// @(#)root/tmva $Id$
// Author: Andreas Hoecker, Joerg Stelzer, Helge Voss
/**********************************************************************************
* Project: TMVA - a Root-integrated toolkit for multivariate data analysis *
* Package: TMVA *
* Class : ConvergenceTest *
* Web : http://tmva.sourceforge.net *
* *
* Description: *
* Contains all the data information *
* *
* Authors (alphabetical): *
* Andreas Hoecker <Andreas.Hocker@cern.ch> - CERN, Switzerland *
* Peter Speckmayer <Peter.Speckmayer@cern.ch> - CERN, Switzerland *
* Joerg Stelzer <Joerg.Stelzer@cern.ch> - CERN, Switzerland *
* Helge Voss <Helge.Voss@cern.ch> - MPI-K Heidelberg, Germany *
* *
* Copyright (c) 2006: *
* CERN, Switzerland *
* U. of Victoria, Canada *
* MPI-K Heidelberg, Germany *
* *
* 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_ConvergenceTest
#define ROOT_TMVA_ConvergenceTest
//////////////////////////////////////////////////////////////////////////
// //
// ConvergenceTest //
// //
// check for convergence //
// //
//////////////////////////////////////////////////////////////////////////
#include <deque>
#ifndef ROOT_Rtypes
#include "Rtypes.h"
#endif
namespace TMVA {
class ConvergenceTest {
public:
ConvergenceTest();
~ConvergenceTest();
// setters
void SetConvergenceParameters( Int_t steps, Double_t improvement )
{ fSteps = steps; fImprovement = improvement; }
void SetCurrentValue( Float_t value ) { fCurrentValue = value; }
Float_t GetCurrentValue() { return fCurrentValue; }
void ResetConvergenceCounter() { fCounter = -1; fMaxCounter = 0; }
// getters
Bool_t HasConverged( Bool_t withinConvergenceBand = kFALSE );
Float_t Progress(); // from 0 (just started) to 1 (finished)
Float_t SpeedControl( UInt_t ofSteps );
protected:
Float_t fCurrentValue; //! current value
Float_t fImprovement; //! minimum improvement which counts as improvement
Int_t fSteps; //! number of steps without improvement required for convergence
private:
Int_t fCounter; //! counts the number of steps without improvement
Float_t fConvValue; //! the best "fitness" value
Int_t fMaxCounter; //! maximum value for the counter so far
// speed-control (gives back the learning speed = improvement-rate in the last N steps)
// successList keeps track of the improvements to be able
Float_t fBestResult; //
Float_t fLastResult; //
std::deque<Short_t> fSuccessList; // to calculate the improvement-speed
};
}
#endif