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CSCSegFit Class Reference

#include <CSCSegFit.h>

Inheritance diagram for CSCSegFit:
CSCCondSegFit

Public Types

typedef std::vector< const
CSCRecHit2D * > 
CSCSetOfHits
 
typedef ROOT::Math::SMatrix
< double, 12, 4 > 
SMatrix12by4
 
typedef ROOT::Math::SMatrix
< double, 4 > 
SMatrix4
 
typedef ROOT::Math::SMatrix
< double,
12, 12, ROOT::Math::MatRepSym
< double, 12 > > 
SMatrixSym12
 
typedef ROOT::Math::SMatrix
< double,
2, 2, ROOT::Math::MatRepSym
< double, 2 > > 
SMatrixSym2
 
typedef ROOT::Math::SMatrix
< double,
4, 4, ROOT::Math::MatRepSym
< double, 4 > > 
SMatrixSym4
 
typedef ROOT::Math::SVector
< double, 4 > 
SVector4
 

Public Member Functions

const CSCChamberchamber () const
 
double chi2 (void) const
 
AlgebraicSymMatrix covarianceMatrix (void)
 
 CSCSegFit (const CSCChamber *csc, CSCSetOfHits hits)
 
void fit (void)
 
bool fitdone () const
 
CSCSetOfHits hits (void) const
 
LocalPoint intercept () const
 
LocalVector localdir () const
 
int ndof (void) const
 
size_t nhits (void) const
 
float Rdev (float x, float y, float z) const
 
double scaleXError (void) const
 
void setScaleXError (double factor)
 
float xdev (float x, float z) const
 
float xfit (float z) const
 
float ydev (float y, float z) const
 
float yfit (float z) const
 
virtual ~CSCSegFit ()
 

Protected Member Functions

SMatrix12by4 derivativeMatrix (void)
 
AlgebraicSymMatrix flipErrors (const SMatrixSym4 &)
 
void setOutFromIP (void)
 
SMatrixSym12 weightMatrix (void)
 

Protected Attributes

const CSCChamberchamber_
 
double chi2_
 
bool fitdone_
 
CSCSetOfHits hits_
 
LocalPoint intercept_
 
LocalVector localdir_
 
int ndof_
 
double scaleXError_
 
float uslope_
 
float vslope_
 

Private Member Functions

void fit2 (void)
 
void fitlsq (void)
 
void setChi2 (void)
 

Detailed Description

Definition at line 30 of file CSCSegFit.h.

Member Typedef Documentation

typedef std::vector<const CSCRecHit2D*> CSCSegFit::CSCSetOfHits

Definition at line 36 of file CSCSegFit.h.

typedef ROOT::Math::SMatrix<double,12,4 > CSCSegFit::SMatrix12by4

Definition at line 42 of file CSCSegFit.h.

typedef ROOT::Math::SMatrix<double, 4 > CSCSegFit::SMatrix4

Definition at line 45 of file CSCSegFit.h.

typedef ROOT::Math::SMatrix<double,12,12,ROOT::Math::MatRepSym<double,12> > CSCSegFit::SMatrixSym12

Definition at line 39 of file CSCSegFit.h.

typedef ROOT::Math::SMatrix<double,2,2,ROOT::Math::MatRepSym<double,2> > CSCSegFit::SMatrixSym2

Definition at line 49 of file CSCSegFit.h.

typedef ROOT::Math::SMatrix<double,4,4,ROOT::Math::MatRepSym<double,4> > CSCSegFit::SMatrixSym4

Definition at line 46 of file CSCSegFit.h.

typedef ROOT::Math::SVector<double,4> CSCSegFit::SVector4

Definition at line 52 of file CSCSegFit.h.

Constructor & Destructor Documentation

CSCSegFit::CSCSegFit ( const CSCChamber csc,
CSCSetOfHits  hits 
)
inline

Definition at line 58 of file CSCSegFit.h.

58  :
59  chamber_( csc ), hits_( hits ), scaleXError_( 1.0 ), fitdone_( false ) {}
CSCSetOfHits hits(void) const
Definition: CSCSegFit.h:82
double scaleXError_
Definition: CSCSegFit.h:122
bool fitdone_
Definition: CSCSegFit.h:123
const CSCChamber * chamber_
Definition: CSCSegFit.h:114
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
virtual CSCSegFit::~CSCSegFit ( )
inlinevirtual

Definition at line 61 of file CSCSegFit.h.

61 {}

Member Function Documentation

const CSCChamber* CSCSegFit::chamber ( ) const
inline
double CSCSegFit::chi2 ( void  ) const
inline
AlgebraicSymMatrix CSCSegFit::covarianceMatrix ( void  )

Definition at line 378 of file CSCSegFit.cc.

References funct::A, derivativeMatrix(), flipErrors(), convertSQLiteXML::ok, mps_fire::result, weightMatrix(), and create_public_pileup_plots::weights.

Referenced by CSCSegAlgoST::buildSegments(), CSCSegAlgoTC::buildSegments(), CSCSegAlgoSK::buildSegments(), CSCSegAlgoDF::buildSegments(), CSCSegAlgoST::prune_bad_hits(), and CSCSegAlgoShowering::showerSeg().

378  {
379 
382  // LogTrace("CSCSegFit") << "[CSCSegFit::covarianceMatrix] weights matrix W: \n" << weights;
383  // LogTrace("CSCSegFit") << "[CSCSegFit::covarianceMatrix] derivatives matrix A: \n" << A;
384 
385  // (AT W A)^-1
386  // e.g. See http://www.phys.ufl.edu/~avery/fitting.html, part I
387 
388  bool ok;
389  SMatrixSym4 result = ROOT::Math::SimilarityT(A, weights);
390  // LogTrace("CSCSegFit") << "[CSCSegFit::covarianceMatrix] (AT W A): \n" << result;
391  ok = result.Invert(); // inverts in place
392  if ( !ok ) {
393  edm::LogVerbatim("CSCSegment|CSCSegFit") << "[CSCSegFit::calculateError] Failed to invert matrix: \n" << result;
394  // return ok; //@@ SHOULD PASS THIS BACK TO CALLER?
395  }
396  // LogTrace("CSCSegFit") << "[CSCSegFit::covarianceMatrix] (AT W A)^-1: \n" << result;
397 
398  // reorder components to match TrackingRecHit interface (CSCSegment isa TrackingRecHit)
399  // i.e. slopes first, then positions
400  AlgebraicSymMatrix flipped = flipErrors( result );
401 
402  return flipped;
403 }
ROOT::Math::SMatrix< double, 12, 4 > SMatrix12by4
Definition: CSCSegFit.h:42
AlgebraicSymMatrix flipErrors(const SMatrixSym4 &)
Definition: CSCSegFit.cc:406
tuple result
Definition: mps_fire.py:84
ROOT::Math::SMatrix< double, 4, 4, ROOT::Math::MatRepSym< double, 4 > > SMatrixSym4
Definition: CSCSegFit.h:46
ROOT::Math::SMatrix< double, 12, 12, ROOT::Math::MatRepSym< double, 12 > > SMatrixSym12
Definition: CSCSegFit.h:39
SMatrixSym12 weightMatrix(void)
Definition: CSCSegFit.cc:298
SMatrix12by4 derivativeMatrix(void)
Definition: CSCSegFit.cc:331
CLHEP::HepSymMatrix AlgebraicSymMatrix
CSCSegFit::SMatrix12by4 CSCSegFit::derivativeMatrix ( void  )
protected

Definition at line 331 of file CSCSegFit.cc.

References chamber(), CSCRecHit2D::cscDetId(), hits_, CSCChamber::layer(), CSCDetId::layer(), CSCRecHit2D::localPosition(), makeMuonMisalignmentScenario::matrix, GeomDet::toGlobal(), GeomDet::toLocal(), z, and PV3DBase< T, PVType, FrameType >::z().

Referenced by covarianceMatrix().

331  {
332 
333  SMatrix12by4 matrix; // 12x4, init to 0
334  int row = 0;
335 
336  for( CSCSetOfHits::const_iterator it = hits_.begin(); it != hits_.end(); ++it) {
337 
338  const CSCRecHit2D& hit = (**it);
339  const CSCLayer* layer = chamber()->layer(hit.cscDetId().layer());
340  GlobalPoint gp = layer->toGlobal(hit.localPosition());
341  LocalPoint lp = chamber()->toLocal(gp);
342  float z = lp.z();
343 
344  matrix(row, 0) = 1.;
345  matrix(row, 2) = z;
346  ++row;
347  matrix(row, 1) = 1.;
348  matrix(row, 3) = z;
349  ++row;
350  }
351  return matrix;
352 }
CSCDetId cscDetId() const
Definition: CSCRecHit2D.h:52
ROOT::Math::SMatrix< double, 12, 4 > SMatrix12by4
Definition: CSCSegFit.h:42
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54
LocalPoint toLocal(const GlobalPoint &gp) const
Conversion to the R.F. of the GeomDet.
Definition: GeomDet.h:69
int layer() const
Definition: CSCDetId.h:61
T z() const
Definition: PV3DBase.h:64
const CSCLayer * layer(CSCDetId id) const
Return the layer corresponding to the given id.
Definition: CSCChamber.cc:39
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
const CSCChamber * chamber() const
Definition: CSCSegFit.h:89
LocalPoint localPosition() const
Definition: CSCRecHit2D.h:50
void CSCSegFit::fit ( void  )

Definition at line 14 of file CSCSegFit.cc.

References fit2(), fitdone(), fitlsq(), gen::n, and nhits().

Referenced by CSCSegAlgoShowering::compareProtoSegment(), CSCSegAlgoDF::compareProtoSegment(), trackingPlots.Iteration::modules(), CSCSegAlgoShowering::updateParameters(), CSCSegAlgoDF::updateParameters(), CSCSegAlgoSK::updateParameters(), and CSCSegAlgoTC::updateParameters().

14  {
15  if ( fitdone() ) return; // don't redo fit unnecessarily
16  short n = nhits();
17  switch ( n ) {
18  case 1:
19  edm::LogVerbatim("CSCSegFit") << "[CSCSegFit::fit] - cannot fit just 1 hit!!";
20  break;
21  case 2:
22  fit2();
23  break;
24  case 3:
25  case 4:
26  case 5:
27  case 6:
28  fitlsq();
29  break;
30  default:
31  edm::LogVerbatim("CSCSegFit") << "[CSCSegFit::fit] - cannot fit more than 6 hits!!";
32  }
33 }
void fit2(void)
Definition: CSCSegFit.cc:35
void fitlsq(void)
Definition: CSCSegFit.cc:85
bool fitdone() const
Definition: CSCSegFit.h:90
size_t nhits(void) const
Definition: CSCSegFit.h:84
void CSCSegFit::fit2 ( void  )
private

Definition at line 35 of file CSCSegFit.cc.

References chamber(), chi2_, CSCRecHit2D::cscDetId(), fitdone_, hits_, intercept_, CSCChamber::layer(), CSCDetId::layer(), CSCRecHit2D::localPosition(), ndof_, setOutFromIP(), GeomDet::toGlobal(), GeomDet::toLocal(), uslope_, vslope_, PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by fit().

35  {
36 
37  // Just join the two points
38  // Equation of straight line between (x1, y1) and (x2, y2) in xy-plane is
39  // y = mx + c
40  // with m = (y2-y1)/(x2-x1)
41  // and c = (y1*x2-x2*y1)/(x2-x1)
42 
43  CSCSetOfHits::const_iterator ih = hits_.begin();
44  int il1 = (*ih)->cscDetId().layer();
45  const CSCRecHit2D& h1 = (**ih);
46  ++ih;
47  int il2 = (*ih)->cscDetId().layer();
48  const CSCRecHit2D& h2 = (**ih);
49 
50  // Skip if on same layer, but should be impossible :)
51  if (il1 == il2) {
52  edm::LogVerbatim("CSCSegFit") << "[CSCSegFit:fit]2 - 2 hits on same layer!!";
53  return;
54  }
55 
56  const CSCLayer* layer1 = chamber()->layer(il1);
57  const CSCLayer* layer2 = chamber()->layer(il2);
58 
59  GlobalPoint h1glopos = layer1->toGlobal(h1.localPosition());
60  GlobalPoint h2glopos = layer2->toGlobal(h2.localPosition());
61 
62  // We want hit wrt chamber (and local z will be != 0)
63  LocalPoint h1pos = chamber()->toLocal(h1glopos);
64  LocalPoint h2pos = chamber()->toLocal(h2glopos);
65 
66  float dz = h2pos.z()-h1pos.z();
67 
68  uslope_ = ( h2pos.x() - h1pos.x() ) / dz ;
69  vslope_ = ( h2pos.y() - h1pos.y() ) / dz ;
70 
71  float uintercept = ( h1pos.x()*h2pos.z() - h2pos.x()*h1pos.z() ) / dz;
72  float vintercept = ( h1pos.y()*h2pos.z() - h2pos.y()*h1pos.z() ) / dz;
73  intercept_ = LocalPoint( uintercept, vintercept, 0.);
74 
75  setOutFromIP();
76 
77  //@@ NOT SURE WHAT IS SENSIBLE FOR THESE...
78  chi2_ = 0.;
79  ndof_ = 0;
80 
81  fitdone_ = true;
82 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
CSCDetId cscDetId() const
Definition: CSCRecHit2D.h:52
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54
double chi2_
Definition: CSCSegFit.h:120
T y() const
Definition: PV3DBase.h:63
float vslope_
Definition: CSCSegFit.h:117
LocalPoint toLocal(const GlobalPoint &gp) const
Conversion to the R.F. of the GeomDet.
Definition: GeomDet.h:69
int layer() const
Definition: CSCDetId.h:61
T z() const
Definition: PV3DBase.h:64
bool fitdone_
Definition: CSCSegFit.h:123
const CSCLayer * layer(CSCDetId id) const
Return the layer corresponding to the given id.
Definition: CSCChamber.cc:39
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
void setOutFromIP(void)
Definition: CSCSegFit.cc:355
const CSCChamber * chamber() const
Definition: CSCSegFit.h:89
Local3DPoint LocalPoint
Definition: LocalPoint.h:11
LocalPoint localPosition() const
Definition: CSCRecHit2D.h:50
T x() const
Definition: PV3DBase.h:62
float uslope_
Definition: CSCSegFit.h:116
int ndof_
Definition: CSCSegFit.h:121
bool CSCSegFit::fitdone ( ) const
inline

Definition at line 90 of file CSCSegFit.h.

References fitdone_.

Referenced by fit().

90 { return fitdone_; }
bool fitdone_
Definition: CSCSegFit.h:123
void CSCSegFit::fitlsq ( void  )
private

Definition at line 85 of file CSCSegFit.cc.

References chamber(), CSCRecHit2D::cscDetId(), fitdone_, hits_, intercept_, CSCChamber::layer(), CSCDetId::layer(), CSCRecHit2D::localPosition(), CSCRecHit2D::localPositionError(), convertSQLiteXML::ok, AlCaHLTBitMon_ParallelJobs::p, setChi2(), setOutFromIP(), GeomDet::toGlobal(), GeomDet::toLocal(), uslope_, findQualityFiles::v, vslope_, PV3DBase< T, PVType, FrameType >::x(), LocalError::xx(), LocalError::xy(), PV3DBase< T, PVType, FrameType >::y(), LocalError::yy(), z, and PV3DBase< T, PVType, FrameType >::z().

Referenced by fit().

85  {
86 
87  // Linear least-squares fit to up to 6 CSC rechits, one per layer in a CSC.
88  // Comments adapted from mine in original CSCSegAlgoSK algorithm.
89 
90  // Fit to the local x, y rechit coordinates in z projection
91  // The strip measurement controls the precision of x
92  // The wire measurement controls the precision of y.
93  // Typical precision: u (strip, sigma~200um), v (wire, sigma~1cm)
94 
95  // Set up the normal equations for the least-squares fit as a matrix equation
96 
97  // We have a vector of measurements m, which is a 2n x 1 dim matrix
98  // The transpose mT is (u1, v1, u2, v2, ..., un, vn) where
99  // ui is the strip-associated measurement and
100  // vi is the wire-associated measurement
101  // for a given rechit i.
102 
103  // The fit is to
104  // u = u0 + uz * z
105  // v = v0 + vz * z
106  // where u0, uz, v0, vz are the parameters to be obtained from the fit.
107 
108  // These are contained in a vector p which is a 4x1 dim matrix, and
109  // its transpose pT is (u0, v0, uz, vz). Note the ordering!
110 
111  // The covariance matrix for each pair of measurements is 2 x 2 and
112  // the inverse of this is the error matrix E.
113  // The error matrix for the whole set of n measurements is a diagonal
114  // matrix with diagonal elements the individual 2 x 2 error matrices
115  // (because the inverse of a diagonal matrix is a diagonal matrix
116  // with each element the inverse of the original.)
117 
118  // In function 'weightMatrix()', the variable 'matrix' is filled with this
119  // block-diagonal overall covariance matrix. Then 'matrix' is inverted to the
120  // block-diagonal error matrix, and returned.
121 
122  // Define the matrix A as
123  // 1 0 z1 0
124  // 0 1 0 z1
125  // 1 0 z2 0
126  // 0 1 0 z2
127  // .. .. .. ..
128  // 1 0 zn 0
129  // 0 1 0 zn
130 
131  // This matrix A is set up and returned by function 'derivativeMatrix()'.
132 
133  // Then the normal equations are described by the matrix equation
134  //
135  // (AT E A)p = (AT E)m
136  //
137  // where AT is the transpose of A.
138 
139  // Call the combined matrix on the LHS, M, and that on the RHS, B:
140  // M p = B
141 
142  // We solve this for the parameter vector, p.
143  // The elements of M and B then involve sums over the hits
144 
145  // The covariance matrix of the parameters is obtained by
146  // (AT E A)^-1 calculated in 'covarianceMatrix()'.
147 
148 
149  // NOTE
150  // We need local position of a RecHit w.r.t. the CHAMBER
151  // and the RecHit itself only knows its local position w.r.t.
152  // the LAYER, so we must explicitly transform global position.
153 
154 
155  SMatrix4 M; // 4x4, init to 0
156  SVector4 B; // 4x1, init to 0;
157 
158  CSCSetOfHits::const_iterator ih = hits_.begin();
159 
160  for (ih = hits_.begin(); ih != hits_.end(); ++ih) {
161  const CSCRecHit2D& hit = (**ih);
162  const CSCLayer* layer = chamber()->layer(hit.cscDetId().layer());
163  GlobalPoint gp = layer->toGlobal(hit.localPosition());
164  LocalPoint lp = chamber()->toLocal(gp);
165 
166  // Local position of hit w.r.t. chamber
167  double u = lp.x();
168  double v = lp.y();
169  double z = lp.z();
170 
171  // Covariance matrix of local errors
172  SMatrixSym2 IC; // 2x2, init to 0
173 
174  IC(0,0) = hit.localPositionError().xx();
175  IC(1,1) = hit.localPositionError().yy();
176  //@@ NOT SURE WHICH OFF-DIAGONAL ELEMENT MUST BE DEFINED BUT (1,0) WORKS
177  //@@ (and SMatrix enforces symmetry)
178  IC(1,0) = hit.localPositionError().xy();
179  // IC(0,1) = IC(1,0);
180 
181  // Invert covariance matrix (and trap if it fails!)
182  bool ok = IC.Invert();
183  if ( !ok ) {
184  edm::LogVerbatim("CSCSegment|CSCSegFit") << "[CSCSegFit::fit] Failed to invert covariance matrix: \n" << IC;
185  // return ok; //@@ SHOULD PASS THIS BACK TO CALLER?
186  }
187 
188  M(0,0) += IC(0,0);
189  M(0,1) += IC(0,1);
190  M(0,2) += IC(0,0) * z;
191  M(0,3) += IC(0,1) * z;
192  B(0) += u * IC(0,0) + v * IC(0,1);
193 
194  M(1,0) += IC(1,0);
195  M(1,1) += IC(1,1);
196  M(1,2) += IC(1,0) * z;
197  M(1,3) += IC(1,1) * z;
198  B(1) += u * IC(1,0) + v * IC(1,1);
199 
200  M(2,0) += IC(0,0) * z;
201  M(2,1) += IC(0,1) * z;
202  M(2,2) += IC(0,0) * z * z;
203  M(2,3) += IC(0,1) * z * z;
204  B(2) += ( u * IC(0,0) + v * IC(0,1) ) * z;
205 
206  M(3,0) += IC(1,0) * z;
207  M(3,1) += IC(1,1) * z;
208  M(3,2) += IC(1,0) * z * z;
209  M(3,3) += IC(1,1) * z * z;
210  B(3) += ( u * IC(1,0) + v * IC(1,1) ) * z;
211 
212  }
213 
214  SVector4 p;
215  bool ok = M.Invert();
216  if (!ok ){
217  edm::LogVerbatim("CSCSegment|CSCSegFit") << "[CSCSegFit::fit] Failed to invert matrix: \n" << M;
218  // return ok; //@@ SHOULD PASS THIS BACK TO CALLER?
219  }
220  else {
221  p = M * B;
222  }
223 
224  // LogTrace("CSCSegFit") << "[CSCSegFit::fit] p = "
225  // << p(0) << ", " << p(1) << ", " << p(2) << ", " << p(3);
226 
227  // fill member variables (note origin has local z = 0)
228  // intercept_
229  intercept_ = LocalPoint(p(0), p(1), 0.);
230 
231  // localdir_ - set so segment points outwards from IP
232  uslope_ = p(2);
233  vslope_ = p(3);
234  setOutFromIP();
235 
236  // calculate chi2 of fit
237  setChi2( );
238 
239  // flag fit has been done
240  fitdone_ = true;
241 
242 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
float xx() const
Definition: LocalError.h:24
CSCDetId cscDetId() const
Definition: CSCRecHit2D.h:52
double_binary B
Definition: DDStreamer.cc:234
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54
T y() const
Definition: PV3DBase.h:63
float vslope_
Definition: CSCSegFit.h:117
LocalPoint toLocal(const GlobalPoint &gp) const
Conversion to the R.F. of the GeomDet.
Definition: GeomDet.h:69
int layer() const
Definition: CSCDetId.h:61
float xy() const
Definition: LocalError.h:25
LocalError localPositionError() const
Definition: CSCRecHit2D.h:51
float yy() const
Definition: LocalError.h:26
T z() const
Definition: PV3DBase.h:64
bool fitdone_
Definition: CSCSegFit.h:123
ROOT::Math::SVector< double, 4 > SVector4
Definition: CSCSegFit.h:52
const CSCLayer * layer(CSCDetId id) const
Return the layer corresponding to the given id.
Definition: CSCChamber.cc:39
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
ROOT::Math::SMatrix< double, 4 > SMatrix4
Definition: CSCSegFit.h:45
void setOutFromIP(void)
Definition: CSCSegFit.cc:355
const CSCChamber * chamber() const
Definition: CSCSegFit.h:89
Local3DPoint LocalPoint
Definition: LocalPoint.h:11
ROOT::Math::SMatrix< double, 2, 2, ROOT::Math::MatRepSym< double, 2 > > SMatrixSym2
Definition: CSCSegFit.h:49
LocalPoint localPosition() const
Definition: CSCRecHit2D.h:50
T x() const
Definition: PV3DBase.h:62
float uslope_
Definition: CSCSegFit.h:116
void setChi2(void)
Definition: CSCSegFit.cc:246
AlgebraicSymMatrix CSCSegFit::flipErrors ( const SMatrixSym4 a)
protected

Definition at line 406 of file CSCSegFit.cc.

References a, i, and j.

Referenced by covarianceMatrix().

406  {
407 
408  // The CSCSegment needs the error matrix re-arranged to match
409  // parameters in order (uz, vz, u0, v0)
410  // where uz, vz = slopes, u0, v0 = intercepts
411 
412  // LogTrace("CSCSegFit") << "[CSCSegFit::flipErrors] input: \n" << a;
413 
414  AlgebraicSymMatrix hold(4, 0. );
415 
416  for ( short j=0; j!=4; ++j) {
417  for (short i=0; i!=4; ++i) {
418  hold(i+1,j+1) = a(i,j); // SMatrix counts from 0, AlgebraicMatrix from 1
419  }
420  }
421 
422  // LogTrace("CSCSegFit") << "[CSCSegFit::flipErrors] after copy:";
423  // LogTrace("CSCSegFit") << "(" << hold(1,1) << " " << hold(1,2) << " " << hold(1,3) << " " << hold(1,4);
424  // LogTrace("CSCSegFit") << " " << hold(2,1) << " " << hold(2,2) << " " << hold(2,3) << " " << hold(2,4);
425  // LogTrace("CSCSegFit") << " " << hold(3,1) << " " << hold(3,2) << " " << hold(3,3) << " " << hold(3,4);
426  // LogTrace("CSCSegFit") << " " << hold(4,1) << " " << hold(4,2) << " " << hold(4,3) << " " << hold(4,4) << ")";
427 
428  // errors on slopes into upper left
429  hold(1,1) = a(2,2);
430  hold(1,2) = a(2,3);
431  hold(2,1) = a(3,2);
432  hold(2,2) = a(3,3);
433 
434  // errors on positions into lower right
435  hold(3,3) = a(0,0);
436  hold(3,4) = a(0,1);
437  hold(4,3) = a(1,0);
438  hold(4,4) = a(1,1);
439 
440  // must also interchange off-diagonal elements of off-diagonal 2x2 submatrices
441  hold(4,1) = a(1,2);
442  hold(3,2) = a(0,3);
443  hold(2,3) = a(3,0); // = a(0,3)
444  hold(1,4) = a(2,1); // = a(1,2)
445 
446  // LogTrace("CSCSegFit") << "[CSCSegFit::flipErrors] after flip:";
447  // LogTrace("CSCSegFit") << "(" << hold(1,1) << " " << hold(1,2) << " " << hold(1,3) << " " << hold(1,4);
448  // LogTrace("CSCSegFit") << " " << hold(2,1) << " " << hold(2,2) << " " << hold(2,3) << " " << hold(2,4);
449  // LogTrace("CSCSegFit") << " " << hold(3,1) << " " << hold(3,2) << " " << hold(3,3) << " " << hold(3,4);
450  // LogTrace("CSCSegFit") << " " << hold(4,1) << " " << hold(4,2) << " " << hold(4,3) << " " << hold(4,4) << ")";
451 
452  return hold;
453 }
int i
Definition: DBlmapReader.cc:9
int j
Definition: DBlmapReader.cc:9
double a
Definition: hdecay.h:121
CLHEP::HepSymMatrix AlgebraicSymMatrix
CSCSetOfHits CSCSegFit::hits ( void  ) const
inline

Definition at line 82 of file CSCSegFit.h.

References hits_.

Referenced by CSCSegAlgoTC::buildSegments(), CSCSegAlgoSK::buildSegments(), CSCSegAlgoDF::buildSegments(), and CSCSegAlgoShowering::showerSeg().

82 { return hits_; }
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
LocalPoint CSCSegFit::intercept ( ) const
inline
LocalVector CSCSegFit::localdir ( ) const
inline
int CSCSegFit::ndof ( void  ) const
inline
size_t CSCSegFit::nhits ( void  ) const
inline

Definition at line 84 of file CSCSegFit.h.

References hits_.

Referenced by CSCSegAlgoST::buildSegments(), fit(), and CSCSegAlgoShowering::showerSeg().

84 { return hits_.size(); }
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
float CSCSegFit::Rdev ( float  x,
float  y,
float  z 
) const

Definition at line 473 of file CSCSegFit.cc.

References mathSSE::sqrt(), xdev(), and ydev().

Referenced by CSCSegAlgoShowering::pruneFromResidual(), and CSCSegAlgoDF::pruneFromResidual().

473  {
474  return sqrt ( xdev(x,z)*xdev(x,z) + ydev(y,z)*ydev(y,z) );
475 }
T sqrt(T t)
Definition: SSEVec.h:18
float xdev(float x, float z) const
Definition: CSCSegFit.cc:465
float ydev(float y, float z) const
Definition: CSCSegFit.cc:469
double CSCSegFit::scaleXError ( void  ) const
inline

Definition at line 83 of file CSCSegFit.h.

References scaleXError_.

Referenced by CSCSegAlgoST::buildSegments(), CSCSegAlgoST::prune_bad_hits(), and weightMatrix().

83 { return scaleXError_; }
double scaleXError_
Definition: CSCSegFit.h:122
void CSCSegFit::setChi2 ( void  )
private

Definition at line 246 of file CSCSegFit.cc.

References chamber(), chi2_, CSCRecHit2D::cscDetId(), hits_, intercept_, CSCChamber::layer(), CSCDetId::layer(), CSCRecHit2D::localPosition(), CSCRecHit2D::localPositionError(), ndof_, convertSQLiteXML::ok, GeomDet::toGlobal(), GeomDet::toLocal(), uslope_, findQualityFiles::v, vslope_, PV3DBase< T, PVType, FrameType >::x(), LocalError::xx(), LocalError::xy(), PV3DBase< T, PVType, FrameType >::y(), LocalError::yy(), z, and PV3DBase< T, PVType, FrameType >::z().

Referenced by CSCCondSegFit::fit(), and fitlsq().

246  {
247 
248  double chsq = 0.;
249 
250  CSCSetOfHits::const_iterator ih;
251  for (ih = hits_.begin(); ih != hits_.end(); ++ih) {
252 
253  const CSCRecHit2D& hit = (**ih);
254  const CSCLayer* layer = chamber()->layer(hit.cscDetId().layer());
255  GlobalPoint gp = layer->toGlobal(hit.localPosition());
256  LocalPoint lp = chamber()->toLocal(gp);
257 
258  double u = lp.x();
259  double v = lp.y();
260  double z = lp.z();
261 
262  double du = intercept_.x() + uslope_ * z - u;
263  double dv = intercept_.y() + vslope_ * z - v;
264 
265  // LogTrace("CSCSegFit") << "[CSCSegFit::setChi2] u, v, z = " << u << ", " << v << ", " << z;
266 
267  SMatrixSym2 IC; // 2x2, init to 0
268 
269  IC(0,0) = hit.localPositionError().xx();
270  // IC(0,1) = hit.localPositionError().xy();
271  IC(1,0) = hit.localPositionError().xy();
272  IC(1,1) = hit.localPositionError().yy();
273  // IC(1,0) = IC(0,1);
274 
275  // LogTrace("CSCSegFit") << "[CSCSegFit::setChi2] IC before = \n" << IC;
276 
277  // Invert covariance matrix
278  bool ok = IC.Invert();
279  if (!ok ){
280  edm::LogVerbatim("CSCSegment|CSCSegFit") << "[CSCSegFit::setChi2] Failed to invert covariance matrix: \n" << IC;
281  // return ok;
282  }
283  // LogTrace("CSCSegFit") << "[CSCSegFit::setChi2] IC after = \n" << IC;
284  chsq += du*du*IC(0,0) + 2.*du*dv*IC(0,1) + dv*dv*IC(1,1);
285  }
286 
287  // fill member variables
288  chi2_ = chsq;
289  ndof_ = 2.*hits_.size() - 4;
290 
291  // LogTrace("CSCSegFit") << "[CSCSegFit::setChi2] chi2 = " << chi2_ << "/" << ndof_ << " dof";
292 
293 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
float xx() const
Definition: LocalError.h:24
CSCDetId cscDetId() const
Definition: CSCRecHit2D.h:52
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54
double chi2_
Definition: CSCSegFit.h:120
T y() const
Definition: PV3DBase.h:63
float vslope_
Definition: CSCSegFit.h:117
LocalPoint toLocal(const GlobalPoint &gp) const
Conversion to the R.F. of the GeomDet.
Definition: GeomDet.h:69
int layer() const
Definition: CSCDetId.h:61
float xy() const
Definition: LocalError.h:25
LocalError localPositionError() const
Definition: CSCRecHit2D.h:51
float yy() const
Definition: LocalError.h:26
T z() const
Definition: PV3DBase.h:64
const CSCLayer * layer(CSCDetId id) const
Return the layer corresponding to the given id.
Definition: CSCChamber.cc:39
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
const CSCChamber * chamber() const
Definition: CSCSegFit.h:89
ROOT::Math::SMatrix< double, 2, 2, ROOT::Math::MatRepSym< double, 2 > > SMatrixSym2
Definition: CSCSegFit.h:49
LocalPoint localPosition() const
Definition: CSCRecHit2D.h:50
T x() const
Definition: PV3DBase.h:62
float uslope_
Definition: CSCSegFit.h:116
int ndof_
Definition: CSCSegFit.h:121
void CSCSegFit::setOutFromIP ( void  )
protected

Definition at line 355 of file CSCSegFit.cc.

References chamber(), intercept_, localdir_, mathSSE::sqrt(), GeomDet::toGlobal(), csvLumiCalc::unit, uslope_, vslope_, and z.

Referenced by CSCCondSegFit::fit(), fit2(), and fitlsq().

355  {
356  // Set direction of segment to point from IP outwards
357  // (Incorrect for particles not coming from IP, of course.)
358 
359  double dxdz = uslope_;
360  double dydz = vslope_;
361  double dz = 1./sqrt(1. + dxdz*dxdz + dydz*dydz);
362  double dx = dz*dxdz;
363  double dy = dz*dydz;
364  LocalVector localDir(dx,dy,dz);
365 
366  // localDir sometimes needs a sign flip
367  // Examine its direction and origin in global z: to point outward
368  // the localDir should always have same sign as global z...
369 
370  double globalZpos = ( chamber()->toGlobal( intercept_ ) ).z();
371  double globalZdir = ( chamber()->toGlobal( localDir ) ).z();
372  double directionSign = globalZpos * globalZdir;
373  localdir_ = (directionSign * localDir ).unit();
374 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
LocalVector localdir_
Definition: CSCSegFit.h:119
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54
float vslope_
Definition: CSCSegFit.h:117
string unit
Definition: csvLumiCalc.py:46
T sqrt(T t)
Definition: SSEVec.h:18
const CSCChamber * chamber() const
Definition: CSCSegFit.h:89
float uslope_
Definition: CSCSegFit.h:116
void CSCSegFit::setScaleXError ( double  factor)
inline
CSCSegFit::SMatrixSym12 CSCSegFit::weightMatrix ( void  )
protected

Definition at line 298 of file CSCSegFit.cc.

References hits_, CSCRecHit2D::localPositionError(), makeMuonMisalignmentScenario::matrix, convertSQLiteXML::ok, scaleXError(), LocalError::xx(), LocalError::xy(), and LocalError::yy().

Referenced by covarianceMatrix().

298  {
299 
300  bool ok = true;
301 
302  SMatrixSym12 matrix = ROOT::Math::SMatrixIdentity(); // 12x12, init to 1's on diag
303 
304  int row = 0;
305 
306  for (CSCSetOfHits::const_iterator it = hits_.begin(); it != hits_.end(); ++it) {
307 
308  const CSCRecHit2D& hit = (**it);
309 
310 // Note scaleXError allows rescaling the x error if necessary
311 
312  matrix(row, row) = scaleXError()*hit.localPositionError().xx();
313  matrix(row, row+1) = hit.localPositionError().xy();
314  ++row;
315  matrix(row, row-1) = hit.localPositionError().xy();
316  matrix(row, row) = hit.localPositionError().yy();
317  ++row;
318  }
319 
320  ok = matrix.Invert(); // invert in place
321  if ( !ok ) {
322  edm::LogVerbatim("CSCSegment|CSCSegFit") << "[CSCSegFit::weightMatrix] Failed to invert matrix: \n" << matrix;
323  // return ok; //@@ SHOULD PASS THIS BACK TO CALLER?
324  }
325  return matrix;
326 }
float xx() const
Definition: LocalError.h:24
float xy() const
Definition: LocalError.h:25
LocalError localPositionError() const
Definition: CSCRecHit2D.h:51
float yy() const
Definition: LocalError.h:26
ROOT::Math::SMatrix< double, 12, 12, ROOT::Math::MatRepSym< double, 12 > > SMatrixSym12
Definition: CSCSegFit.h:39
CSCSetOfHits hits_
Definition: CSCSegFit.h:115
double scaleXError(void) const
Definition: CSCSegFit.h:83
float CSCSegFit::xdev ( float  x,
float  z 
) const

Definition at line 465 of file CSCSegFit.cc.

References intercept_, uslope_, x, and PV3DBase< T, PVType, FrameType >::x().

Referenced by Rdev().

465  {
466  return intercept_.x() + uslope_ * z - x;
467 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
T x() const
Definition: PV3DBase.h:62
float uslope_
Definition: CSCSegFit.h:116
float CSCSegFit::xfit ( float  z) const

Definition at line 455 of file CSCSegFit.cc.

References intercept_, uslope_, PV3DBase< T, PVType, FrameType >::x(), and z.

Referenced by CSCSegAlgoShowering::isHitNearSegment(), and CSCSegAlgoDF::isHitNearSegment().

455  {
456  //@@ ADD THIS TO EACH ACCESSOR OF FIT RESULTS?
457  // if ( !fitdone() ) fit();
458  return intercept_.x() + uslope_ * z;
459 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
T x() const
Definition: PV3DBase.h:62
float uslope_
Definition: CSCSegFit.h:116
float CSCSegFit::ydev ( float  y,
float  z 
) const

Definition at line 469 of file CSCSegFit.cc.

References intercept_, vslope_, y, and PV3DBase< T, PVType, FrameType >::y().

Referenced by Rdev().

469  {
470  return intercept_.y() + vslope_ * z - y;
471 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
T y() const
Definition: PV3DBase.h:63
float vslope_
Definition: CSCSegFit.h:117
float CSCSegFit::yfit ( float  z) const

Definition at line 461 of file CSCSegFit.cc.

References intercept_, vslope_, PV3DBase< T, PVType, FrameType >::y(), and z.

Referenced by CSCSegAlgoShowering::isHitNearSegment(), and CSCSegAlgoDF::isHitNearSegment().

461  {
462  return intercept_.y() + vslope_ * z;
463 }
LocalPoint intercept_
Definition: CSCSegFit.h:118
T y() const
Definition: PV3DBase.h:63
float vslope_
Definition: CSCSegFit.h:117

Member Data Documentation

const CSCChamber* CSCSegFit::chamber_
protected

Definition at line 114 of file CSCSegFit.h.

Referenced by chamber().

double CSCSegFit::chi2_
protected

Definition at line 120 of file CSCSegFit.h.

Referenced by chi2(), fit2(), CSCCondSegFit::setChi2(), and setChi2().

bool CSCSegFit::fitdone_
protected

Definition at line 123 of file CSCSegFit.h.

Referenced by fit2(), fitdone(), and fitlsq().

CSCSetOfHits CSCSegFit::hits_
protected
LocalPoint CSCSegFit::intercept_
protected
LocalVector CSCSegFit::localdir_
protected

Definition at line 119 of file CSCSegFit.h.

Referenced by localdir(), and setOutFromIP().

int CSCSegFit::ndof_
protected

Definition at line 121 of file CSCSegFit.h.

Referenced by fit2(), ndof(), CSCCondSegFit::setChi2(), and setChi2().

double CSCSegFit::scaleXError_
protected

Definition at line 122 of file CSCSegFit.h.

Referenced by scaleXError(), and setScaleXError().

float CSCSegFit::uslope_
protected
float CSCSegFit::vslope_
protected