book1D("/iterN/", "yresid", "y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mb = book1D("/iterN/mb/", "yresid_mb", "barrel y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me = book1D("/iterN/me/", "yresid_me", "endcap y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mb1 = book1D("/iterN/mb1/", "yresid_mb1", "MB station 1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mb2 = book1D("/iterN/mb2/", "yresid_mb2", "MB station 2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mb3 = book1D("/iterN/mb3/", "yresid_mb3", "MB station 3 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mb4 = book1D("/iterN/mb4/", "yresid_mb4", "MB station 4 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_minus2 = book1D("/iterN/minus2/", "yresid_minus2", "MB wheel -2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_minus1 = book1D("/iterN/minus1/", "yresid_minus1", "MB wheel -1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_zero = book1D("/iterN/zero/", "yresid_zero", "MB wheel 0 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_plus1 = book1D("/iterN/plus1/", "yresid_plus1", "MB wheel +1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_plus2 = book1D("/iterN/plus2/", "yresid_plus2", "MB wheel +2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep11 = book1D("/iterN/mep11/", "yresid_mep11", "ME+1/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep12 = book1D("/iterN/mep12/", "yresid_mep12", "ME+1/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep13 = book1D("/iterN/mep13/", "yresid_mep13", "ME+1/3 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep14 = book1D("/iterN/mep14/", "yresid_mep14", "ME+1/4 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep21 = book1D("/iterN/mep21/", "yresid_mep21", "ME+2/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep22 = book1D("/iterN/mep22/", "yresid_mep22", "ME+2/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep31 = book1D("/iterN/mep31/", "yresid_mep31", "ME+3/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep32 = book1D("/iterN/mep32/", "yresid_mep32", "ME+3/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mep41 = book1D("/iterN/mep41/", "yresid_mep41", "ME+4/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem11 = book1D("/iterN/mem11/", "yresid_mem11", "ME-1/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem12 = book1D("/iterN/mem12/", "yresid_mem12", "ME-1/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem13 = book1D("/iterN/mem13/", "yresid_mem13", "ME-1/3 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem14 = book1D("/iterN/mem14/", "yresid_mem14", "ME-1/4 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem21 = book1D("/iterN/mem21/", "yresid_mem21", "ME-2/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem22 = book1D("/iterN/mem22/", "yresid_mem22", "ME-2/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem31 = book1D("/iterN/mem31/", "yresid_mem31", "ME-3/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem32 = book1D("/iterN/mem32/", "yresid_mem32", "ME-3/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_mem41 = book1D("/iterN/mem41/", "yresid_mem41", "ME-4/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me11 = book1D("/iterN/me11/", "yresid_me11", "ME1/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me12 = book1D("/iterN/me12/", "yresid_me12", "ME1/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me13 = book1D("/iterN/me13/", "yresid_me13", "ME1/3 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me14 = book1D("/iterN/me14/", "yresid_me14", "ME1/4 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me21 = book1D("/iterN/me21/", "yresid_me21", "ME2/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me22 = book1D("/iterN/me22/", "yresid_me22", "ME2/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me31 = book1D("/iterN/me31/", "yresid_me31", "ME3/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me32 = book1D("/iterN/me32/", "yresid_me32", "ME3/2 y residual (mm)", yresid_bins, yresid_low, yresid_high);
   m_yresid_me41 = book1D("/iterN/me41/", "yresid_me41", "ME4/1 y residual (mm)", yresid_bins, yresid_low, yresid_high);

   m_ymean = book1D("/iterN/", "ymean", "weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mb = book1D("/iterN/mb/", "ymean_mb", "barrel weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me = book1D("/iterN/me/", "ymean_me", "endcap weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mb1 = book1D("/iterN/mb1/", "ymean_mb1", "MB station 1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mb2 = book1D("/iterN/mb2/", "ymean_mb2", "MB station 2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mb3 = book1D("/iterN/mb3/", "ymean_mb3", "MB station 3 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mb4 = book1D("/iterN/mb4/", "ymean_mb4", "MB station 4 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_minus2 = book1D("/iterN/minus2/", "ymean_minus2", "MB wheel -2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_minus1 = book1D("/iterN/minus1/", "ymean_minus1", "MB wheel -1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_zero = book1D("/iterN/zero/", "ymean_zero", "MB wheel 0 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_plus1 = book1D("/iterN/plus1/", "ymean_plus1", "MB wheel +1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_plus2 = book1D("/iterN/plus2/", "ymean_plus2", "MB wheel +2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep11 = book1D("/iterN/mep11/", "ymean_mep11", "ME+1/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep12 = book1D("/iterN/mep12/", "ymean_mep12", "ME+1/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep13 = book1D("/iterN/mep13/", "ymean_mep13", "ME+1/3 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep14 = book1D("/iterN/mep14/", "ymean_mep14", "ME+1/4 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep21 = book1D("/iterN/mep21/", "ymean_mep21", "ME+2/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep22 = book1D("/iterN/mep22/", "ymean_mep22", "ME+2/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep31 = book1D("/iterN/mep31/", "ymean_mep31", "ME+3/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep32 = book1D("/iterN/mep32/", "ymean_mep32", "ME+3/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mep41 = book1D("/iterN/mep41/", "ymean_mep41", "ME+4/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem11 = book1D("/iterN/mem11/", "ymean_mem11", "ME-1/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem12 = book1D("/iterN/mem12/", "ymean_mem12", "ME-1/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem13 = book1D("/iterN/mem13/", "ymean_mem13", "ME-1/3 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem14 = book1D("/iterN/mem14/", "ymean_mem14", "ME-1/4 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem21 = book1D("/iterN/mem21/", "ymean_mem21", "ME-2/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem22 = book1D("/iterN/mem22/", "ymean_mem22", "ME-2/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem31 = book1D("/iterN/mem31/", "ymean_mem31", "ME-3/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem32 = book1D("/iterN/mem32/", "ymean_mem32", "ME-3/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_mem41 = book1D("/iterN/mem41/", "ymean_mem41", "ME-4/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me11 = book1D("/iterN/me11/", "ymean_me11", "ME1/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me12 = book1D("/iterN/me12/", "ymean_me12", "ME1/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me13 = book1D("/iterN/me13/", "ymean_me13", "ME1/3 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me14 = book1D("/iterN/me14/", "ymean_me14", "ME1/4 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me21 = book1D("/iterN/me21/", "ymean_me21", "ME2/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me22 = book1D("/iterN/me22/", "ymean_me22", "ME2/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me31 = book1D("/iterN/me31/", "ymean_me31", "ME3/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me32 = book1D("/iterN/me32/", "ymean_me32", "ME3/2 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);
   m_ymean_me41 = book1D("/iterN/me41/", "ymean_me41", "ME4/1 weighted mean y residual per chamber (mm)", ymean_bins, ymean_low, ymean_high);

   m_ystdev = book1D("/iterN/", "ystdev", "weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mb = book1D("/iterN/mb/", "ystdev_mb", "barrel weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me = book1D("/iterN/me/", "ystdev_me", "endcap weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mb1 = book1D("/iterN/mb1/", "ystdev_mb1", "MB station 1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mb2 = book1D("/iterN/mb2/", "ystdev_mb2", "MB station 2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mb3 = book1D("/iterN/mb3/", "ystdev_mb3", "MB station 3 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mb4 = book1D("/iterN/mb4/", "ystdev_mb4", "MB station 4 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_minus2 = book1D("/iterN/minus2/", "ystdev_minus2", "MB wheel -2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_minus1 = book1D("/iterN/minus1/", "ystdev_minus1", "MB wheel -1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_zero = book1D("/iterN/zero/", "ystdev_zero", "MB wheel 0 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_plus1 = book1D("/iterN/plus1/", "ystdev_plus1", "MB wheel +1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_plus2 = book1D("/iterN/plus2/", "ystdev_plus2", "MB wheel +2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep11 = book1D("/iterN/mep11/", "ystdev_mep11", "ME+1/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep12 = book1D("/iterN/mep12/", "ystdev_mep12", "ME+1/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep13 = book1D("/iterN/mep13/", "ystdev_mep13", "ME+1/3 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep14 = book1D("/iterN/mep14/", "ystdev_mep14", "ME+1/4 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep21 = book1D("/iterN/mep21/", "ystdev_mep21", "ME+2/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep22 = book1D("/iterN/mep22/", "ystdev_mep22", "ME+2/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep31 = book1D("/iterN/mep31/", "ystdev_mep31", "ME+3/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep32 = book1D("/iterN/mep32/", "ystdev_mep32", "ME+3/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mep41 = book1D("/iterN/mep41/", "ystdev_mep41", "ME+4/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem11 = book1D("/iterN/mem11/", "ystdev_mem11", "ME-1/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem12 = book1D("/iterN/mem12/", "ystdev_mem12", "ME-1/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem13 = book1D("/iterN/mem13/", "ystdev_mem13", "ME-1/3 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem14 = book1D("/iterN/mem14/", "ystdev_mem14", "ME-1/4 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem21 = book1D("/iterN/mem21/", "ystdev_mem21", "ME-2/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem22 = book1D("/iterN/mem22/", "ystdev_mem22", "ME-2/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem31 = book1D("/iterN/mem31/", "ystdev_mem31", "ME-3/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem32 = book1D("/iterN/mem32/", "ystdev_mem32", "ME-3/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_mem41 = book1D("/iterN/mem41/", "ystdev_mem41", "ME-4/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me11 = book1D("/iterN/me11/", "ystdev_me11", "ME1/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me12 = book1D("/iterN/me12/", "ystdev_me12", "ME1/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me13 = book1D("/iterN/me13/", "ystdev_me13", "ME1/3 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me14 = book1D("/iterN/me14/", "ystdev_me14", "ME1/4 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me21 = book1D("/iterN/me21/", "ystdev_me21", "ME2/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me22 = book1D("/iterN/me22/", "ystdev_me22", "ME2/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me31 = book1D("/iterN/me31/", "ystdev_me31", "ME3/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me32 = book1D("/iterN/me32/", "ystdev_me32", "ME3/2 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);
   m_ystdev_me41 = book1D("/iterN/me41/", "ystdev_me41", "ME4/1 weighted stdev y residual per chamber (mm)", ystdev_bins, ystdev_low, ystdev_high);

   m_yerronmean = book1D("/iterN/", "yerronmean", "error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mb = book1D("/iterN/mb/", "yerronmean_mb", "barrel error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me = book1D("/iterN/me/", "yerronmean_me", "endcap error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mb1 = book1D("/iterN/mb1/", "yerronmean_mb1", "MB station 1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mb2 = book1D("/iterN/mb2/", "yerronmean_mb2", "MB station 2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mb3 = book1D("/iterN/mb3/", "yerronmean_mb3", "MB station 3 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mb4 = book1D("/iterN/mb4/", "yerronmean_mb4", "MB station 4 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_minus2 = book1D("/iterN/minus2/", "yerronmean_minus2", "MB wheel -2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_minus1 = book1D("/iterN/minus1/", "yerronmean_minus1", "MB wheel -1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_zero = book1D("/iterN/zero/", "yerronmean_zero", "MB wheel 0 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_plus1 = book1D("/iterN/plus1/", "yerronmean_plus1", "MB wheel +1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_plus2 = book1D("/iterN/plus2/", "yerronmean_plus2", "MB wheel +2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep11 = book1D("/iterN/mep11/", "yerronmean_mep11", "ME+1/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep12 = book1D("/iterN/mep12/", "yerronmean_mep12", "ME+1/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep13 = book1D("/iterN/mep13/", "yerronmean_mep13", "ME+1/3 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep14 = book1D("/iterN/mep14/", "yerronmean_mep14", "ME+1/4 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep21 = book1D("/iterN/mep21/", "yerronmean_mep21", "ME+2/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep22 = book1D("/iterN/mep22/", "yerronmean_mep22", "ME+2/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep31 = book1D("/iterN/mep31/", "yerronmean_mep31", "ME+3/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep32 = book1D("/iterN/mep32/", "yerronmean_mep32", "ME+3/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mep41 = book1D("/iterN/mep41/", "yerronmean_mep41", "ME+4/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem11 = book1D("/iterN/mem11/", "yerronmean_mem11", "ME-1/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem12 = book1D("/iterN/mem12/", "yerronmean_mem12", "ME-1/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem13 = book1D("/iterN/mem13/", "yerronmean_mem13", "ME-1/3 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem14 = book1D("/iterN/mem14/", "yerronmean_mem14", "ME-1/4 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem21 = book1D("/iterN/mem21/", "yerronmean_mem21", "ME-2/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem22 = book1D("/iterN/mem22/", "yerronmean_mem22", "ME-2/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem31 = book1D("/iterN/mem31/", "yerronmean_mem31", "ME-3/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem32 = book1D("/iterN/mem32/", "yerronmean_mem32", "ME-3/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_mem41 = book1D("/iterN/mem41/", "yerronmean_mem41", "ME-4/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me11 = book1D("/iterN/me11/", "yerronmean_me11", "ME1/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me12 = book1D("/iterN/me12/", "yerronmean_me12", "ME1/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me13 = book1D("/iterN/me13/", "yerronmean_me13", "ME1/3 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me14 = book1D("/iterN/me14/", "yerronmean_me14", "ME1/4 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me21 = book1D("/iterN/me21/", "yerronmean_me21", "ME2/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me22 = book1D("/iterN/me22/", "yerronmean_me22", "ME2/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me31 = book1D("/iterN/me31/", "yerronmean_me31", "ME3/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me32 = book1D("/iterN/me32/", "yerronmean_me32", "ME3/2 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);
   m_yerronmean_me41 = book1D("/iterN/me41/", "yerronmean_me41", "ME4/1 error on y weighted mean residual per chamber (mm)", yerronmean_bins, yerronmean_low, yerronmean_high);

   m_chambers = directory("/iterN/")->make<TTree>("chambers", "residual statistics for each chamber");
   m_chambers->Branch("rawid", &m_chambers_rawid, "rawid/I");
   m_chambers->Branch("endcap", &m_chambers_endcap, "endcap/I");
   m_chambers->Branch("wheel", &m_chambers_wheel, "wheel/I");
   m_chambers->Branch("station", &m_chambers_station, "station/I");
   m_chambers->Branch("sector", &m_chambers_sector, "sector/I");
   m_chambers->Branch("ring", &m_chambers_ring, "ring/I");
   m_chambers->Branch("chamber", &m_chambers_chamber, "chamber/I");
   m_chambers->Branch("numx", &m_chambers_numx, "numx/I");
   m_chambers->Branch("x_w", &m_chambers_x_w, "x_w/F");
   m_chambers->Branch("x_ww", &m_chambers_x_ww, "x_ww/F");
   m_chambers->Branch("x_wx", &m_chambers_x_wx, "x_wx/F");
   m_chambers->Branch("x_wxx", &m_chambers_x_wxx, "x_wxx/F");
   m_chambers->Branch("numy", &m_chambers_numy, "numy/I");
   m_chambers->Branch("y_w", &m_chambers_y_w, "y_w/F");
   m_chambers->Branch("y_ww", &m_chambers_y_ww, "y_ww/F");
   m_chambers->Branch("y_wy", &m_chambers_y_wy, "y_wy/F");
   m_chambers->Branch("y_wyy", &m_chambers_y_wyy, "y_wyy/F");

}
void AlignmentMonitorMuonResiduals::event ( const edm::Event iEvent,
const edm::EventSetup iSetup,
const ConstTrajTrackPairCollection iTrajTracks 
) [virtual]

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

Reimplemented from AlignmentMonitorBase.

Definition at line 566 of file AlignmentMonitorMuonResiduals.cc.

References TrajectoryMeasurement::backwardPredictedState(), CSCDetId::chamberId(), TrajectoryStateCombiner::combine(), MuonSubdetId::CSC, AlignableNavigator::detAndSubdetInMap(), GeomDetEnumerators::DT, CSCDetId::endcap(), TrajectoryMeasurement::forwardPredictedState(), TrackingRecHit::geographicalId(), TrackingRecHit::isValid(), TrajectoryStateOnSurface::localError(), TrackingRecHit::localPosition(), TrajectoryStateOnSurface::localPosition(), TrackingRecHit::localPositionError(), m_numx, m_numy, m_x_w, m_x_ww, m_x_wx, m_x_wxx, m_xresid, m_xresid_mb, m_xresid_mb1, m_xresid_mb2, m_xresid_mb3, m_xresid_mb4, m_xresid_me, m_xresid_me11, m_xresid_me12, m_xresid_me13, m_xresid_me14, m_xresid_me21, m_xresid_me22, m_xresid_me31, m_xresid_me32, m_xresid_me41, m_xresid_mem11, m_xresid_mem12, m_xresid_mem13, m_xresid_mem14, m_xresid_mem21, m_xresid_mem22, m_xresid_mem31, m_xresid_mem32, m_xresid_mem41, m_xresid_mep11, m_xresid_mep12, m_xresid_mep13, m_xresid_mep14, m_xresid_mep21, m_xresid_mep22, m_xresid_mep31, m_xresid_mep32, m_xresid_mep41, m_xresid_minus1, m_xresid_minus2, m_xresid_plus1, m_xresid_plus2, m_xresid_zero, m_y_w, m_y_ww, m_y_wy, m_y_wyy, m_yresid, m_yresid_mb, m_yresid_mb1, m_yresid_mb2, m_yresid_mb3, m_yresid_mb4, m_yresid_me, m_yresid_me11, m_yresid_me12, m_yresid_me13, m_yresid_me14, m_yresid_me21, m_yresid_me22, m_yresid_me31, m_yresid_me32, m_yresid_me41, m_yresid_mem11, m_yresid_mem12, m_yresid_mem13, m_yresid_mem14, m_yresid_mem21, m_yresid_mem22, m_yresid_mem31, m_yresid_mem32, m_yresid_mem41, m_yresid_mep11, m_yresid_mep12, m_yresid_mep13, m_yresid_mep14, m_yresid_mep21, m_yresid_mep22, m_yresid_mep31, m_yresid_mep32, m_yresid_mep41, m_yresid_minus1, m_yresid_minus2, m_yresid_plus1, m_yresid_plus2, m_yresid_zero, Trajectory::measurements(), DetId::Muon, AlignmentMonitorBase::pNavigator(), LocalTrajectoryError::positionError(), DetId::rawId(), TrajectoryMeasurement::recHit(), CSCDetId::ring(), CSCDetId::station(), DTChamberId::station(), TransientTrackingRecHit::surface(), Surface::toGlobal(), DTChamberId::wheel(), PV3DBase< T, PVType, FrameType >::x(), LocalError::xx(), PV3DBase< T, PVType, FrameType >::y(), LocalError::yy(), and PV3DBase< T, PVType, FrameType >::z().

                                                                                                                                         {
   TrajectoryStateCombiner tsoscomb;

   for (ConstTrajTrackPairCollection::const_iterator it = tracks.begin();  it != tracks.end();  ++it) {
      const Trajectory *traj = it->first;
//      const reco::Track *track = it->second;

      std::vector<TrajectoryMeasurement> measurements = traj->measurements();

      for (std::vector<TrajectoryMeasurement>::const_iterator im = measurements.begin();  im != measurements.end();  ++im) {
         const TrajectoryMeasurement meas = *im;
         const TransientTrackingRecHit* hit = &(*meas.recHit());
         const DetId id = hit->geographicalId();

         if (hit->isValid()  &&  pNavigator()->detAndSubdetInMap(id)) {
            TrajectoryStateOnSurface tsosc = tsoscomb.combine(meas.forwardPredictedState(), meas.backwardPredictedState());
            align::LocalPoint trackPos = tsosc.localPosition();
            LocalError trackErr = tsosc.localError().positionError();
            align::LocalPoint hitPos = hit->localPosition();
            LocalError hitErr = hit->localPositionError();

            double x_residual = 10. * (trackPos.x() - hitPos.x());
            double y_residual = 10. * (trackPos.y() - hitPos.y());
            double x_reserr2 = 100. * (trackErr.xx() + hitErr.xx());
            double y_reserr2 = 100. * (trackErr.yy() + hitErr.yy());
//          double xpos = trackPos.x();
//          double ypos = trackPos.y();

            if (id.det() == DetId::Muon  &&  id.subdetId() == MuonSubdetId::DT) {
               if (fabs(hit->surface()->toGlobal(align::LocalVector(0,1,0)).z()) < 0.1) {
                  // local y != global z: it's a middle (y-measuring) superlayer
                  y_residual = x_residual;
                  y_reserr2 = x_reserr2;
                  
                  x_residual = 0.;
                  x_reserr2 = 0.;
               }
               else {
                  y_residual = 0.;
                  y_reserr2 = 0.;
               }

               if (x_reserr2 > 0.) {
                  m_xresid->Fill(x_residual, 1./x_reserr2);
                  m_xresid_mb->Fill(x_residual, 1./x_reserr2);
               }
               if (y_reserr2 > 0.) {
                  m_yresid->Fill(y_residual, 1./y_reserr2);
                  m_yresid_mb->Fill(y_residual, 1./y_reserr2);
               }
                 
               DTChamberId dtId(id.rawId());
               int rawId = dtId.rawId();
               if (x_reserr2 > 0.) {
                  m_numx[rawId]++;
                  m_x_w[rawId] += 1./x_reserr2;
                  m_x_ww[rawId] += 1./x_reserr2/x_reserr2;
                  m_x_wx[rawId] += x_residual/x_reserr2;
                  m_x_wxx[rawId] += x_residual*x_residual/x_reserr2;
               }
               if (y_reserr2 > 0.) {
                  m_numy[rawId]++;
                  m_y_w[rawId] += 1./y_reserr2;
                  m_y_ww[rawId] += 1./y_reserr2/y_reserr2;
                  m_y_wy[rawId] += y_residual/y_reserr2;
                  m_y_wyy[rawId] += y_residual*y_residual/y_reserr2;
               }

               if (dtId.station() == 1) {
                  if (x_reserr2 > 0.) {
                     m_xresid_mb1->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_mb1->Fill(y_residual, 1./y_reserr2);
                  }
               }
               else if (dtId.station() == 2) {
                  if (x_reserr2 > 0.) {
                     m_xresid_mb2->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_mb2->Fill(y_residual, 1./y_reserr2);
                  }
               }
               else if (dtId.station() == 3) {
                  if (x_reserr2 > 0.) {
                     m_xresid_mb3->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_mb3->Fill(y_residual, 1./y_reserr2);
                  }
               }
               else if (dtId.station() == 4) {
                  if (x_reserr2 > 0.) {
                     m_xresid_mb4->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_mb4->Fill(y_residual, 1./y_reserr2);
                  }
               }

               if (dtId.wheel() == -2) {
                  if (x_reserr2 > 0.) {
                     m_xresid_minus2->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_minus2->Fill(y_residual, 1./y_reserr2);
                  }
               }
               else if (dtId.wheel() == -1) {
                  if (x_reserr2 > 0.) {
                     m_xresid_minus1->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_minus1->Fill(y_residual, 1./y_reserr2);
                  }
               }
               else if (dtId.wheel() == 0) {
                  if (x_reserr2 > 0.) {
                     m_xresid_zero->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_zero->Fill(y_residual, 1./y_reserr2);
                  }
               }
               else if (dtId.wheel() == 1) {
                  if (x_reserr2 > 0.) {
                     m_xresid_plus1->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_plus1->Fill(y_residual, 1./y_reserr2);
                  }
               }
               else if (dtId.wheel() == 2) {
                  if (x_reserr2 > 0.) {
                     m_xresid_plus2->Fill(x_residual, 1./x_reserr2);
                  }
                  if (y_reserr2 > 0.) {
                     m_yresid_plus2->Fill(y_residual, 1./y_reserr2);
                  }
               }
            } // end if DT

            else if (id.det() == DetId::Muon  &&  id.subdetId() == MuonSubdetId::CSC) {
               m_xresid->Fill(x_residual, 1./x_reserr2);
               m_yresid->Fill(y_residual, 1./y_reserr2);

               m_xresid_me->Fill(x_residual, 1./x_reserr2);
               m_yresid_me->Fill(y_residual, 1./y_reserr2);

               CSCDetId cscId(id.rawId());
               int rawId = cscId.chamberId().rawId();
               if (x_reserr2 > 0.) {
                  m_numx[rawId]++;
                  m_x_w[rawId] += 1./x_reserr2;
                  m_x_ww[rawId] += 1./x_reserr2/x_reserr2;
                  m_x_wx[rawId] += x_residual/x_reserr2;
                  m_x_wxx[rawId] += x_residual*x_residual/x_reserr2;
               }
               if (y_reserr2 > 0.) {
                  m_numy[rawId]++;
                  m_y_w[rawId] += 1./y_reserr2;
                  m_y_ww[rawId] += 1./y_reserr2/y_reserr2;
                  m_y_wy[rawId] += y_residual/y_reserr2;
                  m_y_wyy[rawId] += y_residual*y_residual/y_reserr2;
               }

               if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 1  &&  cscId.ring() == 1) {
                  m_xresid_mep11->Fill(x_residual, 1./x_reserr2);  m_yresid_mep11->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me11->Fill(x_residual, 1./x_reserr2);  m_yresid_me11->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -1  &&  cscId.ring() == 1) {
                  m_xresid_mem11->Fill(x_residual, 1./x_reserr2);  m_yresid_mem11->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me11->Fill(x_residual, 1./x_reserr2);  m_yresid_me11->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 1  &&  cscId.ring() == 2) {
                  m_xresid_mep12->Fill(x_residual, 1./x_reserr2);  m_yresid_mep12->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me12->Fill(x_residual, 1./x_reserr2);  m_yresid_me12->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -1  &&  cscId.ring() == 2) {
                  m_xresid_mem12->Fill(x_residual, 1./x_reserr2);  m_yresid_mem12->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me12->Fill(x_residual, 1./x_reserr2);  m_yresid_me12->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 1  &&  cscId.ring() == 3) {
                  m_xresid_mep13->Fill(x_residual, 1./x_reserr2);  m_yresid_mep13->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me13->Fill(x_residual, 1./x_reserr2);  m_yresid_me13->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -1  &&  cscId.ring() == 3) {
                  m_xresid_mem13->Fill(x_residual, 1./x_reserr2);  m_yresid_mem13->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me13->Fill(x_residual, 1./x_reserr2);  m_yresid_me13->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 1  &&  cscId.ring() == 4) {
                  m_xresid_mep14->Fill(x_residual, 1./x_reserr2);  m_yresid_mep14->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me14->Fill(x_residual, 1./x_reserr2);  m_yresid_me14->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -1  &&  cscId.ring() == 4) {
                  m_xresid_mem14->Fill(x_residual, 1./x_reserr2);  m_yresid_mem14->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me14->Fill(x_residual, 1./x_reserr2);  m_yresid_me14->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 2  &&  cscId.ring() == 1) {
                  m_xresid_mep21->Fill(x_residual, 1./x_reserr2);  m_yresid_mep21->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me21->Fill(x_residual, 1./x_reserr2);  m_yresid_me21->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -2  &&  cscId.ring() == 1) {
                  m_xresid_mem21->Fill(x_residual, 1./x_reserr2);  m_yresid_mem21->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me21->Fill(x_residual, 1./x_reserr2);  m_yresid_me21->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 2  &&  cscId.ring() == 2) {
                  m_xresid_mep22->Fill(x_residual, 1./x_reserr2);  m_yresid_mep22->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me22->Fill(x_residual, 1./x_reserr2);  m_yresid_me22->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -2  &&  cscId.ring() == 2) {
                  m_xresid_mem22->Fill(x_residual, 1./x_reserr2);  m_yresid_mem22->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me22->Fill(x_residual, 1./x_reserr2);  m_yresid_me22->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 3  &&  cscId.ring() == 1) {
                  m_xresid_mep31->Fill(x_residual, 1./x_reserr2);  m_yresid_mep31->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me31->Fill(x_residual, 1./x_reserr2);  m_yresid_me31->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -3  &&  cscId.ring() == 1) {
                  m_xresid_mem31->Fill(x_residual, 1./x_reserr2);  m_yresid_mem31->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me31->Fill(x_residual, 1./x_reserr2);  m_yresid_me31->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 3  &&  cscId.ring() == 2) {
                  m_xresid_mep32->Fill(x_residual, 1./x_reserr2);  m_yresid_mep32->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me32->Fill(x_residual, 1./x_reserr2);  m_yresid_me32->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -3  &&  cscId.ring() == 2) {
                  m_xresid_mem32->Fill(x_residual, 1./x_reserr2);  m_yresid_mem32->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me32->Fill(x_residual, 1./x_reserr2);  m_yresid_me32->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == 4  &&  cscId.ring() == 1) {
                  m_xresid_mep41->Fill(x_residual, 1./x_reserr2);  m_yresid_mep41->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me41->Fill(x_residual, 1./x_reserr2);  m_yresid_me41->Fill(y_residual, 1./y_reserr2);
               }
               else if ((cscId.endcap() == 1? 1: -1)*cscId.station() == -4  &&  cscId.ring() == 1) {
                  m_xresid_mem41->Fill(x_residual, 1./x_reserr2);  m_yresid_mem41->Fill(y_residual, 1./y_reserr2);
                  m_xresid_me41->Fill(x_residual, 1./x_reserr2);  m_yresid_me41->Fill(y_residual, 1./y_reserr2);
               }
            } // else if CSC

         } // end if good hit
      } // end loop over measurements

   } // end loop over track-trajectories
}

Member Data Documentation

Definition at line 136 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 137 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 137 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 138 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 138 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 137 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 137 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 137 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 137 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 137 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 139 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 139 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 139 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 139 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 140 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 140 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 140 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 140 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

std::map<int, int> AlignmentMonitorMuonResiduals::m_numx [private]

Definition at line 43 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

std::map<int, int> AlignmentMonitorMuonResiduals::m_numy [private]

Definition at line 48 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

Definition at line 54 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 54 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

std::map<int, double> AlignmentMonitorMuonResiduals::m_x_w [private]

Definition at line 44 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

std::map<int, double> AlignmentMonitorMuonResiduals::m_x_ww [private]

Definition at line 45 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

std::map<int, double> AlignmentMonitorMuonResiduals::m_x_wx [private]

Definition at line 46 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

std::map<int, double> AlignmentMonitorMuonResiduals::m_x_wxx [private]

Definition at line 47 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 86 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 66 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 56 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 76 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 54 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

std::map<int, double> AlignmentMonitorMuonResiduals::m_y_w [private]

Definition at line 49 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

std::map<int, double> AlignmentMonitorMuonResiduals::m_y_ww [private]

Definition at line 50 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

std::map<int, double> AlignmentMonitorMuonResiduals::m_y_wy [private]

Definition at line 51 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

std::map<int, double> AlignmentMonitorMuonResiduals::m_y_wyy [private]

Definition at line 52 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), book(), and event().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 126 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 106 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 96 of file AlignmentMonitorMuonResiduals.cc.

Referenced by book(), and event().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 116 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 54 of file AlignmentMonitorMuonResiduals.cc.

Referenced by afterAlignment(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 142 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().

Definition at line 143 of file AlignmentMonitorMuonResiduals.cc.

Referenced by AlignmentMonitorMuonResiduals(), and book().