// @(#)root/mathmore:$Id$ // Author: L. Moneta 2009 /********************************************************************** * * * Copyright (c) 2006 LCG ROOT Math Team, CERN/PH-SFT * * * * * **********************************************************************/ // Header file for class MinimizerVariable #ifndef ROOT_Math_MinimizerVariable #define ROOT_Math_MinimizerVariable #ifndef ROOT_Math_MinimizerVariableTransformation #include "MinimizerVariableTransformation.h" #endif #include namespace ROOT { namespace Math { /** Enumeration describing the status of the variable The enumeration are used in the minimizer classes to categorize the variables */ enum EMinimVariableType { kDefault, // free variable (unlimited) kFix, // fixed variable kBounds, // variable has two bounds kLowBound, // variable has a lower bound kUpBound // variable has an upper bounds }; /** MinimTransformVariable class Contains meta information of the variables such as bounds, fix flags and deals with transformation of the variable The class does not contain the values and the step size (error) of the variable This is an internal class used by the MinimTransformFunction class @ingroup MultiMin */ class MinimTransformVariable { public: /** Default Constructor for an unlimited variable */ MinimTransformVariable () : fFix(false), fLowBound(false), fUpBound(false), fBounds(false), fTransform(0), fLower(1), fUpper(0) {} // constructor for fixed variable MinimTransformVariable (double value) : fFix(true), fLowBound(false), fUpBound(false), fBounds(false), fTransform(0), fLower(value), fUpper(value) {} // constructor for double bound variable MinimTransformVariable (double lower, double upper, SinVariableTransformation * trafo) : fFix(false), fLowBound(false), fUpBound(false), fBounds(true), fTransform(trafo), fLower(lower), fUpper(upper) { } // constructor for lower bound variable MinimTransformVariable (double lower, SqrtLowVariableTransformation * trafo) : fFix(false), fLowBound(true), fUpBound(false), fBounds(false), fTransform(trafo), fLower(lower), fUpper(lower) {} // constructor for upper bound variable MinimTransformVariable (double upper, SqrtUpVariableTransformation * trafo) : fFix(false), fLowBound(true), fUpBound(false), fBounds(false), fTransform(trafo), fLower(upper), fUpper(upper) {} // copy constructor MinimTransformVariable (const MinimTransformVariable & rhs) : fFix(rhs.fFix), fLowBound(rhs.fLowBound), fUpBound(rhs.fUpBound), fBounds(rhs.fBounds), fLower(rhs.fLower), fUpper(rhs.fUpper) { // swap auto_ptr fTransform.reset( const_cast( rhs).fTransform.release() ) ; } // assignment MinimTransformVariable & operator= (const MinimTransformVariable & rhs) { if (&rhs == this) return *this; fFix = rhs.fFix; fLowBound = rhs.fLowBound; fUpBound = rhs.fUpBound; fBounds = rhs.fBounds; fLower = rhs.fLower; fUpper = rhs.fUpper; // swap auto_ptr fTransform.reset( const_cast( rhs).fTransform.release() ) ; return *this; } bool IsFixed() const { return fFix; } bool IsLimited() const { return fBounds || fLowBound || fUpBound; } bool HasLowerBound() const { return fLowBound || fBounds; } bool HasUpperBound() const { return fUpBound || fBounds; } double LowerBound() const { return fLower; } double UpperBound() const { return fUpper; } double FixValue() const { return fLower; } // internal to external transformation double InternalToExternal( double x) const { return (fTransform.get() ) ? fTransform->Int2ext(x, fLower, fUpper) : x; } // derivative of the internal to external transformation ( d Int2Ext / d int ) double DerivativeIntToExt ( double x) const { return (fTransform.get() ) ? fTransform->DInt2Ext( x, fLower, fUpper) : 1.0; } // etxernal to internal transformation double ExternalToInternal(double x) const { return (fTransform.get() ) ? fTransform->Ext2int(x, fLower, fUpper) : x; } private: bool fFix; // fix variable bool fLowBound; // has lower bound bool fUpBound; // has uppper bound param bool fBounds; // has double bound std::auto_ptr< MinimizerVariableTransformation> fTransform; // pointer to the minimizer transformation double fLower; // lower parameter limit double fUpper; // upper parameter limit }; } // end namespace Math } // end namespace ROOT #endif /* ROOT_Math_MinimTransformVariable */