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WrappedTF1.cxx
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1// @(#)root/mathmore:$Id$
2// Author: L. Moneta Wed Sep 6 09:52:26 2006
3
4/**********************************************************************
5 * *
6 * Copyright (c) 2006 LCG ROOT Math Team, CERN/PH-SFT *
7 * *
8 * *
9 **********************************************************************/
10
11// implementation file for class WrappedTF1 and WrappedMultiTF1
12
13#include "Math/WrappedTF1.h"
15#include "TClass.h" // needed to copy the TF1 pointer
16
17#include <cmath>
18
19
20namespace ROOT {
21
22 namespace Math {
23
24 namespace Internal {
25 double DerivPrecision(double eps)
26 {
27 static double gEPs = 0.001; // static value for epsilon used in derivative calculations
28 if (eps > 0)
29 gEPs = eps;
30 return gEPs;
31 }
32
33 TF1 *CopyTF1Ptr(const TF1 *funcToCopy)
34 {
35 TF1 *fnew = (TF1 *) funcToCopy->IsA()->New();
36 funcToCopy->Copy(*fnew);
37 return fnew;
38 }
39 }
40
42 fLinear(false),
43 fPolynomial(false),
44 fFunc(&f),
45 fX()
46 //fParams(f.GetParameters(),f.GetParameters()+f.GetNpar())
47 {
48 // constructor from a TF1 function pointer.
49
50 // init the pointers for CINT
51 //if (fFunc->GetMethodCall() ) fFunc->InitArgs(fX, &fParams.front() );
52 if (fFunc->GetMethodCall()) fFunc->InitArgs(fX, 0);
53 // distinguish case of polynomial functions and linear functions
54 if (fFunc->GetNumber() >= 300 && fFunc->GetNumber() < 310) {
55 fLinear = true;
56 fPolynomial = true;
57 }
58 // check that in case function is linear the linear terms are not zero
59 if (fFunc->IsLinear()) {
60 int ip = 0;
61 fLinear = true;
62 while (fLinear && ip < fFunc->GetNpar()) {
63 fLinear &= (fFunc->GetLinearPart(ip) != 0) ;
64 ip++;
65 }
66 }
67 }
68
70 BaseFunc(),
72 IGrad(),
73 fLinear(rhs.fLinear),
74 fPolynomial(rhs.fPolynomial),
75 fFunc(rhs.fFunc),
76 fX()
77 //fParams(rhs.fParams)
78 {
79 // copy constructor
80 fFunc->InitArgs(fX, 0);
81 }
82
84 {
85 // assignment operator
86 if (this == &rhs) return *this; // time saving self-test
87 fLinear = rhs.fLinear;
89 fFunc = rhs.fFunc;
90 fFunc->InitArgs(fX, 0);
91 //fParams = rhs.fParams;
92 return *this;
93 }
94
95 void WrappedTF1::ParameterGradient(double x, const double *par, double *grad) const
96 {
97 // evaluate the derivative of the function with respect to the parameters
98 if (!fLinear) {
99 // need to set parameter values
100 fFunc->SetParameters(par);
101 // no need to call InitArgs (it is called in TF1::GradientPar)
103 } else {
104 unsigned int np = NPar();
105 for (unsigned int i = 0; i < np; ++i)
106 grad[i] = DoParameterDerivative(x, par, i);
107 }
108 }
109
110 double WrappedTF1::DoDerivative(double x) const
111 {
112 // return the function derivatives w.r.t. x
113
114 // parameter are passed as non-const in Derivative
115 //double * p = (fParams.size() > 0) ? const_cast<double *>( &fParams.front()) : 0;
116 return fFunc->Derivative(x, (double *) 0, GetDerivPrecision());
117 }
118
119 double WrappedTF1::DoParameterDerivative(double x, const double *p, unsigned int ipar) const
120 {
121 // evaluate the derivative of the function with respect to the parameters
122 //IMPORTANT NOTE: TF1::GradientPar returns 0 for fixed parameters to avoid computing useless derivatives
123 // BUT the TLinearFitter wants to have the derivatives also for fixed parameters.
124 // so in case of fLinear (or fPolynomial) a non-zero value will be returned for fixed parameters
125
126 if (! fLinear) {
128 return fFunc->GradientPar(ipar, &x, GetDerivPrecision());
129 } else if (fPolynomial) {
130 // case of polynomial function (no parameter dependency)
131 return std::pow(x, static_cast<int>(ipar));
132 } else {
133 // case of general linear function (built in TFormula with ++ )
134 const TFormula *df = dynamic_cast<const TFormula *>(fFunc->GetLinearPart(ipar));
135 assert(df != 0);
136 fX[0] = x;
137 // hack since TFormula::EvalPar is not const
138 return (const_cast<TFormula *>(df))->Eval(x) ; // derivatives should not depend on parameters since func is linear
139 }
140 }
141
143 {
145 }
146
148 {
150 }
151
152 } // end namespace Math
153
154} // end namespace ROOT
155
156
#define f(i)
Definition: RSha256.hxx:104
double pow(double, double)
Interface (abstract class) for generic functions objects of one-dimension Provides a method to evalua...
Definition: IFunction.h:135
Specialized Gradient interface(abstract class) for one dimensional functions It provides a method to ...
Definition: IFunction.h:247
Interface (abstract class) for parametric one-dimensional gradient functions providing in addition to...
Class to Wrap a ROOT Function class (like TF1) in a IParamFunction interface of one dimensions to be ...
Definition: WrappedTF1.h:37
WrappedTF1 & operator=(const WrappedTF1 &rhs)
Assignment operator.
Definition: WrappedTF1.cxx:83
WrappedTF1(TF1 &f)
constructor from a TF1 function pointer.
Definition: WrappedTF1.cxx:41
static void SetDerivPrecision(double eps)
precision value used for calculating the derivative step-size h = eps * |x|.
Definition: WrappedTF1.cxx:142
static double GetDerivPrecision()
get precision value used for calculating the derivative step-size
Definition: WrappedTF1.cxx:147
unsigned int NPar() const
return number of parameters
Definition: WrappedTF1.h:95
void ParameterGradient(double x, const double *par, double *grad) const
evaluate the derivative of the function with respect to the parameters
Definition: WrappedTF1.cxx:95
double DoParameterDerivative(double x, const double *p, unsigned int ipar) const
evaluate the derivative of the function with respect to the parameters
Definition: WrappedTF1.cxx:119
double DoDerivative(double x) const
return the function derivatives w.r.t. x
Definition: WrappedTF1.cxx:110
1-Dim function class
Definition: TF1.h:211
virtual Int_t GetNumber() const
Definition: TF1.h:492
virtual void Copy(TObject &f1) const
Copy this F1 to a new F1.
Definition: TF1.cxx:995
virtual Double_t GradientPar(Int_t ipar, const Double_t *x, Double_t eps=0.01)
Compute the gradient (derivative) wrt a parameter ipar.
Definition: TF1.cxx:2427
virtual Double_t Derivative(Double_t x, Double_t *params=0, Double_t epsilon=0.001) const
Returns the first derivative of the function at point x, computed by Richardson's extrapolation metho...
Definition: TF1.cxx:1097
virtual void InitArgs(const Double_t *x, const Double_t *params)
Initialize parameters addresses.
Definition: TF1.cxx:2454
TMethodCall * GetMethodCall() const
Definition: TF1.h:488
virtual Bool_t IsLinear() const
Definition: TF1.h:596
virtual void SetParameters(const Double_t *params)
Definition: TF1.h:638
virtual const TObject * GetLinearPart(Int_t i) const
Definition: TF1.h:459
The Formula class.
Definition: TFormula.h:84
Double_t x[n]
Definition: legend1.C:17
Namespace for new Math classes and functions.
double DerivPrecision(double eps)
Definition: WrappedTF1.cxx:25
TF1 * CopyTF1Ptr(const TF1 *funcToCopy)
Definition: WrappedTF1.cxx:33
Namespace for new ROOT classes and functions.
Definition: StringConv.hxx:21