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GSLMinimizer1D.h
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1// @(#)root/mathmore:$Id$
2// Author: L. Moneta, A. Zsenei 08/2005
3 /**********************************************************************
4 * *
5 * Copyright (c) 2004 moneta, CERN/PH-SFT *
6 * *
7 * This library is free software; you can redistribute it and/or *
8 * modify it under the terms of the GNU General Public License *
9 * as published by the Free Software Foundation; either version 2 *
10 * of the License, or (at your option) any later version. *
11 * *
12 * This library is distributed in the hope that it will be useful, *
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
15 * General Public License for more details. *
16 * *
17 * You should have received a copy of the GNU General Public License *
18 * along with this library (see file COPYING); if not, write *
19 * to the Free Software Foundation, Inc., 59 Temple Place, Suite *
20 * 330, Boston, MA 02111-1307 USA, or contact the author. *
21 * *
22 **********************************************************************/
23
24// Header file for class GSLMinimizer1D
25//
26// Created by: moneta at Wed Dec 1 15:04:51 2004
27//
28// Last update: Wed Dec 1 15:04:51 2004
29//
30
31#ifndef ROOT_Math_GSLMinimizer1D
32#define ROOT_Math_GSLMinimizer1D
33
34#include "Math/IMinimizer1D.h"
36
37
38namespace ROOT {
39namespace Math {
40
41 namespace Minim1D {
42
43 /**
44 Enumeration with One Dimensional Minimizer Algorithms.
45 The algorithms are implemented using GSL, see the
46 <A HREF="http://www.gnu.org/software/gsl/manual/gsl-ref_33.html#SEC447">GSL manual</A>.
47
48 The algorithms available are:
49 <ul>
50 <li><em>Golden Section Algorithm</em>, simplest method of bracketing the minimum of a function
51 <li><em>Brent Algorithm</em>, which combines a parabolic interpolation with the golden section algorithm
52 </ul>
53 @ingroup Min1D
54 */
55
57 kBRENT
58 };
59 }
60
61 class GSL1DMinimizerWrapper;
62 class GSLFunctionWrapper;
63
64//______________________________________________________________________________________
65/**
66
67Minimizer for arbitrary one dimensional functions.
68
69Implemented using GSL, for detailed description see:
70<A HREF="http://www.gnu.org/software/gsl/manual/html_node/One-dimensional-Minimization.html">GSL online doc</A>
71
72The algorithms uspported are only bracketing algorithm which do not use derivatives information.
73The algorithms which can be chosen at construction time are GOLDENSECTION, whic is the simplest method
74but the slowest and BRENT (the default one) which combines the golden section with a parabolic interpolation.
75
76
77This class does not support copying
78@ingroup Min1D
79*/
80
82
83 public:
84
85 /**
86 Construct the minimizer passing the minimizer type using the Minim1D::Algorithm enumeration
87 */
88
90
91 /**
92 Destructor: free allocated resources
93 */
94 ~GSLMinimizer1D() override;
95
96 private:
97 // usually copying is non trivial, so we make this unaccessible
100
101 public:
102
103
104 /**
105 Set, or reset, minimizer to use the function f and the initial search interval [xlow, xup], with a guess for the location of the minimum xmin.
106 The condition : \f$ f(xlow) > f(xmin) < f(xup)\f$ must be satisfied
107 */
108 template <class UserFunc>
109 void SetFunction( const UserFunc & f, double xmin, double xlow, double xup) {
110 const void * p = &f;
111 SetFunction( &GSLFunctionAdapter<UserFunc>::F, const_cast<void *>(p), xmin, xlow, xup );
112 }
113
114 /**
115 Set, or reset, minimizer to use the function f and the initial search interval [xlow, xup], with a guess for the location of the minimum xmin.
116 The condition : \f$ f(xlow) > f(xmin) < f(xup) \f$ must be satisfied
117
118 Method specialized on the GSL function type
119 */
120 void SetFunction( GSLFuncPointer f, void * params, double xmin, double xlow, double xup);
121
122 /**
123 Perform a minimizer iteration and
124 if an unexepcted problem occurr then an error code will be returned
125 */
126 int Iterate();
127
128
129 /**
130 Return current estimate of the position of the minimum
131 */
132 double XMinimum() const override;
133
134 /**
135 Return current lower bound of the minimization interval
136 */
137 double XLower() const override;
138
139 /**
140 Return current upper bound of the minimization interval
141 */
142 double XUpper() const override;
143
144 /**
145 Return function value at current estimate of the minimum
146 */
147 double FValMinimum() const override;
148
149 /**
150 Return function value at current lower bound of the minimization interval
151 */
152 double FValLower() const override;
153
154 /**
155 Return function value at current upper bound of the minimization interval
156 */
157 double FValUpper() const override;
158
159
160 /**
161 Find minimum position iterating until convergence specified by the absolute and relative tolerance or
162 the maximum number of iteration is reached
163 Return true is result is successfull
164 \@param maxIter maximum number of iteration
165 \@param absTol desired absolute error in the minimum position
166 \@param absTol desired relative error in the minimum position
167 */
168 bool Minimize( int maxIter, double absTol, double relTol) override;
169
170
171 /**
172 Return number of iteration used to find minimum
173 */
174 int Iterations() const override {
175 return fIter;
176 }
177
178 /**
179 Return status of last minimization
180 */
181 int Status() const override { return fStatus; }
182
183 /**
184 Return name of minimization algorithm
185 */
186 const char * Name() const override;
187
188 /**
189 Test convergence of the interval.
190 The test returns success if
191 \f[
192 |x_{min}-x_{truemin}| < epsAbs + epsRel *x_{truemin}
193 \f]
194 */
195 static int TestInterval( double xlow, double xup, double epsAbs, double epsRel);
196
197
198 protected:
199
200
201 private:
202
203 double fXmin;
204 double fXlow;
205 double fXup;
206 double fMin;
207 double fLow;
208 double fUp;
209 int fIter;
210 int fStatus; // status of last minimization (==0 ok =1 failed)
211 bool fIsSet;
212
213
216
217 };
218
219} // end namespace Math
220
221} // end namespace ROOT
222
223
224#endif /* ROOT_Math_GSLMinimizer1D */
#define f(i)
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float xmin
wrapper class for gsl_min_fminimizer structure
Class for adapting any C++ functor class to C function pointers used by GSL.
Wrapper class to the gsl_function C structure.
Minimizer for arbitrary one dimensional functions.
double FValMinimum() const override
Return function value at current estimate of the minimum.
GSLMinimizer1D & operator=(const GSLMinimizer1D &)
const char * Name() const override
Return name of minimization algorithm.
int Status() const override
Return status of last minimization.
int Iterate()
Perform a minimizer iteration and if an unexepcted problem occurr then an error code will be returned...
GSL1DMinimizerWrapper * fMinimizer
double XLower() const override
Return current lower bound of the minimization interval.
static int TestInterval(double xlow, double xup, double epsAbs, double epsRel)
Test convergence of the interval.
void SetFunction(const UserFunc &f, double xmin, double xlow, double xup)
Set, or reset, minimizer to use the function f and the initial search interval [xlow,...
int Iterations() const override
Return number of iteration used to find minimum.
double XUpper() const override
Return current upper bound of the minimization interval.
double FValUpper() const override
Return function value at current upper bound of the minimization interval.
~GSLMinimizer1D() override
Destructor: free allocated resources.
double FValLower() const override
Return function value at current lower bound of the minimization interval.
GSLFunctionWrapper * fFunction
double XMinimum() const override
Return current estimate of the position of the minimum.
bool Minimize(int maxIter, double absTol, double relTol) override
Find minimum position iterating until convergence specified by the absolute and relative tolerance or...
Interface class for numerical methods for one-dimensional minimization.
Type
Enumeration with One Dimensional Minimizer Algorithms.
Namespace for new Math classes and functions.
double(* GSLFuncPointer)(double, void *)
Function pointer corresponding to gsl_function signature.
This file contains a specialised ROOT message handler to test for diagnostic in unit tests.