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Reference Guide
FitResult.h
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1// @(#)root/mathcore:$Id$
2// Author: L. Moneta Wed Aug 30 11:05:34 2006
3
4/**********************************************************************
5 * *
6 * Copyright (c) 2006 LCG ROOT Math Team, CERN/PH-SFT *
7 * *
8 * *
9 **********************************************************************/
10
11// Header file for class FitResult
12
13#ifndef ROOT_Fit_FitResult
14#define ROOT_Fit_FitResult
15
16#include "Math/IFunctionfwd.h"
18
19#include <vector>
20#include <map>
21#include <string>
22#include <cmath>
23#include <cassert>
24#include <memory>
25
26namespace ROOT {
27
28 namespace Math {
29 class Minimizer;
30 }
31
32
33 namespace Fit {
34
35 class FitConfig;
36 class FitData;
37 class BinData;
38
39//___________________________________________________________________________________
40/**
41 class containg the result of the fit and all the related information
42 (fitted parameter values, error, covariance matrix and minimizer result information)
43 Contains a pointer also to the fitted (model) function, modified with the fit parameter values.
44 When the fit is valid, it is constructed from a Minimizer and a model function pointer
45
46 @ingroup FitMain
47*/
48class FitResult {
49
50public:
51
53
54 /**
55 Default constructor for an empty (non valid) fit result
56 */
57 FitResult ();
58
59 /**
60 Constructor from a fit-config for a dummy fit
61 (e.g. when only one fcn evaluation is done)
62 */
63 FitResult (const FitConfig & fconfig);
64
65
66 /**
67 Copy constructor.
68 */
69 FitResult(const FitResult & rhs);
70
71 /**
72 Assignment operator
73 */
74 FitResult & operator = (const FitResult & rhs);
75
76 /**
77 Destructor
78 */
79 virtual ~FitResult ();
80
81
82public:
83
84 /**
85 Fill the fit result from a Minimizer instance after fitting
86 Run also Minos if requested from the configuration
87 */
88 void FillResult(const std::shared_ptr<ROOT::Math::Minimizer> & min, const FitConfig & fconfig, const std::shared_ptr<IModelFunction> & f,
89 bool isValid, unsigned int sizeOfData = 0, bool binFit = true, const ROOT::Math::IMultiGenFunction * chi2func = 0, unsigned int ncalls = 0);
90
91
92 /**
93 Update the fit result with a new minimization status
94 To be run only if same fit is performed with same configuration
95 Note that in this case MINOS is not re-run. If one wants to run also MINOS
96 a new result must be created
97 */
98 bool Update(const std::shared_ptr<ROOT::Math::Minimizer> & min, bool isValid, unsigned int ncalls = 0 );
99
100 /** minimization quantities **/
101
102 /// minimizer type
103 const std::string & MinimizerType() const { return fMinimType; }
104
105 /**
106 True if fit successful, otherwise false.
107 A fit is considered successful if the minimizer succeded in finding the
108 minimum. It could happen that subsequent operations like error analysis (e.g. Minos)
109 failed. In that case the status can be still true if the original minimization algorithm
110 succeeded in finding the minimum.
111 One can query in that case the minimizer return status using Status().
112 It is responability to the Minimizer class to tag a found minimum as valid or not
113 and to produce also a status code.
114 */
115 bool IsValid() const { return fValid; }
116
117 /// True if a fit result does not exist (even invalid) with parameter values
118 bool IsEmpty() const { return (fParams.size() == 0); }
119
120 /// Return value of the objective function (chi2 or likelihood) used in the fit
121 double MinFcnValue() const { return fVal; }
122
123 ///Number of function calls to find minimum
124 unsigned int NCalls() const { return fNCalls; }
125
126 ///Expected distance from minimum
127 double Edm() const { return fEdm; }
128
129 /// get total number of parameters
130 unsigned int NTotalParameters() const { return fParams.size(); }
131 /// total number of parameters (abbreviation)
132 unsigned int NPar() const { return NTotalParameters(); }
133
134 /// get total number of free parameters
135 unsigned int NFreeParameters() const { return fNFree; }
136
137 /// minimizer status code
138 int Status() const { return fStatus; }
139
140 ///covariance matrix status code
141 /// using Minuit convention : =0 not calculated, =1 approximated, =2 made pos def , =3 accurate
142
143 int CovMatrixStatus() const { return fCovStatus; }
144
145 /** fitting quantities **/
146
147 /// Return pointer to model (fit) function with fitted parameter values.
148 /// Pointer is managed internally. I must not be deleted
150 return fFitFunc.get();
151 }
152
153 /// return BinData used in the fit (return a nullptr in case a different fit is done
154 /// or the data are not available
155 /// Pointer is managed internally, it must not be deleted
156 const BinData * FittedBinData() const;
157
158
159 /// Chi2 fit value
160 /// in case of likelihood must be computed ?
161 double Chi2() const { return fChi2; }
162
163 /// Number of degree of freedom
164 unsigned int Ndf() const { return fNdf; }
165
166 /// p value of the fit (chi2 probability)
167 double Prob() const;
168
169 /// parameter errors (return st::vector)
170 const std::vector<double> & Errors() const { return fErrors; }
171 /// parameter errors (return const pointer)
172 const double * GetErrors() const { return (fErrors.empty()) ? 0 : &fErrors.front(); }
173
174 /// parameter values (return std::vector)
175 const std::vector<double> & Parameters() const { return fParams; }
176 /// parameter values (return const pointer)
177 const double * GetParams() const { return &fParams.front(); }
178
179 /// parameter value by index
180 double Value(unsigned int i) const { return fParams[i]; }
181 /// parameter value by index
182 double Parameter(unsigned int i) const { return fParams[i]; }
183
184 /// parameter error by index
185 // (NOTE: this due to conflict with TObject::Error cannot used in derived class which
186 // inherits from TObject. Use instead ParError (or Errors()[i] )
187 double Error(unsigned int i) const {
188 return (i < fErrors.size() ) ? fErrors[i] : 0;
189 }
190 /// parameter error by index
191 double ParError(unsigned int i) const {
192 return (i < fErrors.size() ) ? fErrors[i] : 0;
193 }
194
195 /// name of the parameter
196 std::string ParName(unsigned int i) const;
197
198 /// set the Minos errors for parameter i (called by the Fitter class when running Minos)
199 void SetMinosError(unsigned int i, double elow, double eup);
200
201 /// query if parameter i has the Minos error
202 bool HasMinosError(unsigned int i) const;
203
204 /// lower Minos error. If Minos has not run for parameter i return the parabolic error
205 double LowerError(unsigned int i) const;
206
207 /// upper Minos error. If Minos has not run for parameter i return the parabolic error
208 double UpperError(unsigned int i) const;
209
210 /// parameter global correlation coefficient
211 double GlobalCC(unsigned int i) const {
212 return (i < fGlobalCC.size() ) ? fGlobalCC[i] : -1;
213 }
214
215
216 /// retrieve covariance matrix element
217 double CovMatrix (unsigned int i, unsigned int j) const {
218 if ( i >= fErrors.size() || j >= fErrors.size() ) return 0;
219 if (fCovMatrix.size() == 0) return 0; // no matrix is available in case of non-valid fits
220 if ( j < i )
221 return fCovMatrix[j + i* (i+1) / 2];
222 else
223 return fCovMatrix[i + j* (j+1) / 2];
224 }
225
226 /// retrieve correlation elements
227 double Correlation(unsigned int i, unsigned int j ) const {
228 if ( i >= fErrors.size() || j >= fErrors.size() ) return 0;
229 if (fCovMatrix.size() == 0) return 0; // no matrix is available in case of non-valid fits
230 double tmp = CovMatrix(i,i)*CovMatrix(j,j);
231 return ( tmp > 0) ? CovMatrix(i,j)/ std::sqrt(tmp) : 0;
232 }
233
234 /// fill covariance matrix elements using a generic matrix class implementing operator(i,j)
235 /// the matrix must be previously allocates with right size (npar * npar)
236 template<class Matrix>
237 void GetCovarianceMatrix(Matrix & mat) const {
238 unsigned int npar = fErrors.size();
239 if (fCovMatrix.size() != npar*(npar+1)/2 ) return; // do nothing
240 for (unsigned int i = 0; i< npar; ++i) {
241 for (unsigned int j = 0; j<=i; ++j) {
242 mat(i,j) = fCovMatrix[j + i*(i+1)/2 ];
243 if (i != j) mat(j,i) = mat(i,j);
244 }
245 }
246 }
247
248 /// fill a correlation matrix elements using a generic symmetric matrix class implementing operator(i,j)
249 /// the matrix must be previously allocates with right size (npar * npar)
250 template<class Matrix>
251 void GetCorrelationMatrix(Matrix & mat) const {
252 unsigned int npar = fErrors.size();
253 if (fCovMatrix.size() != npar*(npar+1)/2) return; // do nothing
254 for (unsigned int i = 0; i< npar; ++i) {
255 for (unsigned int j = 0; j<=i; ++j) {
256 double tmp = fCovMatrix[i * (i +3)/2 ] * fCovMatrix[ j * (j+3)/2 ];
257 mat(i,j) = (tmp > 0) ? fCovMatrix[j + i*(i+1)/2 ] / std::sqrt(tmp) : 0;
258 if (i != j) mat(j,i) = mat(i,j);
259 }
260 }
261 }
262
263 /**
264 get confidence intervals for an array of n points x.
265 stride1 indicates the stride in the coordinate space while stride2 the stride in dimension space.
266 For 1-dim points : stride1=1, stride2=1
267 for multi-dim points arranged as (x0,x1,...,xN,y0,....yN) stride1=1 stride2=n
268 for multi-dim points arraged as (x0,y0,..,x1,y1,...,xN,yN,..) stride1=ndim, stride2=1
269
270 the confidence interval are returned in the array ci
271 cl is the desired confidedence interval value
272 norm is a flag to control if the intervals need to be normalized to the chi2/ndf value
273 The intervals can be corrected optionally using the chi2/ndf value of the fit if a chi2 fit is performed.
274 This has changed since ROOT 6.14, before the interval were corrected by default.
275 */
276 void GetConfidenceIntervals(unsigned int n, unsigned int stride1, unsigned int stride2, const double * x, double * ci, double cl=0.95, bool norm = false ) const;
277
278 /**
279 evaluate confidence interval for the point specified in the passed data sets
280 the confidence interval are returned in the array ci
281 cl is the desired confidence interval value.
282 This method is mantained for backward compatibility and will be deprecated
283 */
284 void GetConfidenceIntervals(const BinData & data, double * ci, double cl=0.95, bool norm = false ) const;
285
286 /**
287 evaluate confidence interval for the data set used in the last fit
288 the confidence interval are returned as a vector of data points
289 */
290 std::vector<double> GetConfidenceIntervals(double cl=0.95, bool norm = false ) const;
291
292
293 /// get index for parameter name (return -1 if not found)
294 int Index(const std::string & name) const;
295
296
297 ///normalize errors using chi2/ndf for chi2 fits
298 void NormalizeErrors();
299
300 /// flag to chek if errors are normalized
301 bool NormalizedErrors() const { return fNormalized; }
302
303 /// print the result and optionaly covariance matrix and correlations
304 void Print(std::ostream & os, bool covmat = false) const;
305
306 ///print error matrix and correlations
307 void PrintCovMatrix(std::ostream & os) const;
308
309 /// query if a parameter is bound
310 bool IsParameterBound(unsigned int ipar) const;
311
312 /// query if a parameter is fixed
313 bool IsParameterFixed(unsigned int ipar) const;
314
315 /// retrieve parameter bounds - return false if parameter is not bound
316 bool ParameterBounds(unsigned int ipar, double &lower, double &upper) const;
317
318
319 /// get name of parameter (deprecated)
320 std::string GetParameterName(unsigned int ipar) const {
321 return ParName(ipar);
322 }
323
324
325protected:
326
327
328 /// Return pointer non const pointer to model (fit) function with fitted parameter values.
329 /// used by Fitter class
330 std::shared_ptr<IModelFunction> ModelFunction() { return fFitFunc; }
331 void SetModelFunction(const std::shared_ptr<IModelFunction> & func) { fFitFunc = func; }
332
333
334 friend class Fitter;
335
336
337 bool fValid; // flag for indicating valid fit
338 bool fNormalized; // flag for indicating is errors are normalized
339 unsigned int fNFree; // number of fit free parameters (total parameters are in size of parameter vector)
340 unsigned int fNdf; // number of degree of freedom
341 unsigned int fNCalls; // number of function calls
342 int fStatus; // minimizer status code
343 int fCovStatus; // covariance matrix status code
344 double fVal; // minimum function value
345 double fEdm; // expected distance from mimimum
346 double fChi2; // fit chi2 value (different than fval in case of chi2 fits)
347 std::shared_ptr<ROOT::Math::Minimizer> fMinimizer; //! minimizer object used for fitting
348 std::shared_ptr<ROOT::Math::IMultiGenFunction> fObjFunc; //! objective function used for fitting
349 std::shared_ptr<IModelFunction> fFitFunc; //! model function resulting from the fit.
350 std::shared_ptr<FitData> fFitData; //! data set used in the fit
351 std::map<unsigned int, bool> fFixedParams; // list of fixed parameters
352 std::map<unsigned int, unsigned int> fBoundParams; // list of limited parameters
353 std::vector<std::pair<double,double> > fParamBounds; // parameter bounds
354 std::vector<double> fParams; // parameter values. Size is total number of parameters
355 std::vector<double> fErrors; // errors
356 std::vector<double> fCovMatrix; // covariance matrix (size is npar*(npar+1)/2) where npar is total parameters
357 std::vector<double> fGlobalCC; // global Correlation coefficient
358 std::map<unsigned int, std::pair<double,double> > fMinosErrors; // map contains the two Minos errors
359 std::string fMinimType; // string indicating type of minimizer
360 std::vector<std::string> fParNames; // parameter names (only with FCN only fits, when fFitFunc=0)
361
362};
363
364
365 } // end namespace Fit
366
367} // end namespace ROOT
368
369
370
371
372
373#endif /* ROOT_Fit_FitResult */
#define f(i)
Definition: RSha256.hxx:104
double sqrt(double)
Class describing the binned data sets : vectors of x coordinates, y values and optionally error on y ...
Definition: BinData.h:53
Class describing the configuration of the fit, options and parameter settings using the ROOT::Fit::Pa...
Definition: FitConfig.h:46
class containg the result of the fit and all the related information (fitted parameter values,...
Definition: FitResult.h:48
std::vector< double > fGlobalCC
Definition: FitResult.h:357
bool IsValid() const
True if fit successful, otherwise false.
Definition: FitResult.h:115
bool IsEmpty() const
True if a fit result does not exist (even invalid) with parameter values.
Definition: FitResult.h:118
unsigned int fNFree
Definition: FitResult.h:339
std::map< unsigned int, unsigned int > fBoundParams
Definition: FitResult.h:352
const BinData * FittedBinData() const
return BinData used in the fit (return a nullptr in case a different fit is done or the data are not ...
Definition: FitResult.cxx:679
double ParError(unsigned int i) const
parameter error by index
Definition: FitResult.h:191
double UpperError(unsigned int i) const
upper Minos error. If Minos has not run for parameter i return the parabolic error
Definition: FitResult.cxx:396
void FillResult(const std::shared_ptr< ROOT::Math::Minimizer > &min, const FitConfig &fconfig, const std::shared_ptr< IModelFunction > &f, bool isValid, unsigned int sizeOfData=0, bool binFit=true, const ROOT::Math::IMultiGenFunction *chi2func=0, unsigned int ncalls=0)
Fill the fit result from a Minimizer instance after fitting Run also Minos if requested from the conf...
Definition: FitResult.cxx:100
FitResult & operator=(const FitResult &rhs)
Assignment operator.
Definition: FitResult.cxx:248
std::vector< double > fErrors
Definition: FitResult.h:355
bool NormalizedErrors() const
flag to chek if errors are normalized
Definition: FitResult.h:301
const std::vector< double > & Errors() const
parameter errors (return st::vector)
Definition: FitResult.h:170
const double * GetErrors() const
parameter errors (return const pointer)
Definition: FitResult.h:172
std::shared_ptr< ROOT::Math::Minimizer > fMinimizer
Definition: FitResult.h:347
bool IsParameterFixed(unsigned int ipar) const
query if a parameter is fixed
Definition: FitResult.cxx:422
unsigned int fNdf
Definition: FitResult.h:340
const double * GetParams() const
parameter values (return const pointer)
Definition: FitResult.h:177
ROOT::Math::IParamMultiFunction IModelFunction
Definition: FitResult.h:52
double Error(unsigned int i) const
parameter error by index
Definition: FitResult.h:187
double CovMatrix(unsigned int i, unsigned int j) const
retrieve covariance matrix element
Definition: FitResult.h:217
void GetConfidenceIntervals(unsigned int n, unsigned int stride1, unsigned int stride2, const double *x, double *ci, double cl=0.95, bool norm=false) const
get confidence intervals for an array of n points x.
Definition: FitResult.cxx:560
double Value(unsigned int i) const
parameter value by index
Definition: FitResult.h:180
const std::vector< double > & Parameters() const
parameter values (return std::vector)
Definition: FitResult.h:175
FitResult()
Default constructor for an empty (non valid) fit result.
Definition: FitResult.cxx:45
std::shared_ptr< FitData > fFitData
model function resulting from the fit.
Definition: FitResult.h:350
const std::string & MinimizerType() const
minimization quantities
Definition: FitResult.h:103
std::string GetParameterName(unsigned int ipar) const
get name of parameter (deprecated)
Definition: FitResult.h:320
bool ParameterBounds(unsigned int ipar, double &lower, double &upper) const
retrieve parameter bounds - return false if parameter is not bound
Definition: FitResult.cxx:426
unsigned int Ndf() const
Number of degree of freedom.
Definition: FitResult.h:164
double Chi2() const
Chi2 fit value in case of likelihood must be computed ?
Definition: FitResult.h:161
std::vector< double > fParams
Definition: FitResult.h:354
std::vector< double > fCovMatrix
Definition: FitResult.h:356
void SetMinosError(unsigned int i, double elow, double eup)
set the Minos errors for parameter i (called by the Fitter class when running Minos)
Definition: FitResult.cxx:403
void Print(std::ostream &os, bool covmat=false) const
print the result and optionaly covariance matrix and correlations
Definition: FitResult.cxx:446
double LowerError(unsigned int i) const
lower Minos error. If Minos has not run for parameter i return the parabolic error
Definition: FitResult.cxx:389
std::shared_ptr< IModelFunction > ModelFunction()
Return pointer non const pointer to model (fit) function with fitted parameter values.
Definition: FitResult.h:330
void PrintCovMatrix(std::ostream &os) const
print error matrix and correlations
Definition: FitResult.cxx:501
unsigned int fNCalls
Definition: FitResult.h:341
void GetCorrelationMatrix(Matrix &mat) const
fill a correlation matrix elements using a generic symmetric matrix class implementing operator(i,...
Definition: FitResult.h:251
bool HasMinosError(unsigned int i) const
query if parameter i has the Minos error
Definition: FitResult.cxx:382
std::vector< std::pair< double, double > > fParamBounds
Definition: FitResult.h:353
double MinFcnValue() const
Return value of the objective function (chi2 or likelihood) used in the fit.
Definition: FitResult.h:121
unsigned int NPar() const
total number of parameters (abbreviation)
Definition: FitResult.h:132
int CovMatrixStatus() const
covariance matrix status code using Minuit convention : =0 not calculated, =1 approximated,...
Definition: FitResult.h:143
double Edm() const
Expected distance from minimum.
Definition: FitResult.h:127
std::shared_ptr< IModelFunction > fFitFunc
objective function used for fitting
Definition: FitResult.h:349
std::map< unsigned int, bool > fFixedParams
data set used in the fit
Definition: FitResult.h:351
std::string fMinimType
Definition: FitResult.h:359
unsigned int NCalls() const
Number of function calls to find minimum.
Definition: FitResult.h:124
double Correlation(unsigned int i, unsigned int j) const
retrieve correlation elements
Definition: FitResult.h:227
bool Update(const std::shared_ptr< ROOT::Math::Minimizer > &min, bool isValid, unsigned int ncalls=0)
Update the fit result with a new minimization status To be run only if same fit is performed with sam...
Definition: FitResult.cxx:291
std::shared_ptr< ROOT::Math::IMultiGenFunction > fObjFunc
minimizer object used for fitting
Definition: FitResult.h:348
unsigned int NTotalParameters() const
get total number of parameters
Definition: FitResult.h:130
virtual ~FitResult()
Destructor.
Definition: FitResult.cxx:236
int Index(const std::string &name) const
get index for parameter name (return -1 if not found)
Definition: FitResult.cxx:408
double Prob() const
p value of the fit (chi2 probability)
Definition: FitResult.cxx:377
std::string ParName(unsigned int i) const
name of the parameter
Definition: FitResult.cxx:439
void GetCovarianceMatrix(Matrix &mat) const
fill covariance matrix elements using a generic matrix class implementing operator(i,...
Definition: FitResult.h:237
void NormalizeErrors()
normalize errors using chi2/ndf for chi2 fits
Definition: FitResult.cxx:363
void SetModelFunction(const std::shared_ptr< IModelFunction > &func)
Definition: FitResult.h:331
unsigned int NFreeParameters() const
get total number of free parameters
Definition: FitResult.h:135
bool IsParameterBound(unsigned int ipar) const
query if a parameter is bound
Definition: FitResult.cxx:418
double Parameter(unsigned int i) const
parameter value by index
Definition: FitResult.h:182
int Status() const
minimizer status code
Definition: FitResult.h:138
std::vector< std::string > fParNames
Definition: FitResult.h:360
std::map< unsigned int, std::pair< double, double > > fMinosErrors
Definition: FitResult.h:358
const IModelFunction * FittedFunction() const
fitting quantities
Definition: FitResult.h:149
double GlobalCC(unsigned int i) const
parameter global correlation coefficient
Definition: FitResult.h:211
Fitter class, entry point for performing all type of fits.
Definition: Fitter.h:77
Documentation for the abstract class IBaseFunctionMultiDim.
Definition: IFunction.h:62
Double_t x[n]
Definition: legend1.C:17
const Int_t n
Definition: legend1.C:16
TFitResultPtr Fit(FitObject *h1, TF1 *f1, Foption_t &option, const ROOT::Math::MinimizerOptions &moption, const char *goption, ROOT::Fit::DataRange &range)
Definition: HFitImpl.cxx:134
Namespace for new Math classes and functions.
Namespace for new ROOT classes and functions.
Definition: StringConv.hxx:21
RooCmdArg Minimizer(const char *type, const char *alg=0)