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TUnuranContDist.cxx
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1// @(#)root/unuran:$Id$
2// Authors: L. Moneta, J. Leydold Wed Feb 28 2007
3
4/**********************************************************************
5 * *
6 * Copyright (c) 2006 LCG ROOT Math Team, CERN/PH-SFT *
7 * *
8 * *
9 **********************************************************************/
10
11// Implementation file for class TUnuranContDist
12
13#include "TUnuranContDist.h"
14#include "Math/RichardsonDerivator.h"
15#include "Math/WrappedTF1.h"
16
17#include "Math/Integrator.h"
18
19#include "TF1.h"
20#include <cassert>
21#include <cmath>
22
23ClassImp(TUnuranContDist);
24
25TUnuranContDist::TUnuranContDist (const ROOT::Math::IGenFunction & pdf, const ROOT::Math::IGenFunction * deriv, bool isLogPdf, bool copyFunc ) :
26 fPdf(&pdf),
27 fDPdf(deriv),
28 fCdf(0),
29 fXmin(1.),
30 fXmax(-1.),
31 fMode(0),
32 fArea(0),
33 fIsLogPdf(isLogPdf),
34 fHasDomain(0),
35 fHasMode(0),
36 fHasArea(0),
37 fOwnFunc(copyFunc)
38{
39 // Constructor from generic function interfaces
40 // manage the functions and clone them if flag copyFunc is true
41 if (fOwnFunc) {
42 fPdf = fPdf->Clone();
43 if (fDPdf) fDPdf->Clone();
44 }
45}
46
47
48TUnuranContDist::TUnuranContDist (TF1 * pdf, TF1 * deriv, bool isLogPdf ) :
49 fPdf( (pdf) ? new ROOT::Math::WrappedTF1 ( *pdf) : 0 ),
50 fDPdf( (deriv) ? new ROOT::Math::WrappedTF1 ( *deriv) : 0 ),
51 fCdf(0),
52 fXmin(1.),
53 fXmax(-1.),
54 fMode(0),
55 fArea(0),
56 fIsLogPdf(isLogPdf),
57 fHasDomain(0),
58 fHasMode(0),
59 fHasArea(0),
60 fOwnFunc(true)
61{
62 // Constructor from a TF1 objects
63 // function pointers are managed by class
64}
65
66
67TUnuranContDist::TUnuranContDist(const TUnuranContDist & rhs) :
68 TUnuranBaseDist(),
69 fPdf(0),
70 fDPdf(0),
71 fCdf(0)
72{
73 // Implementation of copy constructor
74 operator=(rhs);
75}
76
77TUnuranContDist & TUnuranContDist::operator = (const TUnuranContDist &rhs)
78{
79 // Implementation of assignment operator.
80 if (this == &rhs) return *this; // time saving self-test
81 fXmin = rhs.fXmin;
82 fXmax = rhs.fXmax;
83 fMode = rhs.fMode;
84 fArea = rhs.fArea;
85 fIsLogPdf = rhs.fIsLogPdf;
86 fHasDomain = rhs.fHasDomain;
87 fHasMode = rhs.fHasMode;
88 fHasArea = rhs.fHasArea;
89 fOwnFunc = rhs.fOwnFunc;
90 if (!fOwnFunc) {
91 fPdf = rhs.fPdf;
92 fDPdf = rhs.fDPdf;
93 fCdf = rhs.fCdf;
94 }
95 else {
96 if (fPdf) delete fPdf;
97 if (fDPdf) delete fDPdf;
98 if (fCdf) delete fCdf;
99 fPdf = (rhs.fPdf) ? rhs.fPdf->Clone() : 0;
100 fDPdf = (rhs.fDPdf) ? rhs.fDPdf->Clone() : 0;
101 fCdf = (rhs.fCdf) ? rhs.fCdf->Clone() : 0;
102 }
103
104 return *this;
105}
106
107TUnuranContDist::~TUnuranContDist() {
108 // destructor implementation
109 if (fOwnFunc) {
110 if (fPdf) delete fPdf;
111 if (fDPdf) delete fDPdf;
112 if (fCdf) delete fCdf;
113 }
114}
115
116void TUnuranContDist::SetCdf(const ROOT::Math::IGenFunction & cdf) {
117 // set cdf distribution using a generic function interface
118 fCdf = (fOwnFunc) ? cdf.Clone() : &cdf;
119}
120
121
122void TUnuranContDist::SetCdf(TF1 * cdf) {
123 // set cumulative distribution function from a TF1
124 if (!fOwnFunc) {
125 // need to manage all functions now
126 assert (fPdf != 0);
127 fPdf = fPdf->Clone();
128 if (fDPdf) fDPdf->Clone();
129 }
130 else
131 if (fOwnFunc && fCdf) delete fCdf;
132
133 fCdf = (cdf) ? new ROOT::Math::WrappedTF1 ( *cdf) : 0;
134 fOwnFunc = true;
135}
136
137double TUnuranContDist::Pdf ( double x) const {
138 // evaluate the pdf of the distribution
139 assert(fPdf != 0);
140 //fX[0] = x;
141 return (*fPdf)(x);
142}
143
144double TUnuranContDist::DPdf( double x) const {
145 // evaluate the derivative of the pdf
146 // if derivative function is not given is evaluated numerically
147 if (fDPdf != 0) {
148 //fX[0] = x;
149 return (*fDPdf)(x);
150 }
151 // do numerical derivation using numerical derivation
152 ROOT::Math::RichardsonDerivator rd;
153 static double gEps = 0.001;
154 double h = ( std::abs(x) > 0 ) ? gEps * std::abs(x) : gEps;
155 assert (fPdf != 0);
156 return rd.Derivative1( *fPdf, x, h);
157}
158
159double TUnuranContDist::Cdf(double x) const {
160 // evaluate the integral (cdf) on the domain
161 if (fCdf != 0) {
162 // fX[0] = x;
163 return (*fCdf)(x);
164 }
165 // do numerical integration
166 ROOT::Math::Integrator ig;
167 if (fXmin > fXmax) return ig.Integral( *fPdf );
168 else
169 return ig.Integral( *fPdf, fXmin, fXmax );
170
171}
172
h
#define h(i)
Definition: RSha256.hxx:106
ClassImp
#define ClassImp(name)
Definition: Rtypes.h:361
ROOT::Math::IBaseFunctionOneDim
Interface (abstract class) for generic functions objects of one-dimension Provides a method to evalua...
Definition: IFunction.h:135
ROOT::Math::IBaseFunctionOneDim::Clone
virtual IBaseFunctionOneDim * Clone() const =0
Clone a function.
ROOT::Math::IntegratorOneDim
User Class for performing numerical integration of a function in one dimension.
Definition: Integrator.h:94
ROOT::Math::IntegratorOneDim::Integral
double Integral(Function &f, double a, double b)
evaluate the Integral of a function f over the defined interval (a,b)
Definition: Integrator.h:496
ROOT::Math::RichardsonDerivator
User class for calculating the derivatives of a function.
Definition: RichardsonDerivator.h:55
ROOT::Math::RichardsonDerivator::Derivative1
double Derivative1(double x)
Returns the first derivative of the function at point x, computed by Richardson's extrapolation metho...
Definition: RichardsonDerivator.h:116
ROOT::Math::WrappedTF1
Class to Wrap a ROOT Function class (like TF1) in a IParamFunction interface of one dimensions to be ...
Definition: WrappedTF1.h:37
TF1
1-Dim function class
Definition: TF1.h:210
TUnuranBaseDist
TUnuranBaseDist, base class for Unuran distribution classees such as TUnuranContDist (for one-dimensi...
Definition: TUnuranBaseDist.h:29
TUnuranContDist
TUnuranContDist class describing one dimensional continuous distribution.
Definition: TUnuranContDist.h:48
TUnuranContDist::fDPdf
const ROOT::Math::IGenFunction * fDPdf
Definition: TUnuranContDist.h:192
TUnuranContDist::DPdf
double DPdf(double x) const
evaluate the derivative of the pdf.
Definition: TUnuranContDist.cxx:144
TUnuranContDist::fPdf
const ROOT::Math::IGenFunction * fPdf
Definition: TUnuranContDist.h:191
TUnuranContDist::TUnuranContDist
TUnuranContDist(TF1 *pdf=0, TF1 *deriv=0, bool isLogPdf=false)
Constructor from a TF1 objects specifying the pdf and optionally from another function representing t...
Definition: TUnuranContDist.cxx:48
TUnuranContDist::Pdf
double Pdf(double x) const
evaluate the Probability Density function.
Definition: TUnuranContDist.cxx:137
TUnuranContDist::fCdf
const ROOT::Math::IGenFunction * fCdf
Definition: TUnuranContDist.h:193
TUnuranContDist::Cdf
double Cdf(double x) const
evaluate the integral (cdf) on the domain.
Definition: TUnuranContDist.cxx:159
TUnuranContDist::SetCdf
void SetCdf(TF1 *cdf)
set cdf distribution.
Definition: TUnuranContDist.cxx:122
TUnuranContDist::~TUnuranContDist
virtual ~TUnuranContDist()
Destructor.
Definition: TUnuranContDist.cxx:107
TUnuranContDist::operator=
TUnuranContDist & operator=(const TUnuranContDist &rhs)
Assignment operator.
Definition: TUnuranContDist.cxx:77
x
Double_t x[n]
Definition: legend1.C:17
Math
Namespace for new Math classes and functions.
ROOT
tbb::task_arena is an alias of tbb::interface7::task_arena, which doesn't allow to forward declare tb...
Definition: StringConv.hxx:21