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source: Sophya/trunk/SophyaLib/TArray/tarray.h@ 2564

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Last change on this file since 2564 was 2564, checked in by ansari, 21 years ago
Remplacement methodes Add/Mul/Sub/Div(T x) par AddCst/MulCst/SubCst/DivCst(T x, TArray<T> res) ds TArray - Reza 26 Juillet 2004
File size: 16.2 KB

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

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