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MuonResidualsAngleFitter Class Reference

#include <MuonResidualsAngleFitter.h>

Inheritance diagram for MuonResidualsAngleFitter:
MuonResidualsFitter

Public Types

enum  {
  kAngle = 0, kXControl, kYControl, kSigma,
  kGamma, kNPar
}
 
enum  { kResidual = 0, kXAngle, kYAngle, kNData }
 
- Public Types inherited from MuonResidualsFitter
enum  {
  kPureGaussian, kPowerLawTails, kROOTVoigt, kGaussPowerTails,
  kPureGaussian2D
}
 
enum  {
  k1DOF, k5DOF, k6DOF, k6DOFrphi,
  kPositionFitter, kAngleFitter, kAngleBfieldFitter
}
 
enum  {
  k1111, k1110, k1100, k1010,
  k0010, k1000, k0100
}
 

Public Member Functions

bool fit (Alignable *ali) override
 
 MuonResidualsAngleFitter (int residualsModel, int minHitsPerRegion, int useResiduals, bool weightAlignment=true)
 
int ndata () override
 
int npar () override
 
double plot (std::string name, TFileDirectory *dir, Alignable *ali) override
 
double sumofweights () override
 
int type () const override
 
- Public Member Functions inherited from MuonResidualsFitter
void computeHistogramRangeAndBinning (int which, int &nbins, double &a, double &b)
 
virtual void correctBField ()=0
 
virtual void correctBField (int idx_momentum, int idx_q)
 
TMatrixDSym correlationMatrix ()
 
double covarianceElement (int parNum1, int parNum2)
 
TMatrixDSym covarianceMatrix ()
 
void eraseNotSelectedResiduals ()
 
double errorerror (int parNum)
 
void fiducialCuts (double xMin=-80.0, double xMax=80.0, double yMin=-80.0, double yMax=80.0, bool fidcut1=false)
 
void fill (double *residual)
 
void fix (int parNum, bool dofix=true)
 
bool fixed (int parNum)
 
void histogramChi2GaussianFit (int which, double &fit_mean, double &fit_sigma)
 
double loglikelihood ()
 
 MuonResidualsFitter (int residualsModel, int minHits, int useResiduals, bool weightAlignment=true)
 
int nfixed ()
 
long numResiduals () const
 
long numsegments ()
 
int parNum2parIdx (int parNum)
 
void plotsimple (std::string name, TFileDirectory *dir, int which, double multiplier)
 
void plotweighted (std::string name, TFileDirectory *dir, int which, int whichredchi2, double multiplier)
 
void read (FILE *file, int which=0)
 
std::vector< double * >::const_iterator residuals_begin () const
 
std::vector< double * >::const_iterator residuals_end () const
 
int residualsModel () const
 
std::vector< bool > & selectedResidualsFlags ()
 
void selectPeakResiduals (double nsigma, int nvar, int *vars)
 
void selectPeakResiduals_simple (double nsigma, int nvar, int *vars)
 
void setInitialValue (int parNum, double value)
 
void setPrintLevel (int printLevel)
 
void setStrategy (int strategy)
 
int useRes (int pattern=-1)
 
double value (int parNum)
 
void write (FILE *file, int which=0)
 
virtual ~MuonResidualsFitter ()
 

Protected Member Functions

void inform (TMinuit *tMinuit) override
 
- Protected Member Functions inherited from MuonResidualsFitter
bool dofit (void(*fcn)(int &, double *, double &, double *, int), std::vector< int > &parNum, std::vector< std::string > &parName, std::vector< double > &start, std::vector< double > &step, std::vector< double > &low, std::vector< double > &high)
 
void initialize_table ()
 

Additional Inherited Members

- Protected Attributes inherited from MuonResidualsFitter
double m_center [20]
 
TMatrixDSym m_cov
 
std::vector< double > m_error
 
std::vector< bool > m_fixed
 
double m_loglikelihood
 
int m_minHits
 
std::map< int, double > m_parNum2InitValue
 
std::map< int, int > m_parNum2parIdx
 
int m_printLevel
 
double m_radii [20]
 
std::vector< double * > m_residuals
 
std::vector< bool > m_residuals_ok
 
int m_residualsModel
 
int m_strategy
 
int m_useResiduals
 
std::vector< double > m_value
 
bool m_weightAlignment
 

Detailed Description

Date
2010/03/12 22:23:18
Revision
1.10
Author
J. Pivarski - Texas A&M University pivar.nosp@m.ski@.nosp@m.physi.nosp@m.cs.t.nosp@m.amu.e.nosp@m.du

Definition at line 12 of file MuonResidualsAngleFitter.h.

Member Enumeration Documentation

anonymous enum
anonymous enum

Constructor & Destructor Documentation

MuonResidualsAngleFitter::MuonResidualsAngleFitter ( int  residualsModel,
int  minHitsPerRegion,
int  useResiduals,
bool  weightAlignment = true 
)
inline

Definition at line 30 of file MuonResidualsAngleFitter.h.

tuple weightAlignment
Definition: align_cfg.py:30
MuonResidualsFitter(int residualsModel, int minHits, int useResiduals, bool weightAlignment=true)

Member Function Documentation

bool MuonResidualsAngleFitter::fit ( Alignable ali)
overridevirtual

Implements MuonResidualsFitter.

Definition at line 40 of file MuonResidualsAngleFitter.cc.

References MuonResidualsFitter::dofit(), MuonResidualsFitter::initialize_table(), kAngle, kGamma, MuonResidualsFitter::kGaussPowerTails, MuonResidualsFitter::kPureGaussian, kResidual, kSigma, kXControl, kYControl, MuonResidualsFitter::m_minHits, SiStripPI::mean, MuonResidualsAngleFitter_FCN(), N, funct::pow(), MuonResidualsFitter::residuals_begin(), MuonResidualsFitter::residuals_end(), MuonResidualsFitter::residualsModel(), mathSSE::sqrt(), command_line::start, plotscripts::stdev(), AlCaHLTBitMon_QueryRunRegistry::string, makeMuonMisalignmentScenario::sum_x, and makeMuonMisalignmentScenario::sum_xx.

Referenced by trackingPlots.Iteration::modules(), and ndata().

40  {
41  initialize_table(); // if not already initialized
42 
43  double sum_x = 0.;
44  double sum_xx = 0.;
45  int N = 0;
46 
47  for (std::vector<double*>::const_iterator resiter = residuals_begin(); resiter != residuals_end(); ++resiter) {
48  const double residual = (*resiter)[kResidual];
49 // const double xangle = (*resiter)[kXAngle];
50 // const double yangle = (*resiter)[kYAngle];
51 
52  if (fabs(residual) < 0.1) { // truncate at 100 mrad
53  sum_x += residual;
54  sum_xx += residual*residual;
55  N++;
56  }
57  }
58 
59  if (N < m_minHits) return false;
60 
61  // truncated mean and stdev to seed the fit
62  double mean = sum_x/double(N);
63  double stdev = sqrt(sum_xx/double(N) - pow(sum_x/double(N), 2));
64 
65  // refine the standard deviation calculation
66  sum_x = 0.;
67  sum_xx = 0.;
68  N = 0;
69  for (std::vector<double*>::const_iterator resiter = residuals_begin(); resiter != residuals_end(); ++resiter) {
70  const double residual = (*resiter)[kResidual];
71  if (mean - 1.5*stdev < residual && residual < mean + 1.5*stdev) {
72  sum_x += residual;
73  sum_xx += residual*residual;
74  N++;
75  }
76  }
77  mean = sum_x/double(N);
78  stdev = sqrt(sum_xx/double(N) - pow(sum_x/double(N), 2));
79 
80  sum_x = 0.;
81  sum_xx = 0.;
82  N = 0;
83  for (std::vector<double*>::const_iterator resiter = residuals_begin(); resiter != residuals_end(); ++resiter) {
84  const double residual = (*resiter)[kResidual];
85  if (mean - 1.5*stdev < residual && residual < mean + 1.5*stdev) {
86  sum_x += residual;
87  sum_xx += residual*residual;
88  N++;
89  }
90  }
91  mean = sum_x/double(N);
92  stdev = sqrt(sum_xx/double(N) - pow(sum_x/double(N), 2));
93 
94  std::vector<int> parNum;
95  std::vector<std::string> parName;
96  std::vector<double> start;
97  std::vector<double> step;
98  std::vector<double> low;
99  std::vector<double> high;
100 
101  parNum.push_back(kAngle); parName.push_back(std::string("angle")); start.push_back(mean); step.push_back(0.1); low.push_back(0.); high.push_back(0.);
102  parNum.push_back(kXControl); parName.push_back(std::string("xcontrol")); start.push_back(0.); step.push_back(0.1); low.push_back(0.); high.push_back(0.);
103  parNum.push_back(kYControl); parName.push_back(std::string("ycontrol")); start.push_back(0.); step.push_back(0.1); low.push_back(0.); high.push_back(0.);
104  parNum.push_back(kSigma); parName.push_back(std::string("sigma")); start.push_back(stdev); step.push_back(0.1*stdev); low.push_back(0.); high.push_back(0.);
106  parNum.push_back(kGamma); parName.push_back(std::string("gamma")); start.push_back(stdev); step.push_back(0.1*stdev); low.push_back(0.); high.push_back(0.);
107  }
108 
109  return dofit(&MuonResidualsAngleFitter_FCN, parNum, parName, start, step, low, high);
110 }
bool dofit(void(*fcn)(int &, double *, double &, double *, int), std::vector< int > &parNum, std::vector< std::string > &parName, std::vector< double > &start, std::vector< double > &step, std::vector< double > &low, std::vector< double > &high)
T sqrt(T t)
Definition: SSEVec.h:18
#define N
Definition: blowfish.cc:9
std::vector< double * >::const_iterator residuals_end() const
void MuonResidualsAngleFitter_FCN(int &npar, double *gin, double &fval, double *par, int iflag)
def stdev(xlist)
Definition: plotscripts.py:68
step
std::vector< double * >::const_iterator residuals_begin() const
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
void MuonResidualsAngleFitter::inform ( TMinuit *  tMinuit)
overrideprotectedvirtual

Implements MuonResidualsFitter.

Definition at line 5 of file MuonResidualsAngleFitter.cc.

References MuonResidualsAngleFitter_TMinuit.

Referenced by sumofweights().

5  {
7 }
static TMinuit * MuonResidualsAngleFitter_TMinuit
int MuonResidualsAngleFitter::ndata ( )
inlineoverridevirtual

Implements MuonResidualsFitter.

Definition at line 40 of file MuonResidualsAngleFitter.h.

References fit(), and kNData.

int MuonResidualsAngleFitter::npar ( )
inlineoverridevirtual
double MuonResidualsAngleFitter::plot ( std::string  name,
TFileDirectory dir,
Alignable ali 
)
overridevirtual

Implements MuonResidualsFitter.

Definition at line 112 of file MuonResidualsAngleFitter.cc.

References kAngle, kGamma, MuonResidualsFitter::kGaussPowerTails, MuonResidualsFitter::kPowerLawTails, MuonResidualsFitter::kPureGaussian, kResidual, MuonResidualsFitter::kROOTVoigt, kSigma, kXAngle, kXControl, kYAngle, kYControl, TFileDirectory::make(), MuonResidualsFitter_GaussPowerTails_TF1(), MuonResidualsFitter_powerLawTails_TF1(), MuonResidualsFitter_pureGaussian_TF1(), MuonResidualsFitter_ROOTVoigt_TF1(), MuonResidualsFitter::numResiduals(), MuonResidualsFitter::residuals_begin(), MuonResidualsFitter::residuals_end(), MuonResidualsFitter::residualsModel(), AlCaHLTBitMon_QueryRunRegistry::string, and MuonResidualsFitter::value().

Referenced by sumofweights().

112  {
113  std::stringstream raw_name, narrowed_name, xcontrol_name, ycontrol_name;
114  raw_name << name << "_raw";
115  narrowed_name << name << "_narrowed";
116  xcontrol_name << name << "_xcontrol";
117  ycontrol_name << name << "_ycontrol";
118 
119  TH1F *raw_hist = dir->make<TH1F>(raw_name.str().c_str(), (raw_name.str() + std::string(" (mrad)")).c_str(), 100, -100., 100.);
120  TH1F *narrowed_hist = dir->make<TH1F>(narrowed_name.str().c_str(), (narrowed_name.str() + std::string(" (mrad)")).c_str(), 100, -100., 100.);
121  TProfile *xcontrol_hist = dir->make<TProfile>(xcontrol_name.str().c_str(), (xcontrol_name.str() + std::string(" (mrad)")).c_str(), 100, -1., 1.);
122  TProfile *ycontrol_hist = dir->make<TProfile>(ycontrol_name.str().c_str(), (ycontrol_name.str() + std::string(" (mrad)")).c_str(), 100, -1., 1.);
123 
124  narrowed_name << "fit";
125  xcontrol_name << "fit";
126  ycontrol_name << "fit";
127 
128  double scale_factor = double(numResiduals()) * (100. - -100.)/100; // (max - min)/nbins
129 
130  TF1 *narrowed_fit = nullptr;
131  if (residualsModel() == kPureGaussian) {
132  narrowed_fit = new TF1(narrowed_name.str().c_str(), MuonResidualsFitter_pureGaussian_TF1, -100., 100., 3);
133  narrowed_fit->SetParameters(scale_factor, value(kAngle) * 1000., value(kSigma) * 1000.);
134  narrowed_fit->Write();
135  }
136  else if (residualsModel() == kPowerLawTails) {
137  narrowed_fit = new TF1(narrowed_name.str().c_str(), MuonResidualsFitter_powerLawTails_TF1, -100., 100., 4);
138  narrowed_fit->SetParameters(scale_factor, value(kAngle) * 1000., value(kSigma) * 1000., value(kGamma) * 1000.);
139  narrowed_fit->Write();
140  }
141  else if (residualsModel() == kROOTVoigt) {
142  narrowed_fit = new TF1(narrowed_name.str().c_str(), MuonResidualsFitter_ROOTVoigt_TF1, -100., 100., 4);
143  narrowed_fit->SetParameters(scale_factor, value(kAngle) * 1000., value(kSigma) * 1000., value(kGamma) * 1000.);
144  narrowed_fit->Write();
145  }
146  else if (residualsModel() == kGaussPowerTails) {
147  narrowed_fit = new TF1(narrowed_name.str().c_str(), MuonResidualsFitter_GaussPowerTails_TF1, -100., 100., 3);
148  narrowed_fit->SetParameters(scale_factor, value(kAngle) * 1000., value(kSigma) * 1000.);
149  narrowed_fit->Write();
150  }
151 
152  TF1 *xcontrol_fit = new TF1(xcontrol_name.str().c_str(), "[0]+x*[1]", -1., 1.);
153  xcontrol_fit->SetParameters(value(kAngle) * 1000., value(kXControl) * 1000.);
154  xcontrol_fit->Write();
155 
156  TF1 *ycontrol_fit = new TF1(ycontrol_name.str().c_str(), "[0]+x*[1]", -1., 1.);
157  ycontrol_fit->SetParameters(value(kAngle) * 1000., value(kYControl) * 1000.);
158  ycontrol_fit->Write();
159 
160  for (std::vector<double*>::const_iterator resiter = residuals_begin(); resiter != residuals_end(); ++resiter) {
161  const double raw_residual = (*resiter)[kResidual];
162  const double xangle = (*resiter)[kXAngle];
163  const double yangle = (*resiter)[kYAngle];
164 
165  double xangle_correction = value(kXControl) * xangle;
166  double yangle_correction = value(kYControl) * yangle;
167  double corrected_residual = raw_residual - xangle_correction - yangle_correction;
168 
169  raw_hist->Fill(raw_residual * 1000.);
170  narrowed_hist->Fill(corrected_residual * 1000.);
171 
172  xcontrol_hist->Fill(xangle, (raw_residual - yangle_correction) * 1000.);
173  ycontrol_hist->Fill(yangle, (raw_residual - xangle_correction) * 1000.);
174  }
175 
176  return 0.;
177 }
Double_t MuonResidualsFitter_powerLawTails_TF1(Double_t *xvec, Double_t *par)
double value(int parNum)
Double_t MuonResidualsFitter_GaussPowerTails_TF1(Double_t *xvec, Double_t *par)
T * make(const Args &...args) const
make new ROOT object
Double_t MuonResidualsFitter_pureGaussian_TF1(Double_t *xvec, Double_t *par)
std::vector< double * >::const_iterator residuals_end() const
Double_t MuonResidualsFitter_ROOTVoigt_TF1(Double_t *xvec, Double_t *par)
std::vector< double * >::const_iterator residuals_begin() const
double MuonResidualsAngleFitter::sumofweights ( )
inlineoverridevirtual
int MuonResidualsAngleFitter::type ( ) const
inlineoverridevirtual