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PSFitter::HybridMinimizer Class Reference

#include <HybridMinimizer.h>

Inheritance diagram for PSFitter::HybridMinimizer:

Public Types

enum  EMinimizerType {
  kMigrad, kSimplex, kCombined, kScan,
  kFumili
}
 

Public Member Functions

virtual void Clear ()
 
virtual bool Contour (unsigned int i, unsigned int j, unsigned int &npoints, double *xi, double *xj)
 
virtual double Correlation (unsigned int i, unsigned int j) const
 
virtual double CovMatrix (unsigned int i, unsigned int j) const
 
virtual int CovMatrixStatus () const
 
virtual double Edm () const
 return expected distance reached from the minimum More...
 
virtual const double * Errors () const
 return errors at the minimum More...
 
virtual bool GetCovMatrix (double *cov) const
 
virtual bool GetHessianMatrix (double *h) const
 
virtual bool GetMinosError (unsigned int i, double &errLow, double &errUp, int=0)
 
virtual double GlobalCC (unsigned int i) const
 
virtual bool Hesse ()
 
 HybridMinimizer (EMinimizerType type=kMigrad)
 
 HybridMinimizer (const char *type)
 
virtual const double * MinGradient () const
 return pointer to gradient values at the minimum More...
 
virtual bool Minimize ()
 
virtual double MinValue () const
 return minimum function value More...
 
virtual unsigned int NCalls () const
 number of function calls to reach the minimum More...
 
virtual unsigned int NDim () const
 
virtual unsigned int NFree () const
 
virtual void PrintResults ()
 print result of minimization More...
 
virtual bool ProvidesError () const
 minimizer provides error and error matrix More...
 
virtual bool Scan (unsigned int i, unsigned int &nstep, double *x, double *y, double xmin=0, double xmax=0)
 
virtual bool SetFixedVariable (unsigned int, const std::string &, double)
 set fixed variable (override if minimizer supports them ) More...
 
virtual void SetFunction (const ROOT::Math::IMultiGenFunction &func)
 set the function to minimize More...
 
virtual void SetFunction (const ROOT::Math::IMultiGradFunction &func)
 set gradient the function to minimize More...
 
virtual bool SetLimitedVariable (unsigned int ivar, const std::string &name, double val, double step, double, double)
 set upper/lower limited variable (override if minimizer supports them ) More...
 
virtual bool SetLowerLimitedVariable (unsigned int ivar, const std::string &name, double val, double step, double lower)
 set lower limit variable (override if minimizer supports them ) More...
 
void SetMinimizerType (EMinimizerType type)
 
virtual bool SetUpperLimitedVariable (unsigned int ivar, const std::string &name, double val, double step, double upper)
 set upper limit variable (override if minimizer supports them ) More...
 
virtual bool SetVariable (unsigned int ivar, const std::string &name, double val, double step)
 set free variable More...
 
virtual bool SetVariableValue (unsigned int ivar, double val)
 set variable More...
 
virtual bool SetVariableValues (const double *val)
 
const
ROOT::Minuit2::MnUserParameterState & 
State ()
 return the minimizer state (containing values, step size , etc..) More...
 
virtual int VariableIndex (const std::string &name) const
 
virtual std::string VariableName (unsigned int ivar) const
 get name of variables (override if minimizer support storing of variable names) More...
 
virtual const double * X () const
 return pointer to X values at the minimum More...
 
virtual ~HybridMinimizer ()
 

Protected Member Functions

bool ExamineMinimum (const ROOT::Minuit2::FunctionMinimum &min)
 examine the minimum result More...
 
virtual const
ROOT::Minuit2::FCNBase * 
GetFCN () const
 
virtual const
ROOT::Minuit2::ModularFunctionMinimizer * 
GetMinimizer () const
 
virtual void SetMinimizer (ROOT::Minuit2::ModularFunctionMinimizer *m)
 

Private Member Functions

 HybridMinimizer (const HybridMinimizer &)
 
HybridMinimizeroperator= (const HybridMinimizer &rhs)
 

Private Attributes

unsigned int fDim
 
std::vector< double > fErrors
 
ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer
 
ROOT::Minuit2::FunctionMinimum * fMinimum
 
ROOT::Minuit2::FCNBase * fMinuitFCN
 
ROOT::Minuit2::MnUserParameterState fState
 
bool fUseFumili
 
std::vector< double > fValues
 

Detailed Description

Definition at line 45 of file HybridMinimizer.h.

Member Enumeration Documentation

Constructor & Destructor Documentation

PSFitter::HybridMinimizer::HybridMinimizer ( EMinimizerType  type = kMigrad)

Default constructor

Definition at line 73 of file HybridMinimizer.cc.

References SetMinimizerType().

73  :
74  Minimizer(),
75  fDim(0),
76  fMinimizer(0),
77  fMinuitFCN(0),
78  fMinimum(0)
79 {
80  // Default constructor implementation depending on minimizer type
82 }
type
Definition: HCALResponse.h:21
ROOT::Minuit2::FCNBase * fMinuitFCN
ROOT::Minuit2::FunctionMinimum * fMinimum
void SetMinimizerType(EMinimizerType type)
ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer
PSFitter::HybridMinimizer::HybridMinimizer ( const char *  type)

Constructor with a char (used by PM)

Definition at line 84 of file HybridMinimizer.cc.

References HLT_25ns10e33_v2_cff::algoType, kCombined, kFumili, kMigrad, kScan, kSimplex, SetMinimizerType(), AlCaHLTBitMon_QueryRunRegistry::string, and create_public_lumi_plots::transform.

84  :
85  Minimizer(),
86  fDim(0),
87  fMinimizer(0),
88  fMinuitFCN(0),
89  fMinimum(0)
90 {
91  // constructor from a string
92 
93  std::string algoname(type);
94  // tolower() is not an std function (Windows)
95  std::transform(algoname.begin(), algoname.end(), algoname.begin(), (int(*)(int)) tolower );
96 
98  if (algoname == "simplex") algoType = kSimplex;
99  if (algoname == "minimize" ) algoType = kCombined;
100  if (algoname == "scan" ) algoType = kScan;
101  if (algoname == "fumili" ) algoType = kFumili;
102 
103  SetMinimizerType(algoType);
104 }
type
Definition: HCALResponse.h:21
ROOT::Minuit2::FCNBase * fMinuitFCN
ROOT::Minuit2::FunctionMinimum * fMinimum
void SetMinimizerType(EMinimizerType type)
ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer
PSFitter::HybridMinimizer::~HybridMinimizer ( )
virtual

Destructor (no operations)

Definition at line 138 of file HybridMinimizer.cc.

References fMinimizer, fMinimum, and fMinuitFCN.

139 {
140  // Destructor implementation.
141  if (fMinimizer) delete fMinimizer;
142  if (fMinuitFCN) delete fMinuitFCN;
143  if (fMinimum) delete fMinimum;
144 }
ROOT::Minuit2::FCNBase * fMinuitFCN
ROOT::Minuit2::FunctionMinimum * fMinimum
ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer
PSFitter::HybridMinimizer::HybridMinimizer ( const HybridMinimizer )
private

Copy constructor

Definition at line 146 of file HybridMinimizer.cc.

146  :
147  ROOT::Math::Minimizer()
148 {
149  // Implementation of copy constructor.
150 }

Member Function Documentation

void PSFitter::HybridMinimizer::Clear ( )
virtual

Definition at line 160 of file HybridMinimizer.cc.

References fMinimum, and fState.

Referenced by PulseShapeFitOOTPileupCorrection::fit().

160  {
161  // delete the state in case of consecutive minimizations
162  fState = MnUserParameterState();
163  // clear also the function minimum
164  if (fMinimum) delete fMinimum;
165  fMinimum = 0;
166 }
ROOT::Minuit2::MnUserParameterState fState
ROOT::Minuit2::FunctionMinimum * fMinimum
bool PSFitter::HybridMinimizer::Contour ( unsigned int  i,
unsigned int  j,
unsigned int &  npoints,
double *  xi,
double *  xj 
)
virtual

find the contour points (xi,xj) of the function for parameter i and j around the minimum The contour will be find for value of the function = Min + ErrorUp();

Definition at line 845 of file HybridMinimizer.cc.

References assert(), fMinimum, fMinuitFCN, fState, i, npoints, PSFitter::RestoreGlobalPrintLevel(), mps_fire::result, and PSFitter::TurnOffPrintInfoLevel().

845  {
846  // contour plot for parameter i and j
847  // need a valid FunctionMinimum otherwise exits
848  if (fMinimum == 0) {
849  MN_ERROR_MSG2("HybridMinimizer::Contour"," no function minimum existing. Must minimize function before");
850  return false;
851  }
852 
853  if (!fMinimum->IsValid() ) {
854  MN_ERROR_MSG2("HybridMinimizer::Contour","Invalid function minimum");
855  return false;
856  }
857  assert(fMinuitFCN);
858 
859  fMinuitFCN->SetErrorDef(ErrorDef() );
860  // if error def has been changed update it in FunctionMinimum
861  if (ErrorDef() != fMinimum->Up() )
862  fMinimum->SetErrorDef(ErrorDef() );
863 
864  // switch off Minuit2 printing (for level of 0,1)
865  int prev_level = (PrintLevel() <= 1 ) ? TurnOffPrintInfoLevel() : -2;
866 
867  MnPrint::SetLevel( PrintLevel() );
868 
869  // set the precision if needed
870  if (Precision() > 0) fState.SetPrecision(Precision());
871 
872  // eventually one should specify tolerance in contours
873  MnContours contour(*fMinuitFCN, *fMinimum, Strategy() );
874 
875  if (prev_level > -2) RestoreGlobalPrintLevel(prev_level);
876 
877  std::vector<std::pair<double,double> > result = contour(ipar,jpar, npoints);
878  if (result.size() != npoints) {
879  MN_ERROR_MSG2("HybridMinimizer::Contour"," Invalid result from MnContours");
880  return false;
881  }
882  for (unsigned int i = 0; i < npoints; ++i ) {
883  x[i] = result[i].first;
884  y[i] = result[i].second;
885  }
886 
887 
888  return true;
889 
890 
891 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
assert(m_qm.get())
ROOT::Minuit2::FCNBase * fMinuitFCN
ROOT::Minuit2::FunctionMinimum * fMinimum
tuple result
Definition: mps_fire.py:83
static const int npoints
int TurnOffPrintInfoLevel()
void RestoreGlobalPrintLevel(int)
double PSFitter::HybridMinimizer::Correlation ( unsigned int  i,
unsigned int  j 
) const
virtual

return correlation coefficient between variable i and j. If the variable is fixed or const the return value is zero

Definition at line 614 of file HybridMinimizer.cc.

References funct::abs(), fDim, fState, relval_2017::k, cmsLHEtoEOSManager::l, mathSSE::sqrt(), and tmp.

614  {
615  // get correlation between parameter i and j
616  if ( i >= fDim || i >= fDim) return 0;
617  if ( !fState.HasCovariance() ) return 0; // no info available when minimization has failed
618  if (fState.Parameter(i).IsFixed() || fState.Parameter(i).IsConst() ) return 0;
619  if (fState.Parameter(j).IsFixed() || fState.Parameter(j).IsConst() ) return 0;
620  unsigned int k = fState.IntOfExt(i);
621  unsigned int l = fState.IntOfExt(j);
622  double cij = fState.IntCovariance()(k,l);
623  double tmp = std::sqrt( std::abs ( fState.IntCovariance()(k,k) * fState.IntCovariance()(l,l) ) );
624  if (tmp > 0 ) return cij/tmp;
625  return 0;
626 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int j
Definition: DBlmapReader.cc:9
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100
double PSFitter::HybridMinimizer::CovMatrix ( unsigned int  i,
unsigned int  j 
) const
virtual

return covariance matrix elements if the variable is fixed or const the value is zero The ordering of the variables is the same as in errors and parameter value. This is different from the direct interface of Minuit2 or TMinuit where the values were obtained only to variable parameters

Definition at line 547 of file HybridMinimizer.cc.

References fDim, fState, relval_2017::k, and cmsLHEtoEOSManager::l.

547  {
548  // get value of covariance matrices (transform from external to internal indices)
549  if ( i >= fDim || i >= fDim) return 0;
550  if ( !fState.HasCovariance() ) return 0; // no info available when minimization has failed
551  if (fState.Parameter(i).IsFixed() || fState.Parameter(i).IsConst() ) return 0;
552  if (fState.Parameter(j).IsFixed() || fState.Parameter(j).IsConst() ) return 0;
553  unsigned int k = fState.IntOfExt(i);
554  unsigned int l = fState.IntOfExt(j);
555  return fState.Covariance()(k,l);
556 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
int j
Definition: DBlmapReader.cc:9
int PSFitter::HybridMinimizer::CovMatrixStatus ( ) const
virtual

return the status of the covariance matrix status = -1 : not available (inversion failed or Hesse failed) status = 0 : available but not positive defined status = 1 : covariance only approximate status = 2 : full matrix but forced pos def status = 3 : full accurate matrix

Definition at line 955 of file HybridMinimizer.cc.

References fMinimum, and fState.

955  {
956  // return status of covariance matrix
957  //-1 - not available (inversion failed or Hesse failed)
958  // 0 - available but not positive defined
959  // 1 - covariance only approximate
960  // 2 full matrix but forced pos def
961  // 3 full accurate matrix
962 
963  if (fMinimum) {
964  // case a function minimum is available
965  if (fMinimum->HasAccurateCovar() ) return 3;
966  else if (fMinimum->HasMadePosDefCovar() ) return 2;
967  else if (fMinimum->HasValidCovariance() ) return 1;
968  else if (fMinimum->HasCovariance() ) return 0;
969  return -1;
970  }
971  else {
972  // case fMinimum is not available - use state information
973  return fState.CovarianceStatus();
974  }
975  return 0;
976 }
ROOT::Minuit2::MnUserParameterState fState
ROOT::Minuit2::FunctionMinimum * fMinimum
virtual double PSFitter::HybridMinimizer::Edm ( ) const
inlinevirtual

return expected distance reached from the minimum

Definition at line 136 of file HybridMinimizer.h.

References fState.

136 { return fState.Edm(); }
ROOT::Minuit2::MnUserParameterState fState
const double * PSFitter::HybridMinimizer::Errors ( ) const
virtual

return errors at the minimum

Definition at line 527 of file HybridMinimizer.cc.

References assert(), fDim, fErrors, fState, and i.

527  {
528  // return error at minimum (set to zero for fixed and constant params)
529  const std::vector<MinuitParameter> & paramsObj = fState.MinuitParameters();
530  if (paramsObj.size() == 0) return 0;
531  assert(fDim == paramsObj.size());
532  // be careful for multiple calls of this function. I will redo an allocation here
533  // only when size of vectors has changed (e.g. after a new minimization)
534  if (fErrors.size() != fDim) fErrors.resize( fDim );
535  for (unsigned int i = 0; i < fDim; ++i) {
536  const MinuitParameter & par = paramsObj[i];
537  if (par.IsFixed() || par.IsConst() )
538  fErrors[i] = 0;
539  else
540  fErrors[i] = par.Error();
541  }
542 
543  return &fErrors.front();
544 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
assert(m_qm.get())
std::vector< double > fErrors
bool PSFitter::HybridMinimizer::ExamineMinimum ( const ROOT::Minuit2::FunctionMinimum &  min)
protected

examine the minimum result

study the function minimum

Definition at line 411 of file HybridMinimizer.cc.

References HLT_25ns10e33_v2_cff::debugLevel, visualization-live-secondInstance_cfg::msg, PrintResults(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by Minimize().

411  {
413 
414  // debug ( print all the states)
415  int debugLevel = PrintLevel();
416  if (debugLevel >= 3) {
417 /*
418  const std::vector<ROOT::Minuit2::MinimumState>& iterationStates = min.States();
419  std::cout << "Number of iterations " << iterationStates.size() << std::endl;
420  for (unsigned int i = 0; i < iterationStates.size(); ++i) {
421  //std::cout << iterationStates[i] << std::endl;
422  const ROOT::Minuit2::MinimumState & st = iterationStates[i];
423  std::cout << "----------> Iteration " << i << std::endl;
424  int pr = std::cout.precision(12);
425  std::cout << " FVAL = " << st.Fval() << " Edm = " << st.Edm() << " Nfcn = " << st.NFcn() << std::endl;
426  std::cout.precision(pr);
427  std::cout << " Error matrix change = " << st.Error().Dcovar() << std::endl;
428  std::cout << " Parameters : ";
429  // need to transform from internal to external
430  for (int j = 0; j < st.size() ; ++j) std::cout << " p" << j << " = " << fState.Int2ext( j, st.Vec()(j) );
431  std::cout << std::endl;
432  }
433 */
434  }
435 
436  fStatus = 0;
437  std::string txt;
438  if (min.HasMadePosDefCovar() ) {
439  txt = "Covar was made pos def";
440  fStatus = 1;
441  }
442  if (min.HesseFailed() ) {
443  txt = "Hesse is not valid";
444  fStatus = 2;
445  }
446  if (min.IsAboveMaxEdm() ) {
447  txt = "Edm is above max";
448  fStatus = 3;
449  }
450  if (min.HasReachedCallLimit() ) {
451  txt = "Reached call limit";
452  fStatus = 4;
453  }
454 
455 
456  bool validMinimum = min.IsValid();
457  if (validMinimum) {
458  // print a warning message in case something is not ok
459  if (fStatus != 0 && debugLevel > 0) MN_INFO_MSG2("HybridMinimizer::Minimize",txt);
460  }
461  else {
462  // minimum is not valid when state is not valid and edm is over max or has passed call limits
463  if (fStatus == 0) {
464  // this should not happen
465  txt = "unknown failure";
466  fStatus = 5;
467  }
468  std::string msg = "Minimization did NOT converge, " + txt;
469  MN_INFO_MSG2("HybridMinimizer::Minimize",msg);
470  }
471 
472  if (debugLevel >= 1) PrintResults();
473  return validMinimum;
474 }
T min(T a, T b)
Definition: MathUtil.h:58
virtual void PrintResults()
print result of minimization
bool PSFitter::HybridMinimizer::GetCovMatrix ( double *  cov) const
virtual

Fill the passed array with the covariance matrix elements if the variable is fixed or const the value is zero. The array will be filled as cov[i *ndim + j] The ordering of the variables is the same as in errors and parameter value. This is different from the direct interface of Minuit2 or TMinuit where the values were obtained only to variable parameters

Definition at line 558 of file HybridMinimizer.cc.

References fDim, fState, i, j, relval_2017::k, cmsLHEtoEOSManager::l, and visualization-live-secondInstance_cfg::m.

558  {
559  // get value of covariance matrices
560  if ( !fState.HasCovariance() ) return false; // no info available when minimization has failed
561  for (unsigned int i = 0; i < fDim; ++i) {
562  if (fState.Parameter(i).IsFixed() || fState.Parameter(i).IsConst() ) {
563  for (unsigned int j = 0; j < fDim; ++j) { cov[i*fDim + j] = 0; }
564  }
565  else
566  {
567  unsigned int l = fState.IntOfExt(i);
568  for (unsigned int j = 0; j < fDim; ++j) {
569  // could probably speed up this loop (if needed)
570  int k = i*fDim + j;
571  if (fState.Parameter(j).IsFixed() || fState.Parameter(j).IsConst() )
572  cov[k] = 0;
573  else {
574  // need to transform from external to internal indices)
575  // for taking care of the removed fixed row/columns in the Minuit2 representation
576  unsigned int m = fState.IntOfExt(j);
577  cov[k] = fState.Covariance()(l,m);
578  }
579  }
580  }
581  }
582  return true;
583 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
int j
Definition: DBlmapReader.cc:9
virtual const ROOT::Minuit2::FCNBase* PSFitter::HybridMinimizer::GetFCN ( ) const
inlineprotectedvirtual

Definition at line 274 of file HybridMinimizer.h.

References fMinuitFCN.

Referenced by Minimize().

274 { return fMinuitFCN; }
ROOT::Minuit2::FCNBase * fMinuitFCN
bool PSFitter::HybridMinimizer::GetHessianMatrix ( double *  h) const
virtual

Fill the passed array with the Hessian matrix elements The Hessian matrix is the matrix of the second derivatives and is the inverse of the covariance matrix If the variable is fixed or const the values for that variables are zero. The array will be filled as h[i *ndim + j]

Definition at line 585 of file HybridMinimizer.cc.

References fDim, fState, i, j, relval_2017::k, cmsLHEtoEOSManager::l, and visualization-live-secondInstance_cfg::m.

585  {
586  // get value of Hessian matrix
587  // this is the second derivative matrices
588  if ( !fState.HasCovariance() ) return false; // no info available when minimization has failed
589  for (unsigned int i = 0; i < fDim; ++i) {
590  if (fState.Parameter(i).IsFixed() || fState.Parameter(i).IsConst() ) {
591  for (unsigned int j = 0; j < fDim; ++j) { hess[i*fDim + j] = 0; }
592  }
593  else {
594  unsigned int l = fState.IntOfExt(i);
595  for (unsigned int j = 0; j < fDim; ++j) {
596  // could probably speed up this loop (if needed)
597  int k = i*fDim + j;
598  if (fState.Parameter(j).IsFixed() || fState.Parameter(j).IsConst() )
599  hess[k] = 0;
600  else {
601  // need to transform from external to internal indices)
602  // for taking care of the removed fixed row/columns in the Minuit2 representation
603  unsigned int m = fState.IntOfExt(j);
604  hess[k] = fState.Hessian()(l,m);
605  }
606  }
607  }
608  }
609 
610  return true;
611 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
int j
Definition: DBlmapReader.cc:9
virtual const ROOT::Minuit2::ModularFunctionMinimizer* PSFitter::HybridMinimizer::GetMinimizer ( ) const
inlineprotectedvirtual

Definition at line 270 of file HybridMinimizer.h.

References fMinimizer.

Referenced by Minimize().

270 { return fMinimizer; }
ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer
bool PSFitter::HybridMinimizer::GetMinosError ( unsigned int  i,
double &  errLow,
double &  errUp,
int  runopt = 0 
)
virtual

get the minos error for parameter i, return false if Minos failed A minimizaiton must be performed befre, return false if no minimization has been done In case of Minos failed the status error is updated as following status += 10 * minosStatus where the minos status is: status = 1 : maximum number of function calls exceeded when running for lower error status = 2 : maximum number of function calls exceeded when running for upper error status = 3 : new minimum found when running for lower error status = 4 : new minimum found when running for upper error status = 5 : any other failure

Definition at line 642 of file HybridMinimizer.cc.

References assert(), HLT_25ns10e33_v2_cff::debugLevel, fMinimum, fMinuitFCN, fState, bookConverter::max, PSFitter::RestoreGlobalPrintLevel(), g4TestOverlap_cfg::Tolerance, PSFitter::TurnOffPrintInfoLevel(), and up.

642  {
643  // return the minos error for parameter i
644  // if a minimum does not exist an error is returned
645  // runopt is a flag which specifies if only lower or upper error needs to be run
646  // if runopt = 0 both, = 1 only lower, + 2 only upper errors
647  errLow = 0; errUp = 0;
648  bool runLower = runopt != 2;
649  bool runUpper = runopt != 1;
650 
651  assert( fMinuitFCN );
652 
653  // need to know if parameter is const or fixed
654  if ( fState.Parameter(i).IsConst() || fState.Parameter(i).IsFixed() ) {
655  return false;
656  }
657 
658  int debugLevel = PrintLevel();
659  // internal minuit messages
660  MnPrint::SetLevel( debugLevel );
661 
662  // to run minos I need function minimum class
663  // redo minimization from current state
664 // ROOT::Minuit2::FunctionMinimum min =
665 // GetMinimizer()->Minimize(*GetFCN(),fState, ROOT::Minuit2::MnStrategy(strategy), MaxFunctionCalls(), Tolerance());
666 // fState = min.UserState();
667  if (fMinimum == 0) {
668  MN_ERROR_MSG("HybridMinimizer::GetMinosErrors: failed - no function minimum existing");
669  return false;
670  }
671 
672  if (!fMinimum->IsValid() ) {
673  MN_ERROR_MSG("HybridMinimizer::MINOS failed due to invalid function minimum");
674  return false;
675  }
676 
677  fMinuitFCN->SetErrorDef(ErrorDef() );
678  // if error def has been changed update it in FunctionMinimum
679  if (ErrorDef() != fMinimum->Up() )
680  fMinimum->SetErrorDef(ErrorDef() );
681 
682  // switch off Minuit2 printing
683  int prev_level = (PrintLevel() <= 0 ) ? TurnOffPrintInfoLevel() : -2;
684 
685  // set the precision if needed
686  if (Precision() > 0) fState.SetPrecision(Precision());
687 
688 
689  ROOT::Minuit2::MnMinos minos( *fMinuitFCN, *fMinimum);
690 
691  // run MnCross
692  MnCross low;
693  MnCross up;
694  int maxfcn = MaxFunctionCalls();
695  double tol = Tolerance();
696 
697 // const char * par_name = fState.Name(i);
698 
699  // now input tolerance for migrad calls inside Minos (MnFunctionCross)
700  // before it was fixed to 0.05
701  // cut off too small tolerance (they are not needed)
702  tol = std::max(tol, 0.01);
703 
704  if (PrintLevel() >=1) {
705  // print the real number of maxfcn used (defined in MnMinos)
706  int maxfcn_used = maxfcn;
707  if (maxfcn_used == 0) {
708  int nvar = fState.VariableParameters();
709  maxfcn_used = 2*(nvar+1)*(200 + 100*nvar + 5*nvar*nvar);
710  }
711 // std::cout << "HybridMinimizer::GetMinosError for parameter " << i << " " << par_name
712 // << " using max-calls " << maxfcn_used << ", tolerance " << tol << std::endl;
713  }
714 
715 
716  if (runLower) low = minos.Loval(i,maxfcn,tol);
717  if (runUpper) up = minos.Upval(i,maxfcn,tol);
718 
719  ROOT::Minuit2::MinosError me(i, fMinimum->UserState().Value(i),low, up);
720 
721  if (prev_level > -2) RestoreGlobalPrintLevel(prev_level);
722 
723  // debug result of Minos
724  // print error message in Minos
725 
726 
727  if (debugLevel >= 1) {
728 /*
729  if (runLower) {
730  if (!me.LowerValid() )
731  std::cout << "Minos: Invalid lower error for parameter " << par_name << std::endl;
732  if(me.AtLowerLimit())
733  std::cout << "Minos: Parameter : " << par_name << " is at Lower limit."<<std::endl;
734  if(me.AtLowerMaxFcn())
735  std::cout << "Minos: Maximum number of function calls exceeded when running for lower error" <<std::endl;
736  if(me.LowerNewMin() )
737  std::cout << "Minos: New Minimum found while running Minos for lower error" <<std::endl;
738 
739  if (debugLevel > 1) std::cout << "Minos: Lower error for parameter " << par_name << " : " << me.Lower() << std::endl;
740 
741  }
742  if (runUpper) {
743  if (!me.UpperValid() )
744  std::cout << "Minos: Invalid upper error for parameter " << par_name << std::endl;
745  if(me.AtUpperLimit())
746  std::cout << "Minos: Parameter " << par_name << " is at Upper limit."<<std::endl;
747  if(me.AtUpperMaxFcn())
748  std::cout << "Minos: Maximum number of function calls exceeded when running for upper error" <<std::endl;
749  if(me.UpperNewMin() )
750  std::cout << "Minos: New Minimum found while running Minos for upper error" <<std::endl;
751 
752  if (debugLevel > 1) std::cout << "Minos: Upper error for parameter " << par_name << " : " << me.Upper() << std::endl;
753  }
754 */
755  }
756 
757  bool lowerInvalid = (runLower && !me.LowerValid() );
758  bool upperInvalid = (runUpper && !me.UpperValid() );
759  int mstatus = 0;
760  if (lowerInvalid || upperInvalid ) {
761  // set status accroding to bit
762  // bit 1: lower invalid Minos errors
763  // bit 2: uper invalid Minos error
764  // bit 3: invalid because max FCN
765  // bit 4 : invalid because a new minimum has been found
766  if (lowerInvalid) {
767  mstatus |= 1;
768  if (me.AtLowerMaxFcn() ) mstatus |= 4;
769  if (me.LowerNewMin() ) mstatus |= 8;
770  }
771  if(upperInvalid) {
772  mstatus |= 3;
773  if (me.AtUpperMaxFcn() ) mstatus |= 4;
774  if (me.UpperNewMin() ) mstatus |= 8;
775  }
776  //std::cout << "Error running Minos for parameter " << i << std::endl;
777  fStatus += 10*mstatus;
778  }
779 
780  errLow = me.Lower();
781  errUp = me.Upper();
782 
783  bool isValid = (runLower && me.LowerValid() ) || (runUpper && me.UpperValid() );
784  return isValid;
785 }
Definition: BitonicSort.h:8
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
assert(m_qm.get())
ROOT::Minuit2::FCNBase * fMinuitFCN
ROOT::Minuit2::FunctionMinimum * fMinimum
int TurnOffPrintInfoLevel()
void RestoreGlobalPrintLevel(int)
double PSFitter::HybridMinimizer::GlobalCC ( unsigned int  i) const
virtual

get global correlation coefficient for the variable i. This is a number between zero and one which gives the correlation between the i-th variable and that linear combination of all other variables which is most strongly correlated with i. If the variable is fixed or const the return value is zero

Definition at line 628 of file HybridMinimizer.cc.

References fDim, fState, and relval_2017::k.

628  {
629  // get global correlation coefficient for the parameter i. This is a number between zero and one which gives
630  // the correlation between the i-th parameter and that linear combination of all other parameters which
631  // is most strongly correlated with i.
632 
633  if ( i >= fDim || i >= fDim) return 0;
634  // no info available when minimization has failed or has some problems
635  if ( !fState.HasGlobalCC() ) return 0;
636  if (fState.Parameter(i).IsFixed() || fState.Parameter(i).IsConst() ) return 0;
637  unsigned int k = fState.IntOfExt(i);
638  return fState.GlobalCC().GlobalCC()[k];
639 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
bool PSFitter::HybridMinimizer::Hesse ( )
virtual

perform a full calculation of the Hessian matrix for error calculation If a valid minimum exists the calculation is done on the minimum point otherwise is performed in the current set values of parameters Status code of minimizer is updated according to the following convention (in case Hesse failed) status += 100*hesseStatus where hesse status is: status = 1 : hesse failed status = 2 : matrix inversion failed status = 3 : matrix is not pos defined

Definition at line 893 of file HybridMinimizer.cc.

References fMinimum, fMinuitFCN, fState, PSFitter::RestoreGlobalPrintLevel(), and PSFitter::TurnOffPrintInfoLevel().

893  {
894  // find Hessian (full second derivative calculations)
895  // the contained state will be updated with the Hessian result
896  // in case a function minimum exists and is valid the result will be
897  // appended in the function minimum
898 
899  if (!fMinuitFCN) {
900  MN_ERROR_MSG2("HybridMinimizer::Hesse","FCN function has not been set");
901  return false;
902  }
903 
904  int strategy = Strategy();
905  int maxfcn = MaxFunctionCalls();
906 
907  // switch off Minuit2 printing
908  int prev_level = (PrintLevel() <= 0 ) ? TurnOffPrintInfoLevel() : -2;
909 
910  MnPrint::SetLevel( PrintLevel() );
911 
912  // set the precision if needed
913  if (Precision() > 0) fState.SetPrecision(Precision());
914 
915  ROOT::Minuit2::MnHesse hesse( strategy );
916 
917  // case when function minimum exists
918  if (fMinimum ) {
919  // run hesse and function minimum will be updated with Hesse result
920  hesse( *fMinuitFCN, *fMinimum, maxfcn );
921  fState = fMinimum->UserState();
922  }
923 
924  else {
925  // run Hesse on point stored in current state (independent of function minimum validity)
926  // (x == 0)
927  fState = hesse( *fMinuitFCN, fState, maxfcn);
928  }
929 
930  if (prev_level > -2) RestoreGlobalPrintLevel(prev_level);
931 
932  if (PrintLevel() >= 3) {
933 // std::cout << "State returned from Hesse " << std::endl;
934 // std::cout << fState << std::endl;
935  }
936 
937  if (!fState.HasCovariance() ) {
938  // if false means error is not valid and this is due to a failure in Hesse
939  if (PrintLevel() > 0) MN_INFO_MSG2("HybridMinimizer::Hesse","Hesse failed ");
940  // update minimizer error status
941  int hstatus = 4;
942  // information on error state can be retrieved only if fMinimum is available
943  if (fMinimum) {
944  if (fMinimum->Error().HesseFailed() ) hstatus = 1;
945  if (fMinimum->Error().InvertFailed() ) hstatus = 2;
946  else if (!(fMinimum->Error().IsPosDef()) ) hstatus = 3;
947  }
948  fStatus += 100*hstatus;
949  return false;
950  }
951 
952  return true;
953 }
ROOT::Minuit2::MnUserParameterState fState
ROOT::Minuit2::FCNBase * fMinuitFCN
ROOT::Minuit2::FunctionMinimum * fMinimum
int TurnOffPrintInfoLevel()
void RestoreGlobalPrintLevel(int)
virtual const double* PSFitter::HybridMinimizer::MinGradient ( ) const
inlinevirtual

return pointer to gradient values at the minimum

Definition at line 142 of file HybridMinimizer.h.

142 { return 0; } // not available in Minuit2
bool PSFitter::HybridMinimizer::Minimize ( )
virtual

method to perform the minimization. Return false in case the minimization did not converge. In this case a status code different than zero is set (retrieved by the derived method Minimizer::Status() )"

status = 1 : Covariance was made pos defined status = 2 : Hesse is invalid status = 3 : Edm is above max status = 4 : Reached call limit status = 5 : Any other failure

Definition at line 303 of file HybridMinimizer.cc.

References assert(), ExamineMinimum(), fMinimum, fMinuitFCN, fState, GetFCN(), GetMinimizer(), min(), convertSQLiteXML::ok, PSFitter::RestoreGlobalPrintLevel(), g4TestOverlap_cfg::Tolerance, and PSFitter::TurnOffPrintInfoLevel().

Referenced by PulseShapeFitOOTPileupCorrection::fit().

303  {
304  // perform the minimization
305  // store a copy of FunctionMinimum
306  if (!fMinuitFCN) {
307  MN_ERROR_MSG2("HybridMinimizer::Minimize","FCN function has not been set");
308  return false;
309  }
310 
311  assert(GetMinimizer() != 0 );
312 
313  // delete result of previous minimization
314  if (fMinimum) delete fMinimum;
315  fMinimum = 0;
316 
317 
318  int maxfcn = MaxFunctionCalls();
319  double tol = Tolerance();
320  int strategyLevel = Strategy();
321  fMinuitFCN->SetErrorDef(ErrorDef() );
322 
323  if (PrintLevel() >=1) {
324  // print the real number of maxfcn used (defined in ModularFuncitonMinimizer)
325  int maxfcn_used = maxfcn;
326  if (maxfcn_used == 0) {
327  int nvar = fState.VariableParameters();
328  maxfcn_used = 200 + 100*nvar + 5*nvar*nvar;
329  }
330 // std::cout << "HybridMinimizer: Minimize with max-calls " << maxfcn_used
331 // << " convergence for edm < " << tol << " strategy "
332 // << strategyLevel << std::endl;
333  }
334 
335  // internal minuit messages
336  MnPrint::SetLevel(PrintLevel() );
337 
338  // switch off Minuit2 printing
339  int prev_level = (PrintLevel() <= 0 ) ? TurnOffPrintInfoLevel() : -2;
340 
341  // set the precision if needed
342  if (Precision() > 0) fState.SetPrecision(Precision());
343 
344  // set strategy and add extra options if needed
345  ROOT::Minuit2::MnStrategy strategy(strategyLevel);
346  ROOT::Math::IOptions * minuit2Opt = ROOT::Math::MinimizerOptions::FindDefault("Minuit2");
347  if (minuit2Opt) {
348  // set extra strategy options
349  int nGradCycles = strategy.GradientNCycles();
350  int nHessCycles = strategy.HessianNCycles();
351  int nHessGradCycles = strategy.HessianGradientNCycles();
352 
353  double gradTol = strategy.GradientTolerance();
354  double gradStepTol = strategy.GradientStepTolerance();
355  double hessStepTol = strategy.HessianStepTolerance();
356  double hessG2Tol = strategy.HessianG2Tolerance();
357 
358  minuit2Opt->GetValue("GradientNCycles",nGradCycles);
359  minuit2Opt->GetValue("HessianNCycles",nHessCycles);
360  minuit2Opt->GetValue("HessianGradientNCycles",nHessGradCycles);
361 
362  minuit2Opt->GetValue("GradientTolerance",gradTol);
363  minuit2Opt->GetValue("GradientStepTolerance",gradStepTol);
364  minuit2Opt->GetValue("HessianStepTolerance",hessStepTol);
365  minuit2Opt->GetValue("HessianG2Tolerance",hessG2Tol);
366 
367  strategy.SetGradientNCycles(nGradCycles);
368  strategy.SetHessianNCycles(nHessCycles);
369  strategy.SetHessianGradientNCycles(nHessGradCycles);
370 
371  strategy.SetGradientTolerance(gradTol);
372  strategy.SetGradientStepTolerance(gradStepTol);
373  strategy.SetHessianStepTolerance(hessStepTol);
374  strategy.SetHessianG2Tolerance(hessStepTol);
375 
376  if (PrintLevel() > 0) {
377 // std::cout << "HybridMinimizer::Minuit - Changing default stratgey options" << std::endl;
378  minuit2Opt->Print();
379  }
380 
381  }
382 
383  const ROOT::Minuit2::FCNGradientBase * gradFCN = dynamic_cast<const ROOT::Minuit2::FCNGradientBase *>( fMinuitFCN );
384  if ( gradFCN != 0) {
385  // use gradient
386  //SetPrintLevel(3);
387  ROOT::Minuit2::FunctionMinimum min = GetMinimizer()->Minimize(*gradFCN, fState, strategy, maxfcn, tol);
388  fMinimum = new ROOT::Minuit2::FunctionMinimum (min);
389  }
390  else {
391  ROOT::Minuit2::FunctionMinimum min = GetMinimizer()->Minimize(*GetFCN(), fState, strategy, maxfcn, tol);
392  fMinimum = new ROOT::Minuit2::FunctionMinimum (min);
393  }
394 
395  // check if Hesse needs to be run
396  if (fMinimum->IsValid() && IsValidError() && fMinimum->State().Error().Dcovar() != 0 ) {
397  // run Hesse (Hesse will add results in the last state of fMinimum
398  ROOT::Minuit2::MnHesse hesse(strategy );
399  hesse( *fMinuitFCN, *fMinimum, maxfcn);
400  }
401 
402  // -2 is the highest low invalid value for gErrorIgnoreLevel
403  if (prev_level > -2) RestoreGlobalPrintLevel(prev_level);
404 
405  fState = fMinimum->UserState();
406  bool ok = ExamineMinimum(*fMinimum);
407  //fMinimum = 0;
408  return ok;
409 }
ROOT::Minuit2::MnUserParameterState fState
assert(m_qm.get())
ROOT::Minuit2::FCNBase * fMinuitFCN
ROOT::Minuit2::FunctionMinimum * fMinimum
bool ExamineMinimum(const ROOT::Minuit2::FunctionMinimum &min)
examine the minimum result
T min(T a, T b)
Definition: MathUtil.h:58
int TurnOffPrintInfoLevel()
void RestoreGlobalPrintLevel(int)
virtual const ROOT::Minuit2::ModularFunctionMinimizer * GetMinimizer() const
virtual const ROOT::Minuit2::FCNBase * GetFCN() const
virtual double PSFitter::HybridMinimizer::MinValue ( ) const
inlinevirtual

return minimum function value

Definition at line 133 of file HybridMinimizer.h.

References fState.

Referenced by PulseShapeFitOOTPileupCorrection::fit().

133 { return fState.Fval(); }
ROOT::Minuit2::MnUserParameterState fState
virtual unsigned int PSFitter::HybridMinimizer::NCalls ( ) const
inlinevirtual

number of function calls to reach the minimum

Definition at line 145 of file HybridMinimizer.h.

References fState.

145 { return fState.NFcn(); }
ROOT::Minuit2::MnUserParameterState fState
virtual unsigned int PSFitter::HybridMinimizer::NDim ( ) const
inlinevirtual

this is <= Function().NDim() which is the total number of variables (free+ constrained ones)

Definition at line 149 of file HybridMinimizer.h.

References fDim.

149 { return fDim; }
virtual unsigned int PSFitter::HybridMinimizer::NFree ( ) const
inlinevirtual

number of free variables (real dimension of the problem) this is <= Function().NDim() which is the total

Definition at line 153 of file HybridMinimizer.h.

References fState.

153 { return fState.VariableParameters(); }
ROOT::Minuit2::MnUserParameterState fState
HybridMinimizer & PSFitter::HybridMinimizer::operator= ( const HybridMinimizer rhs)
private

Assignment operator

Definition at line 152 of file HybridMinimizer.cc.

153 {
154  // Implementation of assignment operator.
155  if (this == &rhs) return *this; // time saving self-test
156  return *this;
157 }
void PSFitter::HybridMinimizer::PrintResults ( )
virtual

print result of minimization

return reference to the objective function virtual const ROOT::Math::IGenFunction & Function() const;

Definition at line 477 of file HybridMinimizer.cc.

References fMinimum.

Referenced by ExamineMinimum().

477  {
478  // print results of minimization
479  if (!fMinimum) return;
480  if (fMinimum->IsValid() ) {
481  // valid minimum
482 /*
483  std::cout << "HybridMinimizer : Valid minimum - status = " << fStatus << std::endl;
484  int pr = std::cout.precision(18);
485  std::cout << "FVAL = " << fState.Fval() << std::endl;
486  std::cout << "Edm = " << fState.Edm() << std::endl;
487  std::cout.precision(pr);
488  std::cout << "Nfcn = " << fState.NFcn() << std::endl;
489  for (unsigned int i = 0; i < fState.MinuitParameters().size(); ++i) {
490  const MinuitParameter & par = fState.Parameter(i);
491  std::cout << par.Name() << "\t = " << par.Value() << "\t ";
492  if (par.IsFixed() ) std::cout << "(fixed)" << std::endl;
493  else if (par.IsConst() ) std::cout << "(const)" << std::endl;
494  else if (par.HasLimits() )
495  std::cout << "+/- " << par.Error() << "\t(limited)"<< std::endl;
496  else
497  std::cout << "+/- " << par.Error() << std::endl;
498  }
499 */
500  }
501  else {
502 /*
503  std::cout << "HybridMinimizer : Invalid Minimum - status = " << fStatus << std::endl;
504  std::cout << "FVAL = " << fState.Fval() << std::endl;
505  std::cout << "Edm = " << fState.Edm() << std::endl;
506  std::cout << "Nfcn = " << fState.NFcn() << std::endl;
507 */
508  }
509 }
ROOT::Minuit2::FunctionMinimum * fMinimum
virtual bool PSFitter::HybridMinimizer::ProvidesError ( ) const
inlinevirtual

minimizer provides error and error matrix

Definition at line 156 of file HybridMinimizer.h.

156 { return true; }
bool PSFitter::HybridMinimizer::Scan ( unsigned int  i,
unsigned int &  nstep,
double *  x,
double *  y,
double  xmin = 0,
double  xmax = 0 
)
virtual

scan a parameter i around the minimum. A minimization must have been done before, return false if it is not the case

Definition at line 787 of file HybridMinimizer.cc.

References fMinuitFCN, fState, i, PSFitter::RestoreGlobalPrintLevel(), mps_fire::result, and PSFitter::TurnOffPrintInfoLevel().

787  {
788  // scan a parameter (variable) around the minimum value
789  // the parameters must have been set before
790  // if xmin=0 && xmax == 0 by default scan around 2 sigma of the error
791  // if the errors are also zero then scan from min and max of parameter range
792 
793  if (!fMinuitFCN) {
794  MN_ERROR_MSG2("HybridMinimizer::Scan"," Function must be set before using Scan");
795  return false;
796  }
797 
798  if ( ipar > fState.MinuitParameters().size() ) {
799  MN_ERROR_MSG2("HybridMinimizer::Scan"," Invalid number. Minimizer variables must be set before using Scan");
800  return false;
801  }
802 
803  // switch off Minuit2 printing
804  int prev_level = (PrintLevel() <= 0 ) ? TurnOffPrintInfoLevel() : -2;
805 
806  MnPrint::SetLevel( PrintLevel() );
807 
808 
809  // set the precision if needed
810  if (Precision() > 0) fState.SetPrecision(Precision());
811 
812  MnParameterScan scan( *fMinuitFCN, fState.Parameters() );
813  double amin = scan.Fval(); // fcn value of the function before scan
814 
815  // first value is param value
816  std::vector<std::pair<double, double> > result = scan(ipar, nstep-1, xmin, xmax);
817 
818  if (prev_level > -2) RestoreGlobalPrintLevel(prev_level);
819 
820  if (result.size() != nstep) {
821  MN_ERROR_MSG2("HybridMinimizer::Scan"," Invalid result from MnParameterScan");
822  return false;
823  }
824  // sort also the returned points in x
825  std::sort(result.begin(), result.end() );
826 
827 
828  for (unsigned int i = 0; i < nstep; ++i ) {
829  x[i] = result[i].first;
830  y[i] = result[i].second;
831  }
832 
833  // what to do if a new minimum has been found ?
834  // use that as new minimum
835  if (scan.Fval() < amin ) {
836  if (PrintLevel() > 0) MN_INFO_MSG2("HybridMinimizer::Scan","A new minimum has been found");
837  fState.SetValue(ipar, scan.Parameters().Value(ipar) );
838 
839  }
840 
841 
842  return true;
843 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
ROOT::Minuit2::FCNBase * fMinuitFCN
tuple result
Definition: mps_fire.py:83
int TurnOffPrintInfoLevel()
void RestoreGlobalPrintLevel(int)
bool PSFitter::HybridMinimizer::SetFixedVariable ( unsigned int  ivar,
const std::string &  name,
double  val 
)
virtual

set fixed variable (override if minimizer supports them )

Definition at line 224 of file HybridMinimizer.cc.

References funct::abs(), fState, SetVariable(), and relval_parameters_module::step.

Referenced by PulseShapeFitOOTPileupCorrection::fit().

224  {
225  // add a fixed variable
226  // need a step size otherwise treated as a constant
227  // use 10%
228  double step = ( val != 0) ? 0.1 * std::abs(val) : 0.1;
229  if (!SetVariable(ivar, name, val, step ) ) {
230  ivar = fState.Index(name.c_str() );
231  }
232  fState.Fix(ivar);
233  return true;
234 }
ROOT::Minuit2::MnUserParameterState fState
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
virtual bool SetVariable(unsigned int ivar, const std::string &name, double val, double step)
set free variable
void PSFitter::HybridMinimizer::SetFunction ( const ROOT::Math::IMultiGenFunction &  func)
virtual

set the function to minimize

Definition at line 267 of file HybridMinimizer.cc.

References fDim, fMinuitFCN, and fUseFumili.

Referenced by PulseShapeFitOOTPileupCorrection::fit().

267  {
268  // set function to be minimized
269  if (fMinuitFCN) delete fMinuitFCN;
270  fDim = func.NDim();
271  if (!fUseFumili) {
272  fMinuitFCN = new ROOT::Minuit2::FCNAdapter<ROOT::Math::IMultiGenFunction> (func, ErrorDef() );
273  }
274  else {
275  // for Fumili the fit method function interface is required
276  const ROOT::Math::FitMethodFunction * fcnfunc = dynamic_cast<const ROOT::Math::FitMethodFunction *>(&func);
277  if (!fcnfunc) {
278  MN_ERROR_MSG("HybridMinimizer: Wrong Fit method function for Fumili");
279  return;
280  }
281  fMinuitFCN = new ROOT::Minuit2::FumiliFCNAdapter<ROOT::Math::FitMethodFunction> (*fcnfunc, fDim, ErrorDef() );
282  }
283 }
ROOT::Minuit2::FCNBase * fMinuitFCN
void PSFitter::HybridMinimizer::SetFunction ( const ROOT::Math::IMultiGradFunction &  func)
virtual

set gradient the function to minimize

Definition at line 285 of file HybridMinimizer.cc.

References fDim, fMinuitFCN, and fUseFumili.

285  {
286  // set function to be minimized
287  fDim = func.NDim();
288  if (fMinuitFCN) delete fMinuitFCN;
289  if (!fUseFumili) {
290  fMinuitFCN = new ROOT::Minuit2::FCNGradAdapter<ROOT::Math::IMultiGradFunction> (func, ErrorDef() );
291  }
292  else {
293  // for Fumili the fit method function interface is required
294  const ROOT::Math::FitMethodGradFunction * fcnfunc = dynamic_cast<const ROOT::Math::FitMethodGradFunction*>(&func);
295  if (!fcnfunc) {
296  MN_ERROR_MSG("HybridMinimizer: Wrong Fit method function for Fumili");
297  return;
298  }
299  fMinuitFCN = new ROOT::Minuit2::FumiliFCNAdapter<ROOT::Math::FitMethodGradFunction> (*fcnfunc, fDim, ErrorDef() );
300  }
301 }
ROOT::Minuit2::FCNBase * fMinuitFCN
bool PSFitter::HybridMinimizer::SetLimitedVariable ( unsigned int  ivar,
const std::string &  name,
double  val,
double  step,
double  lower,
double  upper 
)
virtual

set upper/lower limited variable (override if minimizer supports them )

Definition at line 217 of file HybridMinimizer.cc.

References fState, and SetVariable().

Referenced by PulseShapeFitOOTPileupCorrection::fit().

217  {
218  // add a double bound variable
219  if (!SetVariable(ivar, name, val, step) ) return false;
220  fState.SetLimits(ivar, lower, upper);
221  return true;
222 }
ROOT::Minuit2::MnUserParameterState fState
virtual bool SetVariable(unsigned int ivar, const std::string &name, double val, double step)
set free variable
bool PSFitter::HybridMinimizer::SetLowerLimitedVariable ( unsigned int  ivar,
const std::string &  name,
double  val,
double  step,
double  lower 
)
virtual

set lower limit variable (override if minimizer supports them )

Definition at line 201 of file HybridMinimizer.cc.

References fState, and SetVariable().

201  {
202  // add a lower bounded variable
203  if (!SetVariable(ivar, name, val, step) ) return false;
204  fState.SetLowerLimit(ivar, lower);
205  return true;
206 }
ROOT::Minuit2::MnUserParameterState fState
virtual bool SetVariable(unsigned int ivar, const std::string &name, double val, double step)
set free variable
virtual void PSFitter::HybridMinimizer::SetMinimizer ( ROOT::Minuit2::ModularFunctionMinimizer *  m)
inlineprotectedvirtual

Definition at line 272 of file HybridMinimizer.h.

References fMinimizer, and visualization-live-secondInstance_cfg::m.

Referenced by SetMinimizerType().

void PSFitter::HybridMinimizer::SetMinimizerType ( EMinimizerType  type)

Definition at line 106 of file HybridMinimizer.cc.

References fMinimizer, fUseFumili, kCombined, kFumili, kMigrad, kScan, kSimplex, and SetMinimizer().

Referenced by PulseShapeFitOOTPileupCorrection::fit(), and HybridMinimizer().

106  {
107  // Set minimizer algorithm type
108  fUseFumili = false;
109 
110  if (fMinimizer) delete fMinimizer;
111 
112  switch (type) {
113  case kMigrad:
114  //std::cout << "HybridMinimizer: minimize using MIGRAD " << std::endl;
115  SetMinimizer( new ROOT::Minuit2::VariableMetricMinimizer() );
116  return;
117  case kSimplex:
118  //std::cout << "HybridMinimizer: minimize using SIMPLEX " << std::endl;
119  SetMinimizer( new ROOT::Minuit2::SimplexMinimizer() );
120  return;
121  case kCombined:
122  SetMinimizer( new ROOT::Minuit2::CombinedMinimizer() );
123  return;
124  case kScan:
125  SetMinimizer( new ROOT::Minuit2::ScanMinimizer() );
126  return;
127  case kFumili:
128  SetMinimizer( new ROOT::Minuit2::FumiliMinimizer() );
129  fUseFumili = true;
130  return;
131  default:
132  //migrad minimizer
133  SetMinimizer( new ROOT::Minuit2::VariableMetricMinimizer() );
134  }
135 }
type
Definition: HCALResponse.h:21
virtual void SetMinimizer(ROOT::Minuit2::ModularFunctionMinimizer *m)
ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer
bool PSFitter::HybridMinimizer::SetUpperLimitedVariable ( unsigned int  ivar,
const std::string &  name,
double  val,
double  step,
double  upper 
)
virtual

set upper limit variable (override if minimizer supports them )

Definition at line 208 of file HybridMinimizer.cc.

References fState, and SetVariable().

208  {
209  // add a upper bounded variable
210  if (!SetVariable(ivar, name, val, step) ) return false;
211  fState.SetUpperLimit(ivar, upper);
212  return true;
213 }
ROOT::Minuit2::MnUserParameterState fState
virtual bool SetVariable(unsigned int ivar, const std::string &name, double val, double step)
set free variable
bool PSFitter::HybridMinimizer::SetVariable ( unsigned int  ivar,
const std::string &  name,
double  val,
double  step 
)
virtual

set free variable

Definition at line 171 of file HybridMinimizer.cc.

References fState, relval_parameters_module::step, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by SetFixedVariable(), SetLimitedVariable(), SetLowerLimitedVariable(), and SetUpperLimitedVariable().

171  {
172  // set a free variable.
173  // Add the variable if not existing otherwise set value if exists already
174  // this is implemented in MnUserParameterState::Add
175  // if index is wrong (i.e. variable already exists but with a different index return false) but
176  // value is set for corresponding variable name
177 
178 // std::cout << " add parameter " << name << " " << val << " step " << step << std::endl;
179 
180  if (step <= 0) {
181  std::string txtmsg = "Parameter " + name + " has zero or invalid step size - consider it as constant ";
182  MN_INFO_MSG2("HybridMinimizer::SetVariable",txtmsg);
183  fState.Add(name.c_str(), val);
184  }
185  else
186  fState.Add(name.c_str(), val, step);
187 
188  unsigned int minuit2Index = fState.Index(name.c_str() );
189  if ( minuit2Index != ivar) {
190  std::string txtmsg("Wrong index used for the variable " + name);
191  MN_INFO_MSG2("HybridMinimizer::SetVariable",txtmsg);
192  MN_INFO_VAL2("HybridMinimizer::SetVariable",minuit2Index);
193  ivar = minuit2Index;
194  return false;
195  }
196  fState.RemoveLimits(ivar);
197 
198  return true;
199 }
ROOT::Minuit2::MnUserParameterState fState
bool PSFitter::HybridMinimizer::SetVariableValue ( unsigned int  ivar,
double  val 
)
virtual

set variable

Definition at line 250 of file HybridMinimizer.cc.

References fState.

250  {
251  // set value for variable ivar (only for existing parameters)
252  if (ivar >= fState.MinuitParameters().size() ) return false;
253  fState.SetValue(ivar, val);
254  return true;
255 }
ROOT::Minuit2::MnUserParameterState fState
bool PSFitter::HybridMinimizer::SetVariableValues ( const double *  val)
virtual

Definition at line 257 of file HybridMinimizer.cc.

References fState, and gen::n.

257  {
258  // set value for variable ivar (only for existing parameters)
259  unsigned int n = fState.MinuitParameters().size();
260  if (n== 0) return false;
261  for (unsigned int ivar = 0; ivar < n; ++ivar)
262  fState.SetValue(ivar, x[ivar]);
263  return true;
264 }
ROOT::Minuit2::MnUserParameterState fState
const ROOT::Minuit2::MnUserParameterState& PSFitter::HybridMinimizer::State ( )
inline

return the minimizer state (containing values, step size , etc..)

Definition at line 262 of file HybridMinimizer.h.

References fState.

262 { return fState; }
ROOT::Minuit2::MnUserParameterState fState
int PSFitter::HybridMinimizer::VariableIndex ( const std::string &  name) const
virtual

get index of variable given a variable given a name return -1 if variable is not found

Definition at line 243 of file HybridMinimizer.cc.

References fState.

243  {
244  // return the variable index
245  // check if variable exist
246  return fState.Trafo().FindIndex(name);
247 }
ROOT::Minuit2::MnUserParameterState fState
std::string PSFitter::HybridMinimizer::VariableName ( unsigned int  ivar) const
virtual

get name of variables (override if minimizer support storing of variable names)

Definition at line 236 of file HybridMinimizer.cc.

References fState, and AlCaHLTBitMon_QueryRunRegistry::string.

236  {
237  // return the variable name
238  if (ivar >= fState.MinuitParameters().size() ) return std::string();
239  return fState.GetName(ivar);
240 }
ROOT::Minuit2::MnUserParameterState fState
const double * PSFitter::HybridMinimizer::X ( ) const
virtual

return pointer to X values at the minimum

Definition at line 511 of file HybridMinimizer.cc.

References assert(), fDim, fState, fValues, and i.

Referenced by svgfig.Curve.Sample::__repr__(), and PulseShapeFitOOTPileupCorrection::fit().

511  {
512  // return values at minimum
513  const std::vector<MinuitParameter> & paramsObj = fState.MinuitParameters();
514  if (paramsObj.size() == 0) return 0;
515  assert(fDim == paramsObj.size());
516  // be careful for multiple calls of this function. I will redo an allocation here
517  // only when size of vectors has changed (e.g. after a new minimization)
518  if (fValues.size() != fDim) fValues.resize(fDim);
519  for (unsigned int i = 0; i < fDim; ++i) {
520  fValues[i] = paramsObj[i].Value();
521  }
522 
523  return &fValues.front();
524 }
int i
Definition: DBlmapReader.cc:9
ROOT::Minuit2::MnUserParameterState fState
assert(m_qm.get())
std::vector< double > fValues

Member Data Documentation

unsigned int PSFitter::HybridMinimizer::fDim
private
std::vector<double> PSFitter::HybridMinimizer::fErrors
mutableprivate

Definition at line 290 of file HybridMinimizer.h.

Referenced by Errors().

ROOT::Minuit2::ModularFunctionMinimizer* PSFitter::HybridMinimizer::fMinimizer
private

Definition at line 286 of file HybridMinimizer.h.

Referenced by GetMinimizer(), SetMinimizer(), SetMinimizerType(), and ~HybridMinimizer().

ROOT::Minuit2::FunctionMinimum* PSFitter::HybridMinimizer::fMinimum
private
ROOT::Minuit2::FCNBase* PSFitter::HybridMinimizer::fMinuitFCN
private
ROOT::Minuit2::MnUserParameterState PSFitter::HybridMinimizer::fState
private
bool PSFitter::HybridMinimizer::fUseFumili
private

Definition at line 282 of file HybridMinimizer.h.

Referenced by SetFunction(), and SetMinimizerType().

std::vector<double> PSFitter::HybridMinimizer::fValues
mutableprivate

Definition at line 289 of file HybridMinimizer.h.

Referenced by X().