source: Sophya/trunk/SophyaLib/TArray/tarray.h@ 2588

Last change on this file since 2588 was 2588, checked in by ansari, 21 years ago

1/ Ajout methodes Mul/Div(const TArray<T>& a) pour mult/div elt/elt in place

(a remplacer eventuellement par l'operateur *= /= )

2/ Ajout fonctions inline MultiplyElt(const TArray<T>& a,const TArray<T>& b)
et DivideElt(const TArray<T>& a,const TArray<T>& b)

Reza, 30 Juillet 2004
File size: 17.9 KB
RevLine 
[772]1// This may look like C code, but it is really -*- C++ -*-
2// template array class for numerical types
3// R. Ansari, C.Magneville 03/2000
4
5#ifndef TArray_SEEN
6#define TArray_SEEN
7
8#include "machdefs.h"
9#include <math.h>
[2322]10#include <iostream>
[787]11#include "basarr.h"
[772]12#include "ndatablock.h"
13#include <complex>
[785]14#include "utilarr.h"
[772]15
16
17namespace SOPHYA {
18
19// Forward declaration
20template <class T> class FIO_TArray;
21
[787]22// --------------------------- classe template Array -----------------------
23// ( See BaseArray class for data organisation in memory and related methods )
24
[894]25//! Class for template arrays
[772]26template <class T>
[787]27class TArray : public BaseArray {
[772]28public:
29 // Creation / destruction
30 TArray();
[2564]31 TArray(int_4 ndim, const sa_size_t * siz, sa_size_t step =1, bool fzero=true);
32 TArray(sa_size_t nx, sa_size_t ny=0, sa_size_t nz=0, sa_size_t nt=0, sa_size_t nu=0, bool fzero=true);
[1156]33 TArray(int_4 ndim, const sa_size_t * siz, NDataBlock<T> & db, bool share=false, sa_size_t step=1, sa_size_t offset=0);
34 TArray(int_4 ndim, const sa_size_t * siz, T* values, sa_size_t step=1, sa_size_t offset=0, Bridge* br=NULL);
[772]35 TArray(const TArray<T>& a);
36 TArray(const TArray<T>& a, bool share);
[1081]37 TArray(const BaseArray& a);
[772]38
39 virtual ~TArray();
40
[967]41 // A = B
[894]42 //! = operator between TArray
[976]43 /*! \warning Datas are copied (cloned) from \b a.
44 \sa Set \sa NDataBlock::operator=(const NDataBlock<T>&) */
[804]45 inline TArray<T>& operator = (const TArray<T>& a) { return Set(a); }
46 virtual TArray<T>& Set(const TArray<T>& a);
[772]47
[1081]48 //! = operator between TArray 's with different types - Elements are converted.
49 inline TArray<T>& operator = (const BaseArray& a) { return SetBA(a); }
50 virtual TArray<T>& SetBA(const BaseArray& a);
51
[772]52 // Gestion taille/Remplissage
53 virtual void Clone(const TArray<T>& a);
[970]54 // partage les donnees si "a" temporaire, clone sinon.
55 void CloneOrShare(const TArray<T>& a);
56 // Share: partage les donnees de "a"
[1393]57 void Share(const TArray<T>& a);
[970]58
[2564]59 void ReSize(int_4 ndim, sa_size_t * siz, sa_size_t step=1, bool fzero=true);
[2569]60 void ReSize(const BaseArray& a, bool pack=false, bool fzero=true);
[1393]61 //! a synonym (alias) for method ReSize(int_4, ...)
[2564]62 inline void SetSize(int_4 ndim, sa_size_t * siz, sa_size_t step=1, bool fzero=true)
63 { ReSize(ndim, siz, step, fzero); }
[1517]64 //! a synonym (alias) for method ReSize(const BaseArray&)
[2569]65 inline void SetSize(const BaseArray& a, bool pack=false, bool fzero=true)
[2564]66 { ReSize(a, pack, fzero); }
[1156]67 void Realloc(int_4 ndim, sa_size_t * siz, sa_size_t step=1, bool force=false);
[787]68
[785]69 // Compacts size=1 array dimensions
[787]70 virtual TArray<T>& CompactAllDimensions();
71 virtual TArray<T>& CompactTrailingDimensions();
[785]72
[804]73 // Packing array elements in memory
74 virtual TArray<T> PackElements(bool force=false) const ;
[772]75
[804]76 // SubArrays - $CHECK$ Reza 03/2000 je ne sais pas s'il faut declarer ca const ??
[894]77 TArray<T> SubArray(Range rx, Range ry, Range rz, Range rt, Range ru) const ;
[1891]78
[894]79 //! () operator for Sub arrays extraction
80 /*! \sa SubArray */
[963]81 inline TArray<T> operator () (Range rx, Range ry, Range rz) const
82 { return SubArray(rx, ry, rz, Range(0), Range(0)); }
83 inline TArray<T> operator () (Range rx, Range ry, Range rz, Range rt) const
84 { return SubArray(rx, ry, rz, rt, Range(0)); }
85 inline TArray<T> operator () (Range rx, Range ry, Range rz, Range rt, Range ru) const
86 { return SubArray(rx, ry, rz, rt, ru); }
[772]87
[787]88 // ---- Access to data
89 // Definition of virtual element acces method inherited from BaseArray class
[1156]90 virtual MuTyV & ValueAtPosition(sa_size_t ip) const;
[785]91
[787]92 // Data Access: operator overloaded inline acces methods
[1156]93 inline T const& operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz) const ;
94 inline T& operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz);
95 inline T const& operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu=0) const ;
96 inline T& operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu=0);
97 inline T const& operator[](sa_size_t ip) const ;
98 inline T& operator[](sa_size_t ip);
[772]99
[1156]100 inline T const& Elem(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it=0, sa_size_t iu=0) const ;
101 inline T& Elem(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it=0, sa_size_t iu=0);
102 inline T const& ElemCheckBound(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it=0, sa_size_t iu=0) const ;
103 inline T& ElemCheckBound(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it=0, sa_size_t iu=0);
[772]104
[894]105 //! Return pointer to first element adress
[772]106 inline T* Data() {return mNDBlock.Begin()+offset_;}
[894]107 //! Return pointer to first element adress
[772]108 inline const T* Data() const {return mNDBlock.Begin()+offset_;}
[894]109 //! Return reference to datablock NDataBlock
[772]110 inline NDataBlock<T>& DataBlock() {return mNDBlock;}
[894]111 //! Return reference to datablock NDataBlock
[772]112 inline const NDataBlock<T>& DataBlock() const {return mNDBlock;}
113
[787]114 // Temporaire?
[894]115 //! Are the array temporay ?
[787]116 inline bool IsTemp(void) const {return mNDBlock.IsTemp();}
[894]117 //! Set the array as temporay
[787]118 inline void SetTemp(bool temp=false) const {mNDBlock.SetTemp(temp);}
119
[772]120// Operations diverses = , +=, ...
121// Conversion en type T, if Size() == 1
[787]122 inline T toScalar();
[772]123// Met les elements a une suite de valeurs
[1103]124 virtual TArray<T>& SetSeq(Sequence const & seq);
[894]125 //! Fill TArray with Sequence \b seq
[1103]126 inline TArray<T>& operator = (Sequence const & seq) { return SetSeq(seq); }
[2575]127
[772]128// A = x (tous les elements a x)
[2575]129 virtual TArray<T>& SetCst(T x);
130 //! Fill an array with a constant value \b x ( alias for \b SetCst() method )
131 inline TArray<T>& SetT(T x) { return SetCst(x); }
[894]132 //! Fill TArray with all elements equal to \b x
[813]133 inline TArray<T>& operator = (T x) { return SetT(x); }
[2564]134
135// addition et soustraction de constante
136 virtual TArray<T>& AddCst(T x, TArray<T>& res) const ;
137 virtual TArray<T>& SubCst(T x, TArray<T>& res, bool fginv=false) const ;
138// Multiplication et division par une constante
139 virtual TArray<T>& MulCst(T x, TArray<T>& res) const ;
140 virtual TArray<T>& DivCst(T x, TArray<T>& res, bool fginv=false) const ;
141
[772]142// A += -= *= /= x (ajoute, soustrait, ... x a tous les elements)
[2575]143 // Methodes Add/Sub/Mul/Div() sont la pour compatibilite avant V=2 (1.818)
144 // Faut-il les garder ? Reza, Juillet 2004
[2564]145 inline TArray<T>& Add(T x) { return AddCst(x, *this); }
146 inline TArray<T>& Sub(T x, bool fginv=false) { return SubCst(x, *this, fginv); }
147 inline TArray<T>& Mul(T x) { return MulCst(x, *this); }
148 inline TArray<T>& Div(T x, bool fginv=false) { return DivCst(x, *this, fginv); }
149
[894]150 //! Add \b x to all elements
[2564]151 inline TArray<T>& operator += (T x) { return AddCst(x, *this); }
[894]152 //! Substract \b x to all elements
[2564]153 inline TArray<T>& operator -= (T x) { return SubCst(x, *this); }
[894]154 //! Multiply all elements by \b x
[2564]155 inline TArray<T>& operator *= (T x) { return MulCst(x, *this); }
[894]156 //! Divide all elements by \b x
[2564]157 inline TArray<T>& operator /= (T x) { return DivCst(x, *this); }
[804]158
[1156]159// applique le signe moins a tous les elements
[2564]160 virtual TArray<T>& NegateElt(TArray<T>& res) const ;
161//! Replace array elements values by their opposite ( (*this)(i) -> -(*this)(i) )
162 inline TArray<T>& NegateElt() { return NegateElt(*this); }
163
[772]164// A += -= (ajoute, soustrait element par element les deux tableaux )
[2575]165 virtual TArray<T>& AddElt(const TArray<T>& a, TArray<T>& res) const ;
166 virtual TArray<T>& SubElt(const TArray<T>& a, TArray<T>& res, bool fginv=false) const ;
[787]167// Multiplication, division element par element les deux tableaux
[2575]168 virtual TArray<T>& MulElt(const TArray<T>& a, TArray<T>& res) const ;
169 virtual TArray<T>& DivElt(const TArray<T>& a, TArray<T>& res, bool fginv=false, bool divzero=false) const ;
170
171 //! Operator TArray += TArray (element by element addition in place)
172 inline TArray<T>& operator += (const TArray<T>& a) { return AddElt(a, *this); }
173 //! Operator TArray -= TArray (element by element subtraction in place)
174 inline TArray<T>& operator -= (const TArray<T>& a) { return SubElt(a, *this); }
175
[2588]176 // Doit-on definir les operateur *= /= TArray ? Reza, Juillet 2004
177 //! Element by element multiplication in place TArray *= TArray (element by element)
178 inline TArray<T>& Mul(const TArray<T>& a) { return MulElt(a, *this); }
179 //! Element by element division in place TArray *= TArray (element by element)
180 inline TArray<T>& Div(const TArray<T>& a) { return DivlElt(a, *this); }
181
[804]182// Recopie des valeurs, element par element
183 virtual TArray<T>& CopyElt(const TArray<T>& a);
[1081]184// Recopie des valeurs avec conversion prealable, element par element
185 virtual TArray<T>& ConvertAndCopyElt(const BaseArray& a);
[772]186
[2575]187// Calcul du produit scalaire ( Somme_i (*this)(i)*a(i) )
188 virtual T ScalarProduct(const TArray<T>& a) const ;
189// Norme(^2)
190 //! Returns the squarred of the array norm, defined as Sum_k (*this)(k)*(*this)(k)
191 inline T Norm2() const { return ScalarProduct(*this); }
192
[804]193// Somme et produit des elements
194 virtual T Sum() const ;
195 virtual T Product() const ;
[1113]196// Somme du carre des elements
197 virtual T SumX2() const;
198// Valeur min et max des elements
199 virtual void MinMax(T& min, T& max) const ;
[804]200
[772]201// Impression, I/O, ...
[813]202 virtual string InfoString() const;
[1550]203 virtual void Print(ostream& os, sa_size_t maxprt=-1,
204 bool si=false, bool ascd=false) const ;
[772]205
[1517]206// Lecture,Ecriture sur fichier ASCII
[2286]207 virtual sa_size_t ReadASCII(istream& is, sa_size_t & nr, sa_size_t & nc,
208 char clm='#', const char* sep=" \t");
[1517]209 virtual void WriteASCII(ostream& os) const;
210
[772]211// Pour la gestion de persistance
212 friend class FIO_TArray<T>;
213
214protected:
215
[894]216 NDataBlock<T> mNDBlock; //!< Block for datas
[1081]217 mutable MuTyV my_mtv; //!< for use by ValueAtPosition()
[772]218};
219
220////////////////////////////////////////////////////////////////
221// Surcharge d'operateur <<
[894]222//! Print TArray \b a on stream \b os
[772]223template <class T>
224inline ostream& operator << (ostream& os, const TArray<T>& a)
225 { a.Print(os); return(os); }
226
[1517]227// Surcharge d'operateur >>
228//! Decodes the ASCII input stream \b is , filling TArray \b a elements
229template <class T>
230inline istream& operator >> (istream& is, TArray<T>& a)
[1576]231 { sa_size_t nr, nc;
232 a.ReadASCII(is, nr, nc); return(is); }
[1517]233
234
[772]235////////////////////////////////////////////////////////////////
236// Surcharge d'operateurs A (+,-,*,/) (T) x
237
[958]238/*! \ingroup TArray \fn operator+(const TArray<T>&,T)
239 \brief Operator TArray = TArray + constant */
[772]240template <class T> inline TArray<T> operator + (const TArray<T>& a, T b)
[2564]241 {TArray<T> result; result.SetTemp(true);
[2569]242 a.AddCst(b, result); return result;}
[772]243
[958]244/*! \ingroup TArray \fn operator+(T,const TArray<T>&)
245 \brief Operator TArray = constant + TArray */
[772]246template <class T> inline TArray<T> operator + (T b,const TArray<T>& a)
[2564]247 {TArray<T> result; result.SetTemp(true);
[2569]248 a.AddCst(b, result); return result;}
[772]249
[958]250/*! \ingroup TArray \fn operator-(const TArray<T>&,T)
251 \brief Operator TArray = TArray - constant */
[772]252template <class T> inline TArray<T> operator - (const TArray<T>& a, T b)
[2564]253 {TArray<T> result; result.SetTemp(true);
[2569]254 a.SubCst(b,result); return result;}
[772]255
[958]256/*! \ingroup TArray \fn operator-(T,const TArray<T>&)
257 \brief Operator TArray = constant - TArray */
[772]258template <class T> inline TArray<T> operator - (T b,const TArray<T>& a)
[2564]259 {TArray<T> result; result.SetTemp(true);
[2569]260 a.SubCst(b,result,true); return result;}
[772]261
[958]262/*! \ingroup TArray \fn operator*(const TArray<T>&,T)
263 \brief Operator TArray = TArray * constant */
[772]264template <class T> inline TArray<T> operator * (const TArray<T>& a, T b)
[2564]265 {TArray<T> result; result.SetTemp(true);
266 a.MulCst(b, result); return result;}
[772]267
[958]268/*! \ingroup TArray \fn operator*(T,const TArray<T>&)
269 \brief Operator TArray = constant * TArray */
[772]270template <class T> inline TArray<T> operator * (T b,const TArray<T>& a)
[2564]271 {TArray<T> result; result.SetTemp(true);
272 a.MulCst(b,result); return result;}
[772]273
[958]274/*! \ingroup TArray \fn operator/(const TArray<T>&,T)
275 \brief Operator TArray = TArray / constant */
[772]276template <class T> inline TArray<T> operator / (const TArray<T>& a, T b)
[2564]277 {TArray<T> result; result.SetTemp(true);
[2569]278 a.DivCst(b,result); return result;}
[772]279
[970]280/*! \ingroup TArray \fn operator/(T,const TArray<T>&)
281 \brief Operator TArray = constant / TArray */
282template <class T> inline TArray<T> operator / (T b, const TArray<T>& a)
[2564]283 {TArray<T> result; result.SetTemp(true);
[2569]284 a.DivCst(b, result, true); return result;}
[970]285
[772]286////////////////////////////////////////////////////////////////
[1156]287// Surcharge d'operateurs B = -A
288
289/*! \ingroup TArray \fn operator - (const TArray<T>&)
290 \brief Operator - Returns an array with elements equal to the opposite of
291 the original array elements. */
292template <class T> inline TArray<T> operator - (const TArray<T>& a)
[2569]293 {TArray<T> result; result.SetTemp(true);
294 a.NegateElt(result); return result;}
[1156]295
296////////////////////////////////////////////////////////////////
[772]297// Surcharge d'operateurs C = A (+,-) B
298
[958]299/*! \ingroup TArray \fn operator+(const TArray<T>&,const TArray<T>&)
[2588]300 \brief Operator TArray = TArray + TArray (element by element addition) */
[772]301template <class T>
302inline TArray<T> operator + (const TArray<T>& a,const TArray<T>& b)
[970]303 { TArray<T> result; result.SetTemp(true);
[2575]304 a.AddElt(b, result); return result; }
[772]305
[958]306/*! \ingroup TArray \fn operator-(const TArray<T>&,const TArray<T>&)
[2588]307 \brief Operator TArray = TArray - TArray (element by element subtraction) */
[772]308template <class T>
309inline TArray<T> operator - (const TArray<T>& a,const TArray<T>& b)
[970]310 { TArray<T> result; result.SetTemp(true);
[2575]311 a.SubElt(b, result); return result; }
[772]312
[2588]313/*! \ingroup TArray \fn MultiplyElt((const TArray<T>&,const TArray<T>&)
314 \brief Element by element multiplication of two arrays TArray = TArray * TArray */
[772]315
[2588]316template <class T>
317inline TArray<T> MultiplyElt(const TArray<T>& a,const TArray<T>& b)
318 { TArray<T> result; result.SetTemp(true);
319 a.MulElt(b, result); return result; }
320
321/*! \ingroup TArray \fn DivideElt((const TArray<T>&,const TArray<T>&)
322 \brief Element by element division of two arrays TArray = TArray * TArray */
323template <class T>
324inline TArray<T> DivideElt(const TArray<T>& a,const TArray<T>& b)
325 { TArray<T> result; result.SetTemp(true);
326 a.DivElt(b, result); return result; }
327
[772]328// --------------------------------------------------
329// inline element acces methods
330// --------------------------------------------------
[894]331
332//! Return element (ix,iy,iz,it,iu) value
[772]333template <class T>
[1156]334inline T const& TArray<T>::Elem(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu) const
[772]335{
336 return ( *( mNDBlock.Begin()+ offset_+
337 ix*step_[0] + iy*step_[1] + iz*step_[2] +
338 it*step_[3] + iu*step_[4]) );
339}
340
[894]341//! Return element (ix,iy,iz,it,iu) value
[772]342template <class T>
[1156]343inline T & TArray<T>::Elem(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu)
[772]344{
345 return ( *( mNDBlock.Begin()+ offset_+
346 ix*step_[0] + iy*step_[1] + iz*step_[2] +
347 it*step_[3] + iu*step_[4]) );
348}
349
[894]350//! Return element (ix,iy,iz,it,iu) value with Check of indexes bound first
[772]351template <class T>
[1156]352inline T const& TArray<T>::ElemCheckBound(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu) const
[772]353{
354 CheckBound(ix, iy, iz, it, iu, 4);
[804]355 return(Elem(ix, iy, iz, it, iu));
[772]356}
357
[894]358//! Return element (ix,iy,iz,it,iu) value with Check of indexes bound first
[772]359template <class T>
[1156]360inline T & TArray<T>::ElemCheckBound(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu)
[772]361{
362 CheckBound(ix, iy, iz, it, iu, 4);
[804]363 return(Elem(ix, iy, iz, it, iu));
[772]364}
365
[894]366//! Return element (ix,iy,iz) value
[772]367template <class T>
[1156]368inline T const& TArray<T>::operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz) const
[772]369{
370#ifdef SO_BOUNDCHECKING
371 CheckBound(ix, iy, iz, 0, 0, 4);
372#endif
373 return ( *( mNDBlock.Begin()+ offset_+
374 ix*step_[0] + iy*step_[1] + iz*step_[2]) );
375}
376
[894]377//! Return element (ix,iy,iz) value
[772]378template <class T>
[1156]379inline T & TArray<T>::operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz)
[772]380{
381#ifdef SO_BOUNDCHECKING
382 CheckBound(ix, iy, iz, 0, 0, 4);
383#endif
384 return ( *( mNDBlock.Begin()+ offset_+
385 ix*step_[0] + iy*step_[1] + iz*step_[2]) );
386}
387
[894]388//! Operator () : return element (ix,iy,iz,it,iu) value
[772]389template <class T>
[1156]390inline T const& TArray<T>::operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu) const
[772]391{
392#ifdef SO_BOUNDCHECKING
393 CheckBound(ix, iy, iz, it, iu, 4);
394#endif
395 return ( *( mNDBlock.Begin()+ offset_+
396 ix*step_[0] + iy*step_[1] + iz*step_[2] +
397 it*step_[3] + iu*step_[4]) );
398}
399
[894]400//! Operator () : return element (ix,iy,iz,it,iu) value
[772]401template <class T>
[1156]402inline T & TArray<T>::operator()(sa_size_t ix, sa_size_t iy, sa_size_t iz, sa_size_t it, sa_size_t iu)
[772]403{
404#ifdef SO_BOUNDCHECKING
405 CheckBound(ix, iy, iz, it, iu, 4);
406#endif
407 return ( *( mNDBlock.Begin()+ offset_+
408 ix*step_[0] + iy*step_[1] + iz*step_[2] +
409 it*step_[3] + iu*step_[4]) );
410}
411
[785]412
[894]413//! Operator [] : return element at positon ip
[772]414template <class T>
[1156]415inline T const& TArray<T>::operator[](sa_size_t ip) const
[772]416{
417#ifdef SO_BOUNDCHECKING
418 if (ip >= totsize_) throw( ParmError("TArray<T>::operator[] Out-of-bound Error") );
419#endif
[785]420return *(mNDBlock.Begin()+Offset(ip));
[772]421}
422
[894]423//! Operator [] : return element at positon ip
[772]424template <class T>
[1156]425inline T & TArray<T>::operator[](sa_size_t ip)
[772]426{
427#ifdef SO_BOUNDCHECKING
428 if (ip >= totsize_) throw( ParmError("TArray<T>::operator[] Out-of-bound Error") );
429#endif
[785]430return *(mNDBlock.Begin()+Offset(ip));
[772]431}
432
[785]433
[1156]434//! Converts to a scalar (value of first element) if the array size is equal to 1
[772]435template <class T>
[787]436inline T TArray<T>::toScalar()
[772]437{
438 if (Size() != 1) throw(SzMismatchError("TArray<T>::operator T() Size() != 1")) ;
439 return ( (*this)[0] );
440}
441
[804]442// Typedef pour simplifier
[956]443/*! \ingroup TArray
444 \typedef Array
445 \brief To simplified TArray<r_8> writing
446*/
[804]447typedef TArray<r_8> Array;
448
[772]449} // Fin du namespace
450
451#endif
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