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source: Sophya/trunk/SophyaLib/TArray/tmatrix.h@ 1099

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Last change on this file since 1099 was 1099, checked in by ansari, 25 years ago
Protection integrite TMatrix,TVector - operateur = (BaseArray & pour TVector et operations entre matrices avec <> MemMapping (Pas termine) Reza 27/6/2000
File size: 6.8 KB

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1	// This may look like C code, but it is really -- C++ --
2	// C.Magneville 04/99
3	#ifndef TMatrix_SEEN
4	#define TMatrix_SEEN
5
6	#include "machdefs.h"
7	#include "tarray.h"
8
9	namespace SOPHYA {
10
11	//! Class of matrices
12	template <class T>
13	class TMatrix : public TArray<T> {
14	public:
15	// Creation / destruction
16	TMatrix();
17	TMatrix(uint_4 r,uint_4 c, short mm=BaseArray::AutoMemoryMapping);
18	TMatrix(const TMatrix<T>& a);
19	TMatrix(const TMatrix<T>& a, bool share);
20	TMatrix(const TArray<T>& a);
21	TMatrix(const TArray<T>& a, bool share, short mm=BaseArray::AutoMemoryMapping);
22	TMatrix(const BaseArray& a);
23
24	virtual ~TMatrix();
25
26	// Pour verifiez la compatibilite de dimensions lors de l'affectation
27	virtual TArray<T>& Set(const TArray<T>& a);
28	//! Operator = between matrices
29	/*! \warning Datas are copied (cloned) from \b a.
30	\sa NDataBlock::operator=(const NDataBlock<T>&) */
31	inline TMatrix<T>& operator = (const TMatrix<T>& a)
32	{ Set(a); return(*this); }
33	//! Operator = between a matrix and an array
34	inline TMatrix<T>& operator = (const TArray<T>& a)
35	{ Set(a); return(*this); }
36
37	virtual TArray<T>& SetBA(const BaseArray& a);
38	//! Operator = between matrices with different types
39	inline TMatrix<T>& operator = (const BaseArray& a)
40	{ SetBA(a); return(*this); }
41
42	// Size - Changing the Size
43	//! return number of rows
44	inline uint_4 NRows() const {return Size(marowi_); }
45	//! return number of columns
46	inline uint_4 NCols() const {return Size(macoli_); }
47	//! return number of columns
48	inline uint_4 NCol() const {return Size(macoli_); } // back-compat Peida
49
50	void ReSize(uint_4 r,uint_4 c, short mm=BaseArray::SameMemoryMapping); // Reallocation de place
51	void Realloc(uint_4 r,uint_4 c, short mm=BaseArray::SameMemoryMapping, bool force=false);
52
53	// Sub-matrix extraction $CHECK$ Reza 03/2000 Doit-on declarer ces methode const ?
54	TMatrix<T> SubMatrix(Range rline, Range rcol) const ;
55	//! () : Return submatrix define by \b Range \b rline and \b rcol
56	inline TMatrix<T> operator () (Range rline, Range rcol) const
57	{ return SubMatrix(rline, rcol); }
58	// Lignes et colonnes de la matrice
59	//! Return submatrix define by line \b ir (line vector)
60	inline TMatrix<T> Row(uint_4 ir) const
61	{ return SubMatrix(Range(ir,ir), Range(0,NCols()-1)); }
62	//! Return submatrix define by column \b ic (column vector)
63	inline TMatrix<T> Column(uint_4 ic) const
64	{ return SubMatrix(Range(0,NRows()-1), Range(ic,ic)); }
65
66	// Inline element acces methods
67	inline T const& operator()(uint_4 r,uint_4 c) const;
68	inline T& operator()(uint_4 r,uint_4 c);
69
70	// Operations matricielles
71	TMatrix<T>& Transpose();
72	//mm = SameMemoryMapping or CMemoryMapping or FortranMemoryMapping
73	TMatrix<T> Transpose(short mm);
74	// Rearranging Matrix Elements
75	TMatrix<T> Rearrange(short mm);
76
77	// Operateur d'affectation
78	// A = x (matrice diagonale Identite)
79	virtual TMatrix<T>& SetIdentity(IdentityMatrix imx);
80	// = : fill matrix with an identity matrix \b imx
81	inline TMatrix<T>& operator = (IdentityMatrix imx) { return SetIdentity(imx); }
82
83	// = : fill matrix with a Sequence \b seq
84	inline TMatrix<T>& operator = (Sequence seq) { SetSeq(seq); return(*this); }
85
86	// Operations diverses avec une constante
87	//! = : fill matrix with constant value \b x
88	inline TMatrix<T>& operator = (T x) { SetT(x); return(*this); }
89	//! += : add constant value \b x to matrix
90	inline TMatrix<T>& operator += (T x) { Add(x); return(*this); }
91	//! -= : substract constant value \b x to matrix
92	inline TMatrix<T>& operator -= (T x) { Sub(x); return(*this); }
93	//! *= : multiply matrix by constant value \b x
94	inline TMatrix<T>& operator = (T x) { Mul(x); return(this); }
95	//! /= : divide matrix by constant value \b x
96	inline TMatrix<T>& operator /= (T x) { Div(x); return(*this); }
97
98	// operations avec matrices
99	//! += : add a matrix
100	inline TMatrix<T>& operator += (const TMatrix<T>& a) { AddElt(a); return(*this); }
101	//! -= : substract a matrix
102	inline TMatrix<T>& operator -= (const TMatrix<T>& a) { SubElt(a); return(*this); }
103	TMatrix<T> Multiply(const TMatrix<T>& b, short mm=BaseArray::SameMemoryMapping) const;
104	//! = : matrix product : C = (this)*B
105	inline TMatrix<T>& operator *= (const TMatrix<T>& b)
106	{ this->Set(Multiply(b)); return(*this); }
107
108	// I/O print, ...
109	virtual string InfoString() const;
110	virtual void Print(ostream& os, int_4 maxprt=-1, bool si=false) const ;
111
112	protected:
113	};
114
115	// ---- inline acces methods ------
116	//! () : return element for line \b r and column \b c
117	template <class T>
118	inline T const& TMatrix<T>::operator()(uint_4 r, uint_4 c) const
119	{
120	#ifdef SO_BOUNDCHECKING
121	if (marowi_ == 0) CheckBound(r, c, 0, 0, 0, 4);
122	else CheckBound(c, r, 0, 0, 0, 4);
123	#endif
124	return ( *( mNDBlock.Begin()+ offset_+
125	rstep_[marowi_] + cstep_[macoli_] ) );
126	}
127
128	//! () : return element for line \b r and column \b c
129	template <class T>
130	inline T & TMatrix<T>::operator()(uint_4 r, uint_4 c)
131	{
132	#ifdef SO_BOUNDCHECKING
133	if (marowi_ == 0) CheckBound(r, c, 0, 0, 0, 4);
134	else CheckBound(c, r, 0, 0, 0, 4);
135	#endif
136	return ( *( mNDBlock.Begin()+ offset_+
137	rstep_[marowi_] + cstep_[macoli_] ) );
138	}
139
140	// Surcharge d'operateurs C = A (+,-) B
141	// $CHECK$ Reza 3/4/2000 Pas necessaire de redefinir les operateurs
142	// Defini au niveau de TArray<T> - Pour ameliorer l'efficacite
143	// Doit-on le faire aussi pour les constantes ? - Fin de $CHECK$ Reza 3/4/2000
144
145	/*! \ingroup TArray \fn operator+(const TMatrix<T>&,const TMatrix<T>&)
146	\brief + : add matrixes \b a and \b b */
147	template <class T>
148	inline TMatrix<T> operator + (const TMatrix<T>& a,const TMatrix<T>& b)
149	{TMatrix<T> result; result.SetTemp(true);
150	if (b.IsTemp()) { result.Share(b); result.AddElt(a); }
151	else { result.CloneOrShare(a); result.AddElt(b); }
152	return result; }
153
154
155	/*! \ingroup TArray \fn operator-(const TMatrix<T>&,const TMatrix<T>&)
156	\brief \- : substract matrixes \b a and \b b */
157	template <class T>
158	inline TMatrix<T> operator - (const TMatrix<T>& a,const TMatrix<T>& b)
159	{TMatrix<T> result; result.SetTemp(true);
160	if (b.IsTemp()) { result.Share(b); result.SubElt(a, true); }
161	else { result.CloneOrShare(a); result.SubElt(b); }
162	return result; }
163
164	// Surcharge d'operateurs C = A * B
165	/! \ingroup TArray \fn operator(const TMatrix<T>&,const TMatrix<T>&)
166	\brief * : multiply matrixes \b a and \b b */
167	template <class T> inline TMatrix<T> operator * (const TMatrix<T>& a, const TMatrix<T>& b)
168	{ return(a.Multiply(b)); }
169
170	// Typedef pour simplifier et compatibilite Peida
171	/*! \ingroup TArray
172	\typedef Matrix
173	\brief To simplified TMatrix<r_8> writing
174	*/
175	typedef TMatrix<r_8> Matrix;
176
177	} // Fin du namespace
178
179	#endif

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