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Reference Guide
MinimTransformFunction.h
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1 // @(#)root/mathmore:$Id$
2 // Author: L. Moneta June 2009
3 
4 /**********************************************************************
5  * *
6  * Copyright (c) 2006 LCG ROOT Math Team, CERN/PH-SFT *
7  * *
8  * *
9  **********************************************************************/
10 
11 
12 // Header file for class MinimTransformFunction
13 
14 #ifndef ROOT_Math_MinimTransformFunction
15 #define ROOT_Math_MinimTransformFunction
16 
17 
18 #include "Math/IFunction.h"
19 
21 
22 
23 #include <vector>
24 #include <map>
25 
26 namespace ROOT {
27 
28  namespace Math {
29 
30 
31 
32 /**
33  MinimTransformFunction class to perform a transformations on the
34  variables to deal with fixed or limited variables (support both double and single bounds)
35  The class manages the passed function pointer
36 
37  @ingroup MultiMin
38 */
40 
41 public:
42 
45 
46 
47  /**
48  Constructor from a IMultiGradFunction interface (which is managed by the class)
49  vector specifying the variable types (free, bounded or fixed, defined in enum EMinimVariableTypes )
50  variable values (used for the fixed ones) and a map with the bounds (for the bounded variables)
51 
52  */
53  MinimTransformFunction ( const IMultiGradFunction * f, const std::vector<ROOT::Math::EMinimVariableType> & types, const std::vector<double> & values,
54  const std::map<unsigned int, std::pair<double, double> > & bounds);
55 
56 
57  /**
58  Destructor (delete function pointer)
59  */
61  if (fFunc) delete fFunc;
62  }
63 
64 
65  // method inherited from IFunction interface
66 
67  unsigned int NDim() const { return fIndex.size(); }
68 
69  unsigned int NTot() const { return fFunc->NDim(); }
70 
71  /// clone: not supported (since unique_ptr used in the fVariables)
73  return 0;
74  }
75 
76 
77  /// transform from internal to external
78  /// result is cached also inside the class
79  const double * Transformation( const double * x) const {
80  Transformation(x, &fX[0]);
81  return &fX.front();
82  }
83 
84 
85  /// transform from internal to external
86  void Transformation( const double * xint, double * xext) const;
87 
88  /// inverse transformation (external -> internal)
89  void InvTransformation(const double * xext, double * xint) const;
90 
91  /// inverse transformation for steps (external -> internal) at external point x
92  void InvStepTransformation(const double * x, const double * sext, double * sint) const;
93 
94  ///transform gradient vector (external -> internal) at internal point x
95  void GradientTransformation(const double * x, const double *gExt, double * gInt) const;
96 
97  ///transform covariance matrix (internal -> external) at internal point x
98  /// use row storages for matrices m(i,j) = rep[ i * dim + j]
99  void MatrixTransformation(const double * x, const double *covInt, double * covExt) const;
100 
101  // return original function
102  const IMultiGradFunction *OriginalFunction() const { return fFunc; }
103 
104 
105 private:
106 
107  /// function evaluation
108  virtual double DoEval(const double * x) const {
109 #ifndef DO_THREADSAFE
110  return (*fFunc)(Transformation(x));
111 #else
112  std::vector<double> xext(fVariables.size() );
113  Transformation(x, &xext[0]);
114  return (*fFunc)(&xext[0]);
115 #endif
116  }
117 
118  /// calculate derivatives
119  virtual double DoDerivative (const double * x, unsigned int icoord ) const {
120  const MinimTransformVariable & var = fVariables[ fIndex[icoord] ];
121  double dExtdInt = (var.IsLimited() ) ? var.DerivativeIntToExt( x[icoord] ) : 1.0;
122  double deriv = fFunc->Derivative( Transformation(x) , fIndex[icoord] );
123  //std::cout << "Derivative icoord (ext)" << fIndex[icoord] << " dtrafo " << dExtdInt << " " << deriv << std::endl;
124  return deriv * dExtdInt;
125  }
126 
127  // copy constructor for this class (disable by having it private)
129  BaseFunc(), BaseGradFunc()
130  {}
131 
132  // assignment operator for this class (disable by having it private)
134  return *this;
135  }
136 
137 
138 
139 private:
140 
141  mutable std::vector<double> fX; // internal cached of external values
142  std::vector<MinimTransformVariable> fVariables; // vector of variable settings and tranformation function
143  std::vector<unsigned int> fIndex; // vector with external indices for internal variables
144  const IMultiGradFunction * fFunc; // user function
145 
146 };
147 
148  } // end namespace Math
149 
150 } // end namespace ROOT
151 
152 
153 #endif /* ROOT_Math_MinimTransformFunction */
virtual double DoDerivative(const double *x, unsigned int icoord) const
calculate derivatives
Interface (abstract class) for multi-dimensional functions providing a gradient calculation.
Definition: IFunction.h:326
void MatrixTransformation(const double *x, const double *covInt, double *covExt) const
transform covariance matrix (internal -> external) at internal point x use row storages for matrices ...
Namespace for new ROOT classes and functions.
Definition: TFoamSampler.h:19
T Derivative(const T *x, unsigned int icoord=0) const
Return the partial derivative with respect to the passed coordinate.
Definition: IFunction.h:217
const double * Transformation(const double *x) const
transform from internal to external result is cached also inside the class
MinimTransformFunction & operator=(const MinimTransformFunction &)
ROOT::Math::IMultiGradFunction BaseGradFunc
MinimTransformFunction class to perform a transformations on the variables to deal with fixed or limi...
virtual double DoEval(const double *x) const
function evaluation
void InvTransformation(const double *xext, double *xint) const
inverse transformation (external -> internal)
IMultiGenFunction * Clone() const
clone: not supported (since unique_ptr used in the fVariables)
unsigned int NDim() const
Retrieve the dimension of the function.
Documentation for the abstract class IBaseFunctionMultiDim.
Definition: IFunction.h:62
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.
const IMultiGradFunction * OriginalFunction() const
~MinimTransformFunction()
Destructor (delete function pointer)
ROOT::Math::IMultiGradFunction::BaseFunc BaseFunc
* x
Deprecated and error prone model selection interface.
Definition: TRolke.cxx:630
MinimTransformFunction(const MinimTransformFunction &)
std::vector< MinimTransformVariable > fVariables
void InvStepTransformation(const double *x, const double *sext, double *sint) const
inverse transformation for steps (external -> internal) at external point x
Namespace for new Math classes and functions.
MinimTransformFunction(const IMultiGradFunction *f, const std::vector< ROOT::Math::EMinimVariableType > &types, const std::vector< double > &values, const std::map< unsigned int, std::pair< double, double > > &bounds)
Constructor from a IMultiGradFunction interface (which is managed by the class) vector specifying the...
void GradientTransformation(const double *x, const double *gExt, double *gInt) const
transform gradient vector (external -> internal) at internal point x
virtual unsigned int NDim() const =0
Retrieve the dimension of the function.