doc/v616/Minuit2Minimizer_8h_source.html

// @(#)root/minuit2:$Id$

// Author: L. Moneta Wed Oct 18 11:48:00 2006


/**********************************************************************

 *                                                                    *

 * Copyright (c) 2006  LCG ROOT Math Team, CERN/PH-SFT                *

 *                                                                    *

 *                                                                    *

 **********************************************************************/


// Header file for class Minuit2Minimizer


#ifndef ROOT_Minuit2_Minuit2Minimizer

#define ROOT_Minuit2_Minuit2Minimizer


#include "Math/Minimizer.h"


#include "Minuit2/MnUserParameterState.h"


#include "Math/IFunctionfwd.h"


namespace ROOT {


   namespace Minuit2 {


      class ModularFunctionMinimizer;

      class FCNBase;

      class FunctionMinimum;

      class MnTraceObject;


      // enumeration specifying the type of Minuit2 minimizers

      enum EMinimizerType {

         kMigrad,

         kSimplex,

         kCombined,

         kScan,

         kFumili,

         kMigradBFGS

      };


   }


   namespace Minuit2 {

//_____________________________________________________________________________________________________

/**

   Minuit2Minimizer class implementing the ROOT::Math::Minimizer interface for

   Minuit2 minimization algorithm.

   In ROOT it can be instantiated using the plug-in manager (plug-in "Minuit2")

   Using a string  (used by the plugin manager) or via an enumeration

   an one can set all the possible minimization algorithms (Migrad, Simplex, Combined, Scan and Fumili).


   @ingroup Minuit

*/

class Minuit2Minimizer : public ROOT::Math::Minimizer {


public:


   /**

      Default constructor

   */

   Minuit2Minimizer (ROOT::Minuit2::EMinimizerType type = ROOT::Minuit2::kMigrad);


   /**

      Constructor with a char (used by PM)

   */

   Minuit2Minimizer (const char *  type);


   /**

      Destructor (no operations)

   */

   virtual ~Minuit2Minimizer ();


private:

   // usually copying is non trivial, so we make this unaccessible


   /**

      Copy constructor

   */

   Minuit2Minimizer(const Minuit2Minimizer &);


   /**

      Assignment operator

   */

   Minuit2Minimizer & operator = (const Minuit2Minimizer & rhs);


public:


   // clear resources (parameters) for consecutives minimizations

   virtual void Clear();


   /// set the function to minimize

   virtual void SetFunction(const ROOT::Math::IMultiGenFunction & func);


   /// set gradient the function to minimize

   virtual void SetFunction(const ROOT::Math::IMultiGradFunction & func);


   /// set free variable

   virtual bool SetVariable(unsigned int ivar, const std::string & name, double val, double step);


   /// set lower limit variable  (override if minimizer supports them )

   virtual bool SetLowerLimitedVariable(unsigned int  ivar , const std::string & name , double val , double step , double lower );

   /// set upper limit variable (override if minimizer supports them )

   virtual bool SetUpperLimitedVariable(unsigned int ivar , const std::string & name , double val , double step , double upper );

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

   virtual bool SetLimitedVariable(unsigned int ivar , const std::string & name , double val , double step , double /* lower */, double /* upper */);

   /// set fixed variable (override if minimizer supports them )

   virtual bool SetFixedVariable(unsigned int /* ivar */, const std::string & /* name */, double /* val */);

   /// set variable

   virtual bool SetVariableValue(unsigned int ivar, double val);

   // set variable values

   virtual bool SetVariableValues(const double * val);

   /// set the step size of an already existing variable

   virtual bool SetVariableStepSize(unsigned int ivar, double step );

   /// set the lower-limit of an already existing variable

   virtual bool SetVariableLowerLimit(unsigned int ivar, double lower);

   /// set the upper-limit of an already existing variable

   virtual bool SetVariableUpperLimit(unsigned int ivar, double upper);

   /// set the limits of an already existing variable

   virtual bool SetVariableLimits(unsigned int ivar, double lower, double upper);

   /// fix an existing variable

   virtual bool FixVariable(unsigned int ivar);

   /// release an existing variable

   virtual bool ReleaseVariable(unsigned int ivar);

   /// query if an existing variable is fixed (i.e. considered constant in the minimization)

   /// note that by default all variables are not fixed

   virtual bool IsFixedVariable(unsigned int ivar)  const;

   /// get variable settings in a variable object (like ROOT::Fit::ParamsSettings)

   virtual bool GetVariableSettings(unsigned int ivar, ROOT::Fit::ParameterSettings & varObj) const;

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

   virtual std::string VariableName(unsigned int ivar) const;

   /// get index of variable given a variable given a name

   /// return -1 if variable is not found

   virtual int VariableIndex(const std::string & name) const;


   /**

       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

   */

   virtual  bool Minimize();


   /// return minimum function value

   virtual double MinValue() const { return fState.Fval(); }


   /// return expected distance reached from the minimum

   virtual double Edm() const { return fState.Edm(); }


   /// return  pointer to X values at the minimum

   virtual const double *  X() const;


   /// return pointer to gradient values at the minimum

   virtual const double *  MinGradient() const { return 0; } // not available in Minuit2


   /// number of function calls to reach the minimum

   virtual unsigned int NCalls() const { return fState.NFcn(); }


   /// this is <= Function().NDim() which is the total

   /// number of variables (free+ constrained ones)

   virtual unsigned int NDim() const { return fDim; }


   /// number of free variables (real dimension of the problem)

   /// this is <= Function().NDim() which is the total

   virtual unsigned int NFree() const { return fState.VariableParameters(); }


   /// minimizer provides error and error matrix

   virtual bool ProvidesError() const { return true; }


   /// return errors at the minimum

   virtual const double * Errors() const;


   /**

       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

   */

   virtual double CovMatrix(unsigned int i, unsigned int j) const;


   /**

       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

   */

   virtual bool GetCovMatrix(double * cov) const;


   /**

       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]

   */

   virtual bool GetHessianMatrix(double * h) const;


   /**

      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


    */

   virtual int CovMatrixStatus() const;

   /**

      return correlation coefficient between variable i and j.

      If the variable is fixed or const the return value is zero

    */

   virtual double Correlation(unsigned int i, unsigned int j ) const;


   /**

      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

    */

   virtual double GlobalCC(unsigned int i) const;


   /**

      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


   */

   virtual bool GetMinosError(unsigned int i, double & errLow, double & errUp, int = 0);


   /**

      scan a parameter i around the minimum. A minimization must have been done before,

      return false if it is not the case

    */

   virtual bool Scan(unsigned int i, unsigned int & nstep, double * x, double * y, double xmin = 0, double xmax = 0);


   /**

      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();

    */

   virtual bool Contour(unsigned int i, unsigned int j, unsigned int & npoints, double *xi, double *xj);


   /**

      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

    */

   virtual bool Hesse();


   /// return reference to the objective function

   ///virtual const ROOT::Math::IGenFunction & Function() const;


   /// print result of minimization

   virtual void PrintResults();


   /// set an object to trace operation for each iteration

   /// The object muust implement operator() (unsigned int, MinimumState & state)

   void SetTraceObject(MnTraceObject & obj);


   /// set storage level   = 1 : store all iteration states (default)

   ///                     = 0 : store only first and last state to save memory

   void SetStorageLevel(int level);


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

   const ROOT::Minuit2::MnUserParameterState & State() { return fState; }


protected:


   // protected function for accessing the internal Minuit2 object. Needed for derived classes


   virtual const ROOT::Minuit2::ModularFunctionMinimizer * GetMinimizer() const { return fMinimizer; }


   virtual void SetMinimizer( ROOT::Minuit2::ModularFunctionMinimizer * m)  { fMinimizer = m; }


   void SetMinimizerType( ROOT::Minuit2::EMinimizerType type);


   virtual const  ROOT::Minuit2::FCNBase * GetFCN() const { return fMinuitFCN; }


   /// examine the minimum result

   bool ExamineMinimum(const ROOT::Minuit2::FunctionMinimum & min);


private:


   unsigned int fDim;       // dimension of the function to be minimized

   bool fUseFumili;


   ROOT::Minuit2::MnUserParameterState fState;

   // std::vector<ROOT::Minuit2::MinosError> fMinosErrors;

   ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer;

   ROOT::Minuit2::FCNBase * fMinuitFCN;

   ROOT::Minuit2::FunctionMinimum * fMinimum;

   mutable std::vector<double> fValues;

   mutable std::vector<double> fErrors;


};


   } // end namespace Fit


} // end namespace ROOT


#endif /* ROOT_Minuit2_Minuit2Minimizer */

IFunctionfwd.h

Minimizer.h

MnUserParameterState.h

h
#define h(i)
Definition: RSha256.hxx:106

type
int type
Definition: TGX11.cxx:120

xmin
float xmin
Definition: THbookFile.cxx:93

xmax
float xmax
Definition: THbookFile.cxx:93

ROOT::Fit::ParameterSettings
Class, describing value, limits and step size of the parameters Provides functionality also to set/re...
Definition: ParameterSettings.h:36

ROOT::Math::IBaseFunctionMultiDimTempl
Documentation for the abstract class IBaseFunctionMultiDim.
Definition: IFunction.h:62

ROOT::Math::IGradientFunctionMultiDimTempl
Interface (abstract class) for multi-dimensional functions providing a gradient calculation.
Definition: IFunction.h:327

ROOT::Math::Minimizer
Abstract Minimizer class, defining the interface for the various minimizer (like Minuit2,...
Definition: Minimizer.h:78

ROOT::Minuit2::FCNBase
Interface (abstract class) defining the function to be minimized, which has to be implemented by the ...
Definition: FCNBase.h:47

ROOT::Minuit2::FunctionMinimum
class holding the full result of the minimization; both internal and external (MnUserParameterState) ...
Definition: FunctionMinimum.h:30

ROOT::Minuit2::Minuit2Minimizer
Minuit2Minimizer class implementing the ROOT::Math::Minimizer interface for Minuit2 minimization algo...
Definition: Minuit2Minimizer.h:56

ROOT::Minuit2::Minuit2Minimizer::ExamineMinimum
bool ExamineMinimum(const ROOT::Minuit2::FunctionMinimum &min)
examine the minimum result
Definition: Minuit2Minimizer.cxx:538

ROOT::Minuit2::Minuit2Minimizer::NFree
virtual unsigned int NFree() const
number of free variables (real dimension of the problem) this is <= Function().NDim() which is the to...
Definition: Minuit2Minimizer.h:172

ROOT::Minuit2::Minuit2Minimizer::Minuit2Minimizer
Minuit2Minimizer(ROOT::Minuit2::EMinimizerType type=ROOT::Minuit2::kMigrad)
Default constructor.
Definition: Minuit2Minimizer.cxx:82

ROOT::Minuit2::Minuit2Minimizer::State
const ROOT::Minuit2::MnUserParameterState & State()
return the minimizer state (containing values, step size , etc..)
Definition: Minuit2Minimizer.h:289

ROOT::Minuit2::Minuit2Minimizer::SetStorageLevel
void SetStorageLevel(int level)
set storage level = 1 : store all iteration states (default) = 0 : store only first and last state to...
Definition: Minuit2Minimizer.cxx:1148

ROOT::Minuit2::Minuit2Minimizer::operator=
Minuit2Minimizer & operator=(const Minuit2Minimizer &rhs)
Assignment operator.
Definition: Minuit2Minimizer.cxx:164

ROOT::Minuit2::Minuit2Minimizer::fValues
std::vector< double > fValues
Definition: Minuit2Minimizer.h:316

ROOT::Minuit2::Minuit2Minimizer::SetVariableUpperLimit
virtual bool SetVariableUpperLimit(unsigned int ivar, double upper)
set the upper-limit of an already existing variable
Definition: Minuit2Minimizer.cxx:293

ROOT::Minuit2::Minuit2Minimizer::GlobalCC
virtual double GlobalCC(unsigned int i) const
get global correlation coefficient for the variable i.
Definition: Minuit2Minimizer.cxx:759

ROOT::Minuit2::Minuit2Minimizer::VariableIndex
virtual int VariableIndex(const std::string &name) const
get index of variable given a variable given a name return -1 if variable is not found
Definition: Minuit2Minimizer.cxx:255

ROOT::Minuit2::Minuit2Minimizer::SetVariable
virtual bool SetVariable(unsigned int ivar, const std::string &name, double val, double step)
set free variable
Definition: Minuit2Minimizer.cxx:183

ROOT::Minuit2::Minuit2Minimizer::SetFixedVariable
virtual bool SetFixedVariable(unsigned int, const std::string &, double)
set fixed variable (override if minimizer supports them )
Definition: Minuit2Minimizer.cxx:236

ROOT::Minuit2::Minuit2Minimizer::SetFunction
virtual void SetFunction(const ROOT::Math::IMultiGenFunction &func)
set the function to minimize
Definition: Minuit2Minimizer.cxx:355

ROOT::Minuit2::Minuit2Minimizer::GetFCN
virtual const ROOT::Minuit2::FCNBase * GetFCN() const
Definition: Minuit2Minimizer.h:301

ROOT::Minuit2::Minuit2Minimizer::ProvidesError
virtual bool ProvidesError() const
minimizer provides error and error matrix
Definition: Minuit2Minimizer.h:175

ROOT::Minuit2::Minuit2Minimizer::SetLowerLimitedVariable
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 )
Definition: Minuit2Minimizer.cxx:213

ROOT::Minuit2::Minuit2Minimizer::SetLimitedVariable
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 )
Definition: Minuit2Minimizer.cxx:229

ROOT::Minuit2::Minuit2Minimizer::SetVariableLimits
virtual bool SetVariableLimits(unsigned int ivar, double lower, double upper)
set the limits of an already existing variable
Definition: Minuit2Minimizer.cxx:301

ROOT::Minuit2::Minuit2Minimizer::SetVariableValues
virtual bool SetVariableValues(const double *val)
set the values of all existing variables (array must be dimensioned to the size of the existing param...
Definition: Minuit2Minimizer.cxx:269

ROOT::Minuit2::Minuit2Minimizer::CovMatrixStatus
virtual int CovMatrixStatus() const
return the status of the covariance matrix status = -1 : not available (inversion failed or Hesse fai...
Definition: Minuit2Minimizer.cxx:1119

ROOT::Minuit2::Minuit2Minimizer::MinValue
virtual double MinValue() const
return minimum function value
Definition: Minuit2Minimizer.h:152

ROOT::Minuit2::Minuit2Minimizer::Clear
virtual void Clear()
reset for consecutive minimizations - implement if needed
Definition: Minuit2Minimizer.cxx:172

ROOT::Minuit2::Minuit2Minimizer::CovMatrix
virtual double CovMatrix(unsigned int i, unsigned int j) const
return covariance matrix elements if the variable is fixed or const the value is zero The ordering of...
Definition: Minuit2Minimizer.cxx:678

ROOT::Minuit2::Minuit2Minimizer::~Minuit2Minimizer
virtual ~Minuit2Minimizer()
Destructor (no operations)
Definition: Minuit2Minimizer.cxx:150

ROOT::Minuit2::Minuit2Minimizer::ReleaseVariable
virtual bool ReleaseVariable(unsigned int ivar)
release an existing variable
Definition: Minuit2Minimizer.cxx:316

ROOT::Minuit2::Minuit2Minimizer::fErrors
std::vector< double > fErrors
Definition: Minuit2Minimizer.h:317

ROOT::Minuit2::Minuit2Minimizer::fMinimizer
ROOT::Minuit2::ModularFunctionMinimizer * fMinimizer
Definition: Minuit2Minimizer.h:313

ROOT::Minuit2::Minuit2Minimizer::MinGradient
virtual const double * MinGradient() const
return pointer to gradient values at the minimum
Definition: Minuit2Minimizer.h:161

ROOT::Minuit2::Minuit2Minimizer::Scan
virtual bool Scan(unsigned int i, unsigned int &nstep, double *x, double *y, double xmin=0, double xmax=0)
scan a parameter i around the minimum.
Definition: Minuit2Minimizer.cxx:920

ROOT::Minuit2::Minuit2Minimizer::VariableName
virtual std::string VariableName(unsigned int ivar) const
get name of variables (override if minimizer support storing of variable names)
Definition: Minuit2Minimizer.cxx:248

ROOT::Minuit2::Minuit2Minimizer::NDim
virtual unsigned int NDim() const
this is <= Function().NDim() which is the total number of variables (free+ constrained ones)
Definition: Minuit2Minimizer.h:168

ROOT::Minuit2::Minuit2Minimizer::GetCovMatrix
virtual bool GetCovMatrix(double *cov) const
Fill the passed array with the covariance matrix elements if the variable is fixed or const the value...
Definition: Minuit2Minimizer.cxx:689

ROOT::Minuit2::Minuit2Minimizer::SetUpperLimitedVariable
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 )
Definition: Minuit2Minimizer.cxx:220

ROOT::Minuit2::Minuit2Minimizer::Minimize
virtual bool Minimize()
method to perform the minimization.
Definition: Minuit2Minimizer.cxx:391

ROOT::Minuit2::Minuit2Minimizer::SetTraceObject
void SetTraceObject(MnTraceObject &obj)
set an object to trace operation for each iteration The object muust implement operator() (unsigned i...
Definition: Minuit2Minimizer.cxx:1142

ROOT::Minuit2::Minuit2Minimizer::SetVariableLowerLimit
virtual bool SetVariableLowerLimit(unsigned int ivar, double lower)
set the lower-limit of an already existing variable
Definition: Minuit2Minimizer.cxx:286

ROOT::Minuit2::Minuit2Minimizer::GetMinimizer
virtual const ROOT::Minuit2::ModularFunctionMinimizer * GetMinimizer() const
Definition: Minuit2Minimizer.h:295

ROOT::Minuit2::Minuit2Minimizer::X
virtual const double * X() const
return pointer to X values at the minimum
Definition: Minuit2Minimizer.cxx:642

ROOT::Minuit2::Minuit2Minimizer::SetMinimizerType
void SetMinimizerType(ROOT::Minuit2::EMinimizerType type)
Definition: Minuit2Minimizer.cxx:116

ROOT::Minuit2::Minuit2Minimizer::PrintResults
virtual void PrintResults()
return reference to the objective function virtual const ROOT::Math::IGenFunction & Function() const;
Definition: Minuit2Minimizer.cxx:612

ROOT::Minuit2::Minuit2Minimizer::GetHessianMatrix
virtual bool GetHessianMatrix(double *h) const
Fill the passed array with the Hessian matrix elements The Hessian matrix is the matrix of the second...
Definition: Minuit2Minimizer.cxx:716

ROOT::Minuit2::Minuit2Minimizer::fUseFumili
bool fUseFumili
Definition: Minuit2Minimizer.h:309

ROOT::Minuit2::Minuit2Minimizer::NCalls
virtual unsigned int NCalls() const
number of function calls to reach the minimum
Definition: Minuit2Minimizer.h:164

ROOT::Minuit2::Minuit2Minimizer::Edm
virtual double Edm() const
return expected distance reached from the minimum
Definition: Minuit2Minimizer.h:155

ROOT::Minuit2::Minuit2Minimizer::fState
ROOT::Minuit2::MnUserParameterState fState
Definition: Minuit2Minimizer.h:311

ROOT::Minuit2::Minuit2Minimizer::GetMinosError
virtual bool GetMinosError(unsigned int i, double &errLow, double &errUp, int=0)
get the minos error for parameter i, return false if Minos failed A minimizaiton must be performed be...
Definition: Minuit2Minimizer.cxx:773

ROOT::Minuit2::Minuit2Minimizer::IsFixedVariable
virtual bool IsFixedVariable(unsigned int ivar) const
query if an existing variable is fixed (i.e.
Definition: Minuit2Minimizer.cxx:323

ROOT::Minuit2::Minuit2Minimizer::SetMinimizer
virtual void SetMinimizer(ROOT::Minuit2::ModularFunctionMinimizer *m)
Definition: Minuit2Minimizer.h:297

ROOT::Minuit2::Minuit2Minimizer::Errors
virtual const double * Errors() const
return errors at the minimum
Definition: Minuit2Minimizer.cxx:658

ROOT::Minuit2::Minuit2Minimizer::fDim
unsigned int fDim
Definition: Minuit2Minimizer.h:308

ROOT::Minuit2::Minuit2Minimizer::GetVariableSettings
virtual bool GetVariableSettings(unsigned int ivar, ROOT::Fit::ParameterSettings &varObj) const
get variable settings in a variable object (like ROOT::Fit::ParamsSettings)
Definition: Minuit2Minimizer.cxx:332

ROOT::Minuit2::Minuit2Minimizer::fMinimum
ROOT::Minuit2::FunctionMinimum * fMinimum
Definition: Minuit2Minimizer.h:315

ROOT::Minuit2::Minuit2Minimizer::SetVariableValue
virtual bool SetVariableValue(unsigned int ivar, double val)
set variable
Definition: Minuit2Minimizer.cxx:262

ROOT::Minuit2::Minuit2Minimizer::fMinuitFCN
ROOT::Minuit2::FCNBase * fMinuitFCN
Definition: Minuit2Minimizer.h:314

ROOT::Minuit2::Minuit2Minimizer::Contour
virtual bool Contour(unsigned int i, unsigned int j, unsigned int &npoints, double *xi, double *xj)
find the contour points (xi,xj) of the function for parameter i and j around the minimum The contour ...
Definition: Minuit2Minimizer.cxx:978

ROOT::Minuit2::Minuit2Minimizer::Correlation
virtual double Correlation(unsigned int i, unsigned int j) const
return correlation coefficient between variable i and j.
Definition: Minuit2Minimizer.cxx:745

ROOT::Minuit2::Minuit2Minimizer::SetVariableStepSize
virtual bool SetVariableStepSize(unsigned int ivar, double step)
set the step size of an already existing variable
Definition: Minuit2Minimizer.cxx:278

ROOT::Minuit2::Minuit2Minimizer::FixVariable
virtual bool FixVariable(unsigned int ivar)
fix an existing variable
Definition: Minuit2Minimizer.cxx:309

ROOT::Minuit2::Minuit2Minimizer::Hesse
virtual bool Hesse()
perform a full calculation of the Hessian matrix for error calculation If a valid minimum exists the ...
Definition: Minuit2Minimizer.cxx:1035

ROOT::Minuit2::MnTraceObject
Definition: MnTraceObject.h:20

ROOT::Minuit2::MnUserParameterState
class which holds the external user and/or internal Minuit representation of the parameters and error...
Definition: MnUserParameterState.h:31

ROOT::Minuit2::MnUserParameterState::NFcn
unsigned int NFcn() const
Definition: MnUserParameterState.h:106

ROOT::Minuit2::MnUserParameterState::Edm
double Edm() const
Definition: MnUserParameterState.h:105

ROOT::Minuit2::MnUserParameterState::VariableParameters
unsigned int VariableParameters() const
Definition: MnUserParameterState.cxx:425

ROOT::Minuit2::MnUserParameterState::Fval
double Fval() const
Definition: MnUserParameterState.h:104

ROOT::Minuit2::ModularFunctionMinimizer
Base common class providing the API for all the minimizer Various Minimize methods are provided varyi...
Definition: ModularFunctionMinimizer.h:43

y
Double_t y[n]
Definition: legend1.C:17

x
Double_t x[n]
Definition: legend1.C:17

ROOT::Minuit2::EMinimizerType
EMinimizerType
Definition: Minuit2Minimizer.h:34

ROOT::Minuit2::kFumili
@ kFumili
Definition: Minuit2Minimizer.h:39

ROOT::Minuit2::kScan
@ kScan
Definition: Minuit2Minimizer.h:38

ROOT::Minuit2::kSimplex
@ kSimplex
Definition: Minuit2Minimizer.h:36

ROOT::Minuit2::kMigrad
@ kMigrad
Definition: Minuit2Minimizer.h:35

ROOT::Minuit2::kMigradBFGS
@ kMigradBFGS
Definition: Minuit2Minimizer.h:40

ROOT::Minuit2::kCombined
@ kCombined
Definition: Minuit2Minimizer.h:37

ROOT
Namespace for new ROOT classes and functions.
Definition: StringConv.hxx:21

RegressionKeras.name
name
Definition: RegressionKeras.py:29

m
auto * m
Definition: textangle.C:8