doc/v622/MethodSVM_8h_source.html

// @(#)root/tmva $Id$

// Author: Marcin Wolter, Andrzej Zemla


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

 * Project: TMVA - a Root-integrated toolkit for multivariate data analysis       *

 * Package: TMVA                                                                  *

 * Class  : MethodSVM                                                             *

 * Web    : http://tmva.sourceforge.net                                           *

 *                                                                                *

 * Description:                                                                   *

 *      Support Vector Machine                                                    *

 *                                                                                *

 * Authors (alphabetical):                                                        *

 *      Marcin Wolter  <Marcin.Wolter@cern.ch> - IFJ PAN, Krakow, Poland          *

 *      Andrzej Zemla  <azemla@cern.ch>         - IFJ PAN, Krakow, Poland         *

 *      (IFJ PAN: Henryk Niewodniczanski Inst. Nucl. Physics, Krakow, Poland)     *

 *                                                                                *

 * Introduction of regression by:                                                 *

 *      Krzysztof Danielowski <danielow@cern.ch> - IFJ PAN & AGH, Krakow, Poland  *

 *      Kamil Kraszewski      <kalq@cern.ch>     - IFJ PAN & UJ, Krakow, Poland   *

 *      Maciej Kruk           <mkruk@cern.ch>    - IFJ PAN & AGH, Krakow, Poland  *

 *                                                                                *

 * Copyright (c) 2005:                                                            *

 *      CERN, Switzerland                                                         *

 *      MPI-K Heidelberg, Germany                                                 *

 *      PAN, Krakow, Poland                                                       *

 *                                                                                *

 * Redistribution and use in source and binary forms, with or without             *

 * modification, are permitted according to the terms listed in LICENSE           *

 * (http://tmva.sourceforge.net/LICENSE)                                          *

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


#ifndef ROOT_TMVA_MethodSVM

#define ROOT_TMVA_MethodSVM


//////////////////////////////////////////////////////////////////////////

//                                                                      //

// MethodSVM                                                            //

//                                                                      //

// SMO Platt's SVM classifier with Keerthi & Shavade improvements       //

//                                                                      //

//////////////////////////////////////////////////////////////////////////


#include "TMVA/MethodBase.h"

#include "TMatrixDfwd.h"

#ifndef ROOT_TMVA_TVectorD

#include "TVectorD.h"

#include "TMVA/SVKernelFunction.h"

#endif


namespace TMVA

{

   class SVWorkingSet;

   class SVEvent;

   class SVKernelFunction;


   class MethodSVM : public MethodBase {


   public:


      MethodSVM( const TString& jobName, const TString& methodTitle, DataSetInfo& theData,

                 const TString& theOption = "" );


      MethodSVM( DataSetInfo& theData, const TString& theWeightFile);


      virtual ~MethodSVM( void );


      virtual Bool_t HasAnalysisType( Types::EAnalysisType type, UInt_t numberClasses, UInt_t numberTargets );


      // optimise tuning parameters

      virtual std::map<TString,Double_t> OptimizeTuningParameters(TString fomType="ROCIntegral", TString fitType="Minuit");

      virtual void SetTuneParameters(std::map<TString,Double_t> tuneParameters);

      std::vector<TMVA::SVKernelFunction::EKernelType> MakeKernelList(std::string multiKernels, TString kernel);

      std::map< TString,std::vector<Double_t> > GetTuningOptions();


      // training method

      void Train( void );


      // revoke training (required for optimise tuning parameters)

      void Reset( void );


      using MethodBase::ReadWeightsFromStream;


      // write weights to file

      void WriteWeightsToStream( TFile& fout   ) const;

      void AddWeightsXMLTo     ( void*  parent ) const;


      // read weights from file

      void ReadWeightsFromStream( std::istream& istr );

      void ReadWeightsFromStream( TFile& fFin     );

      void ReadWeightsFromXML   ( void*  wghtnode );

      // calculate the MVA value


      Double_t GetMvaValue( Double_t* err = 0, Double_t* errUpper = 0 );

      const std::vector<Float_t>& GetRegressionValues();


      void Init( void );


      // ranking of input variables

      const Ranking* CreateRanking() { return 0; }


      // for SVM optimisation

      void SetGamma(Double_t g){fGamma = g;}

      void SetCost(Double_t c){fCost = c;}

      void SetMGamma(std::string & mg);

      void SetOrder(Double_t o){fOrder = o;}

      void SetTheta(Double_t t){fTheta = t;}

      void SetKappa(Double_t k){fKappa = k;}

      void SetMult(Double_t m){fMult = m;}


      void GetMGamma(const std::vector<float> & gammas);


   protected:


      // make ROOT-independent C++ class for classifier response (classifier-specific implementation)

      void MakeClassSpecific( std::ostream&, const TString& ) const;


      // get help message text

      void GetHelpMessage() const;


   private:


      // the option handling methods

      void DeclareOptions();

      void DeclareCompatibilityOptions();

      void ProcessOptions();

      Double_t getLoss( TString lossFunction );


      Float_t                       fCost;                // cost value

      Float_t                       fTolerance;           // tolerance parameter

      UInt_t                        fMaxIter;             // max number of iteration

      UShort_t                      fNSubSets;            // nr of subsets, default 1

      Float_t                       fBparm;               // free plane coefficient

      Float_t                       fGamma;               // RBF Kernel parameter

      SVWorkingSet*                 fWgSet;               // svm working set

      std::vector<TMVA::SVEvent*>*  fInputData;           // vector of training data in SVM format

      std::vector<TMVA::SVEvent*>*  fSupportVectors;      // contains support vectors

      SVKernelFunction*             fSVKernelFunction;    // kernel function


      TVectorD*                     fMinVars;             // for normalization //is it still needed??

      TVectorD*                     fMaxVars;             // for normalization //is it still needed??


      // for kernel functions

      TString                       fTheKernel;           // kernel name

      Float_t                       fDoubleSigmaSquared;  // for RBF Kernel

      Int_t                         fOrder;               // for Polynomial Kernel ( polynomial order )

      Float_t                       fTheta;               // for Sigmoidal Kernel

      Float_t                       fKappa;               // for Sigmoidal Kernel

      Float_t                       fMult;

      std::vector<Float_t>          fmGamma;              // vector of gammas for multi-gaussian kernel

      Float_t                       fNumVars;             // number of input variables for multi-gaussian

      std::vector<TString>          fVarNames;

      std::string                   fGammas;

      std::string                   fGammaList;

      std::string                   fTune;                // Specify parameters to be tuned

      std::string                   fMultiKernels;


      Int_t                 fDataSize;

      TString fLoss;


      ClassDef(MethodSVM,0);  // Support Vector Machine

   };


} // namespace TMVA


#endif // MethodSVM_H

MethodBase.h

c
#define c(i)
Definition: RSha256.hxx:101

g
#define g(i)
Definition: RSha256.hxx:105

UShort_t
unsigned short UShort_t
Definition: RtypesCore.h:38

Double_t
double Double_t
Definition: RtypesCore.h:57

Float_t
float Float_t
Definition: RtypesCore.h:55

ClassDef
#define ClassDef(name, id)
Definition: Rtypes.h:322

SVKernelFunction.h

type
int type
Definition: TGX11.cxx:120

TMatrixDfwd.h

TVectorD.h

TFile
A ROOT file is a suite of consecutive data records (TKey instances) with a well defined format.
Definition: TFile.h:53

TMVA::DataSetInfo
Class that contains all the data information.
Definition: DataSetInfo.h:60

TMVA::MethodBase
Virtual base Class for all MVA method.
Definition: MethodBase.h:111

TMVA::MethodBase::ReadWeightsFromStream
virtual void ReadWeightsFromStream(std::istream &)=0

TMVA::MethodSVM
SMO Platt's SVM classifier with Keerthi & Shavade improvements.
Definition: MethodSVM.h:57

TMVA::MethodSVM::getLoss
Double_t getLoss(TString lossFunction)
getLoss Calculates loss for testing dataset.
Definition: MethodSVM.cxx:1163

TMVA::MethodSVM::fTolerance
Float_t fTolerance
Definition: MethodSVM.h:130

TMVA::MethodSVM::SetTuneParameters
virtual void SetTuneParameters(std::map< TString, Double_t > tuneParameters)
Set the tuning parameters according to the argument.
Definition: MethodSVM.cxx:917

TMVA::MethodSVM::fMaxVars
TVectorD * fMaxVars
Definition: MethodSVM.h:141

TMVA::MethodSVM::SetKappa
void SetKappa(Double_t k)
Definition: MethodSVM.h:108

TMVA::MethodSVM::GetMvaValue
Double_t GetMvaValue(Double_t *err=0, Double_t *errUpper=0)
returns MVA value for given event
Definition: MethodSVM.cxx:577

TMVA::MethodSVM::fMinVars
TVectorD * fMinVars
Definition: MethodSVM.h:140

TMVA::MethodSVM::DeclareOptions
void DeclareOptions()
declare options available for this method
Definition: MethodSVM.cxx:220

TMVA::MethodSVM::fVarNames
std::vector< TString > fVarNames
Definition: MethodSVM.h:152

TMVA::MethodSVM::WriteWeightsToStream
void WriteWeightsToStream(TFile &fout) const
TODO write IT write training sample (TTree) to file.
Definition: MethodSVM.cxx:507

TMVA::MethodSVM::SetMGamma
void SetMGamma(std::string &mg)
Takes as input a string of values for multigaussian gammas and splits it, filling the gamma vector re...
Definition: MethodSVM.cxx:1018

TMVA::MethodSVM::SetCost
void SetCost(Double_t c)
Definition: MethodSVM.h:104

TMVA::MethodSVM::HasAnalysisType
virtual Bool_t HasAnalysisType(Types::EAnalysisType type, UInt_t numberClasses, UInt_t numberTargets)
SVM can handle classification with 2 classes and regression with one regression-target.
Definition: MethodSVM.cxx:195

TMVA::MethodSVM::fSVKernelFunction
SVKernelFunction * fSVKernelFunction
Definition: MethodSVM.h:138

TMVA::MethodSVM::fBparm
Float_t fBparm
Definition: MethodSVM.h:133

TMVA::MethodSVM::ReadWeightsFromStream
void ReadWeightsFromStream(std::istream &istr)
Definition: MethodSVM.cxx:513

TMVA::MethodSVM::fMult
Float_t fMult
Definition: MethodSVM.h:149

TMVA::MethodSVM::OptimizeTuningParameters
virtual std::map< TString, Double_t > OptimizeTuningParameters(TString fomType="ROCIntegral", TString fitType="Minuit")
Optimize Tuning Parameters This is used to optimise the kernel function parameters and cost.
Definition: MethodSVM.cxx:760

TMVA::MethodSVM::fLoss
TString fLoss
Definition: MethodSVM.h:159

TMVA::MethodSVM::fDoubleSigmaSquared
Float_t fDoubleSigmaSquared
Definition: MethodSVM.h:145

TMVA::MethodSVM::GetMGamma
void GetMGamma(const std::vector< float > &gammas)
Produces GammaList string for multigaussian kernel to be written to xml file.
Definition: MethodSVM.cxx:1032

TMVA::MethodSVM::fDataSize
Int_t fDataSize
Definition: MethodSVM.h:158

TMVA::MethodSVM::AddWeightsXMLTo
void AddWeightsXMLTo(void *parent) const
write configuration to xml file
Definition: MethodSVM.cxx:398

TMVA::MethodSVM::fNumVars
Float_t fNumVars
Definition: MethodSVM.h:151

TMVA::MethodSVM::fOrder
Int_t fOrder
Definition: MethodSVM.h:146

TMVA::MethodSVM::SetTheta
void SetTheta(Double_t t)
Definition: MethodSVM.h:107

TMVA::MethodSVM::SetGamma
void SetGamma(Double_t g)
Definition: MethodSVM.h:103

TMVA::MethodSVM::fSupportVectors
std::vector< TMVA::SVEvent * > * fSupportVectors
Definition: MethodSVM.h:137

TMVA::MethodSVM::fKappa
Float_t fKappa
Definition: MethodSVM.h:148

TMVA::MethodSVM::fGamma
Float_t fGamma
Definition: MethodSVM.h:134

TMVA::MethodSVM::SetOrder
void SetOrder(Double_t o)
Definition: MethodSVM.h:106

TMVA::MethodSVM::Reset
void Reset(void)
Definition: MethodSVM.cxx:174

TMVA::MethodSVM::fNSubSets
UShort_t fNSubSets
Definition: MethodSVM.h:132

TMVA::MethodSVM::GetTuningOptions
std::map< TString, std::vector< Double_t > > GetTuningOptions()
GetTuningOptions Function to allow for ranges and number of steps (for scan) when optimising kernel f...
Definition: MethodSVM.cxx:1106

TMVA::MethodSVM::ReadWeightsFromXML
void ReadWeightsFromXML(void *wghtnode)
Definition: MethodSVM.cxx:430

TMVA::MethodSVM::fGammas
std::string fGammas
Definition: MethodSVM.h:153

TMVA::MethodSVM::fmGamma
std::vector< Float_t > fmGamma
Definition: MethodSVM.h:150

TMVA::MethodSVM::ProcessOptions
void ProcessOptions()
option post processing (if necessary)
Definition: MethodSVM.cxx:268

TMVA::MethodSVM::Train
void Train(void)
Train SVM.
Definition: MethodSVM.cxx:281

TMVA::MethodSVM::fCost
Float_t fCost
Definition: MethodSVM.h:129

TMVA::MethodSVM::CreateRanking
const Ranking * CreateRanking()
Definition: MethodSVM.h:100

TMVA::MethodSVM::fInputData
std::vector< TMVA::SVEvent * > * fInputData
Definition: MethodSVM.h:136

TMVA::MethodSVM::Init
void Init(void)
default initialisation
Definition: MethodSVM.cxx:205

TMVA::MethodSVM::MakeClassSpecific
void MakeClassSpecific(std::ostream &, const TString &) const
write specific classifier response
Definition: MethodSVM.cxx:635

TMVA::MethodSVM::~MethodSVM
virtual ~MethodSVM(void)
destructor
Definition: MethodSVM.cxx:161

TMVA::MethodSVM::fTheKernel
TString fTheKernel
Definition: MethodSVM.h:144

TMVA::MethodSVM::fMultiKernels
std::string fMultiKernels
Definition: MethodSVM.h:156

TMVA::MethodSVM::fTheta
Float_t fTheta
Definition: MethodSVM.h:147

TMVA::MethodSVM::GetRegressionValues
const std::vector< Float_t > & GetRegressionValues()
Definition: MethodSVM.cxx:602

TMVA::MethodSVM::SetMult
void SetMult(Double_t m)
Definition: MethodSVM.h:109

TMVA::MethodSVM::MethodSVM
MethodSVM(const TString &jobName, const TString &methodTitle, DataSetInfo &theData, const TString &theOption="")
standard constructor
Definition: MethodSVM.cxx:90

TMVA::MethodSVM::fTune
std::string fTune
Definition: MethodSVM.h:155

TMVA::MethodSVM::GetHelpMessage
void GetHelpMessage() const
get help message text
Definition: MethodSVM.cxx:715

TMVA::MethodSVM::fMaxIter
UInt_t fMaxIter
Definition: MethodSVM.h:131

TMVA::MethodSVM::MakeKernelList
std::vector< TMVA::SVKernelFunction::EKernelType > MakeKernelList(std::string multiKernels, TString kernel)
MakeKernelList Function providing string manipulation for product or sum of kernels functions to take...
Definition: MethodSVM.cxx:1054

TMVA::MethodSVM::DeclareCompatibilityOptions
void DeclareCompatibilityOptions()
options that are used ONLY for the READER to ensure backward compatibility
Definition: MethodSVM.cxx:251

TMVA::MethodSVM::fGammaList
std::string fGammaList
Definition: MethodSVM.h:154

TMVA::MethodSVM::fWgSet
SVWorkingSet * fWgSet
Definition: MethodSVM.h:135

TMVA::Ranking
Ranking for variables in method (implementation)
Definition: Ranking.h:48

TMVA::SVKernelFunction
Kernel for Support Vector Machine.
Definition: SVKernelFunction.h:36

TMVA::SVWorkingSet
Working class for Support Vector Machine.
Definition: SVWorkingSet.h:42

TMVA::Types::EAnalysisType
EAnalysisType
Definition: Types.h:127

TString
Basic string class.
Definition: TString.h:131

TVectorT< Double_t >

bool

int

unsigned int

TGeant4Unit::mg
static constexpr double mg
Definition: TGeant4SystemOfUnits.h:204

TMVA
create variable transformations
Definition: GeneticMinimizer.h:21

m
auto * m
Definition: textangle.C:8