Logo ROOT  
Reference Guide
ParamFunctor.h
Go to the documentation of this file.
1// @(#)root/mathcore:$Id$
2// Author: L. Moneta Mon Nov 13 15:58:13 2006
3
4/**********************************************************************
5 * *
6 * Copyright (c) 2006 LCG ROOT Math Team, CERN/PH-SFT *
7 * *
8 * *
9 **********************************************************************/
10
11// Header file for Functor classes.
12// design is inspired by the Loki Functor
13
14#ifndef ROOT_Math_ParamFunctor
15#define ROOT_Math_ParamFunctor
16
17// #ifndef ROOT_Math_IFunction
18// #include "Math/IFunction.h"
19// #endif
20
21// #ifndef Root_Math_StaticCheck
22// #include "Math/StaticCheck.h"
23// #endif
24
25//#ifndef __CINT__
26//#include <memory>
27
28#include "Rtypes.h"
29#include <functional>
30#include <vector>
31#include <iostream>
32
33namespace ROOT {
34
35namespace Math {
36
37
38/** class defining the signature for multi-dim parametric functions
39
40 @ingroup ParamFunctor_int
41 */
42template<class T>
44 public:
45 virtual ~ParamFunctionBase() {}
46 virtual T operator() (const T * x, const double *p) = 0;
47 virtual T operator() (T * x, double *p) = 0;
48 virtual ParamFunctionBase * Clone() const = 0;
49};
50
51
52
53/**
54 ParamFunctor Handler class is responsible for wrapping any other functor and pointer to
55 free C functions.
56 It can be created from any function implementing the correct signature
57 corresponding to the requested type
58
59 @ingroup ParamFunctor_int
60
61*/
62#ifndef __CINT__
63
64template<class ParentFunctor, class Func >
65class ParamFunctorHandler : public ParentFunctor::Impl {
66
67 typedef typename ParentFunctor::EvalType EvalType;
68 typedef typename ParentFunctor::Impl Base;
69
70public:
71
72 // constructor
73 ParamFunctorHandler(const Func & fun) : fFunc(fun) {}
74
75
77
78
79 // for 1D functions
80 inline EvalType operator() (EvalType x, double *p) {
81 return fFunc(x,p);
82 }
83// inline double operator() (double x, const double *p) const {
84// return fFunc(x,p);
85// }
86 // for multi-dimensional functions
87// inline double operator() (const double * x, const double *p) const {
88// return fFunc(x,p);
89// }
90 inline EvalType operator() (EvalType * x, double *p) {
92 }
93
94 inline EvalType operator() (const EvalType * x, const double *p) {
96 }
97
98 // clone (use same pointer)
100 return new ParamFunctorHandler(fFunc);
101 }
102
103
104private :
105
106 Func fFunc;
107
108 // structure to distinguish pointer types
109 template <typename F,typename T> struct FuncEvaluator {
110 inline static T Eval( F & f, T *x, double * p) {
111 return f(x, p);
112 }
113
114 inline static T EvalConst( F & f, const T *x, const double * p) {
115 return f((T*)x, (double*)p);
116 }
117 };
118
119 template <typename F, typename T> struct FuncEvaluator<F*, T> {
120 inline static T Eval( F * f, T *x, double * p) {
121 return (*f)(x, p);
122 }
123
124 inline static T EvalConst( F * f, const T *x, const double * p) {
125 return (*f)((T*)x, (double*)p);
126
127 }
128 };
129
130 template <typename F,typename T> struct FuncEvaluator<F* const, T> {
131 inline static T Eval( const F * f, T *x, double * p) {
132 return (*f)(x, p);
133 }
134
135 inline static T EvalConst( const F * f, const T *x, const double * p) {
136 return (*f)((T*)x, (double*)p);
137 }
138 };
139
140 // need maybe also volatile ?
141};
142
143
144#if defined(__MAKECINT__) || defined(G__DICTIONARY)
145// needed since CINT initialize it with TRootIOCtor
146//class TRootIOCtor;
147template<class ParentFunctor>
148class ParamFunctorHandler<ParentFunctor,TRootIOCtor *> : public ParentFunctor::Impl
149{
150public:
151
152 ParamFunctorHandler(TRootIOCtor *) {}
153
154 double operator() (double *, double * ) { return 0; }
155
156 double operator() (const double *, const double * ) { return 0; }
157 // clone (use same pointer)
158 ParamFunctorHandler * Clone() const {
159 return 0;
160 }
161
162};
163#endif
164
165
166/**
167 ParamFunctor Handler to Wrap pointers to member functions
168
169 @ingroup ParamFunctor_int
170*/
171template <class ParentFunctor, typename PointerToObj,
172 typename PointerToMemFn>
173class ParamMemFunHandler : public ParentFunctor::Impl
174{
175 typedef typename ParentFunctor::Impl Base;
176
177
178public:
179
180 /// constructor from a pointer to the class and a pointer to the function
181 ParamMemFunHandler(const PointerToObj& pObj, PointerToMemFn pMemFn)
182 : fObj(pObj), fMemFn(pMemFn)
183 {}
184
186
187// inline double operator() (double x, const double * p) const {
188// return ((*fObj).*fMemFn)(x,p);
189// }
190
191 inline double operator() (double x, double * p) {
192 return ((*fObj).*fMemFn)(x,p);
193 }
194
195// inline double operator() (const double * x, const double * p) const {
196// return ((*fObj).*fMemFn)(x,p);
197// }
198
199 inline double operator() (double * x, double * p) {
201 }
202
203 inline double operator() (const double * x, const double * p) {
205 }
206
207 // clone (use same pointer)
209 return new ParamMemFunHandler(fObj, fMemFn);
210 }
211
212private:
213
214 // structure to distinguish pointer types
215 template <typename PObj, typename F,typename T> struct MemFuncEvaluator {
216 inline static T Eval(PObj & pobj, F & f, T *x, double * p) {
217 return ((*pobj).*f)(x, p);
218 }
219
220 inline static T EvalConst(PObj & pobj, F & f, const T *x, const double * p) {
221 return ((*pobj).*f)((T*)x, (double*)p);
222 }
223 };
224
225
226 // // these are needed ??
227 // template <typename PObj, typename F, typename T> struct MemFuncEvaluator<PObj,F*, T> {
228 // inline static T Eval(PObj & pobj, F * f, T *x, double * p) {
229 // return ((*pobj).*f)f(x, p);
230 // }
231
232 // inline static T EvalConst(PObj & pobj, F * f, const T *x, const double * p) {
233 // return ((*pobj).*f)((T*)x, (double*)p);
234
235 // }
236 // };
237
238 // template <typename PObj, typename F,typename T> struct FuncEvaluator<PObj,F* const, T> {
239 // inline static T Eval(PObj &, const F * f, T *x, double * p) {
240 // return ((*pobj).*f)f(x, p);
241 // }
242
243 // inline static T EvalConst(PObj & pobj, const F * f, const T *x, const double * p) {
244 // return ((*pobj).*f)((T*)x, (double*)p);
245 // }
246 // };
247
248private :
249 ParamMemFunHandler(const ParamMemFunHandler&); // Not implemented
251
252 PointerToObj fObj;
253 PointerToMemFn fMemFn;
254
255};
256
257#endif
258
259
260
261/**
262 Param Functor class for Multidimensional functions.
263 It is used to wrap in a very simple and convenient way
264 any other C++ callable object (implemention double operator( const double *, const double * ) )
265 or a member function with the correct signature,
266 like Foo::EvalPar(const double *, const double *)
267
268 @ingroup ParamFunc
269
270 */
271
272
273template<class T>
275
276
277public:
278
279 typedef T EvalType;
281
282
283 /**
284 Default constructor
285 */
287
288
289 /**
290 construct from a pointer to member function (multi-dim type)
291 */
292 template <class PtrObj, typename MemFn>
293 ParamFunctorTempl(const PtrObj& p, MemFn memFn)
294 : fImpl(new ParamMemFunHandler<ParamFunctorTempl<T>, PtrObj, MemFn>(p, memFn))
295 {}
296
297
298
299 /**
300 construct from another generic Functor of multi-dimension
301 */
302 template <typename Func>
303 explicit ParamFunctorTempl( const Func & f) :
305 {}
306
307
308
309 // specialization used in TF1
310 typedef T (* FreeFunc ) (T * , double *);
313 {
314 }
315
316 // specialization used in TF1
317 ParamFunctorTempl(const std::function<T(const T *f, const Double_t *param)> &func) :
318 fImpl(new ParamFunctorHandler<ParamFunctorTempl<T>, const std::function<T(const T *f, const Double_t *param)>>(func))
319 {
320 }
321
322 /**
323 Destructor (no operations)
324 */
326 if (fImpl) delete fImpl;
327 }
328
329 /**
330 Copy constructor
331 */
333 fImpl(0)
334 {
335// if (rhs.fImpl.get() != 0)
336// fImpl = std::unique_ptr<Impl>( (rhs.fImpl)->Clone() );
337 if (rhs.fImpl != 0) fImpl = rhs.fImpl->Clone();
338 }
339
340 /**
341 Assignment operator
342 */
344// ParamFunctor copy(rhs);
345 // swap unique_ptr by hand
346// Impl * p = fImpl.release();
347// fImpl.reset(copy.fImpl.release());
348// copy.fImpl.reset(p);
349
350 if(this != &rhs) {
351 if (fImpl) delete fImpl;
352 fImpl = 0;
353 if (rhs.fImpl != 0)
354 fImpl = rhs.fImpl->Clone();
355 }
356 return *this;
357 }
358
359 void * GetImpl() { return (void *) fImpl; }
360
361
362 T operator() ( T * x, double * p) {
363 return (*fImpl)(x,p);
364 }
365
366 T operator() (const T * x, const double * p) {
367 return (*fImpl)(x,p);
368 }
369
370
371 bool Empty() const { return fImpl == 0; }
372
373
375 fImpl = f;
376 }
377
378private :
379
380
381 //std::unique_ptr<Impl> fImpl;
383
384
385};
386
387
389
390 } // end namespace Math
391
392} // end namespace ROOT
393
394
395#endif /* ROOT_Math_ParamFunctor */
#define f(i)
Definition: RSha256.hxx:104
double Double_t
Definition: RtypesCore.h:57
TRObject operator()(const T1 &t1) const
class defining the signature for multi-dim parametric functions
Definition: ParamFunctor.h:43
virtual T operator()(const T *x, const double *p)=0
virtual ParamFunctionBase * Clone() const =0
ParamFunctor Handler class is responsible for wrapping any other functor and pointer to free C functi...
Definition: ParamFunctor.h:65
EvalType operator()(EvalType x, double *p)
Definition: ParamFunctor.h:80
ParentFunctor::EvalType EvalType
Definition: ParamFunctor.h:67
ParentFunctor::Impl Base
Definition: ParamFunctor.h:68
ParamFunctorHandler(const Func &fun)
Definition: ParamFunctor.h:73
ParamFunctorHandler * Clone() const
Definition: ParamFunctor.h:99
Param Functor class for Multidimensional functions.
Definition: ParamFunctor.h:274
ParamFunctorTempl(const ParamFunctorTempl &rhs)
Copy constructor.
Definition: ParamFunctor.h:332
ParamFunctorTempl(const Func &f)
construct from another generic Functor of multi-dimension
Definition: ParamFunctor.h:303
ParamFunctorTempl()
Default constructor.
Definition: ParamFunctor.h:286
ParamFunctorTempl(const PtrObj &p, MemFn memFn)
construct from a pointer to member function (multi-dim type)
Definition: ParamFunctor.h:293
ParamFunctorTempl(const std::function< T(const T *f, const Double_t *param)> &func)
Definition: ParamFunctor.h:317
T operator()(T *x, double *p)
Definition: ParamFunctor.h:362
virtual ~ParamFunctorTempl()
Destructor (no operations)
Definition: ParamFunctor.h:325
T(* FreeFunc)(T *, double *)
Definition: ParamFunctor.h:310
ParamFunctionBase< T > Impl
Definition: ParamFunctor.h:280
ParamFunctorTempl & operator=(const ParamFunctorTempl &rhs)
Assignment operator.
Definition: ParamFunctor.h:343
ParamFunctor Handler to Wrap pointers to member functions.
Definition: ParamFunctor.h:174
ParamMemFunHandler * Clone() const
Definition: ParamFunctor.h:208
ParentFunctor::Impl Base
Definition: ParamFunctor.h:175
double operator()(double x, double *p)
Definition: ParamFunctor.h:191
ParamMemFunHandler & operator=(const ParamMemFunHandler &)
ParamMemFunHandler(const ParamMemFunHandler &)
ParamMemFunHandler(const PointerToObj &pObj, PointerToMemFn pMemFn)
constructor from a pointer to the class and a pointer to the function
Definition: ParamFunctor.h:181
Double_t x[n]
Definition: legend1.C:17
#define F(x, y, z)
Namespace for new Math classes and functions.
double T(double x)
Definition: ChebyshevPol.h:34
void function(const Char_t *name_, T fun, const Char_t *docstring=0)
Definition: RExports.h:151
tbb::task_arena is an alias of tbb::interface7::task_arena, which doesn't allow to forward declare tb...
Definition: StringConv.hxx:21
static T EvalConst(F *f, const T *x, const double *p)
Definition: ParamFunctor.h:124
static T EvalConst(const F *f, const T *x, const double *p)
Definition: ParamFunctor.h:135
static T EvalConst(F &f, const T *x, const double *p)
Definition: ParamFunctor.h:114
static T Eval(F &f, T *x, double *p)
Definition: ParamFunctor.h:110
static T EvalConst(PObj &pobj, F &f, const T *x, const double *p)
Definition: ParamFunctor.h:220
static T Eval(PObj &pobj, F &f, T *x, double *p)
Definition: ParamFunctor.h:216