source: Sophya/trunk/SophyaLib/TArray/triangmtx.h@ 3430

Last change on this file since 3430 was 2957, checked in by ansari, 19 years ago

classe TriangularMatrix<T> complete (methode columnData() + passage en sa_size_t au lieu de int - Reza 1/06/2006
File size: 5.5 KB
Line 
1// This may look like C code, but it is really -*- C++ -*-
2
3#ifndef TRIANGMTX_H_SEEN
4#define TRIANGMTX_H_SEEN
5
6#include "ndatablock.h"
7#include "pexceptions.h"
8
9// doit etre mis en dehors du namespace
10/*!
11 \class SOPHYA::TriangularMatrix
12 \ingroup TArray
13 \brief Class for inferior triangular matrix (base class for the class Alm)
14 The inferior triangular matrix is represented in memory as column packed,
15 as illustrated below for a 5x5 triangular matrix.
16 \verbatim
17 5x5 Inf.Triang.Matrix, Size= 15 elements (0 ... 14)
18 | 0 |
19 | 1 5 |
20 | 2 6 9 |
21 | 3 7 10 12 |
22 | 4 8 11 13 14 |
23 \endverbatim
24*/
25
26namespace SOPHYA {
27
28//! Class for inferior triangular matrix (base class for the class Alm)
29template <class T>
30class TriangularMatrix {
31public :
32
33//! Default constructor
34TriangularMatrix() {;};
35//! instanciate a triangular matrix from the number of rows
36TriangularMatrix(sa_size_t rowSize) : long_diag_(rowSize)
37 {
38 elem_.ReSize((rowSize*(rowSize+1)/2) );
39 }
40//! Copy constructor (possibility of sharing datas)
41 TriangularMatrix(const TriangularMatrix<T>& a, bool share=false) : elem_(a.elem_, share), long_diag_(a.long_diag_) {;}
42
43//! resize the matrix with a new number of rows
44inline void ReSizeRow(sa_size_t rowSize)
45 {
46 long_diag_=(uint_4)rowSize;
47 elem_.ReSize(long_diag_*(long_diag_+1)/2);
48 }
49
50TriangularMatrix<T>& SetT(T a)
51 {
52 if (long_diag_ < 1)
53 throw RangeCheckError("TriangularMatrix<T>::SetT(T ) - TriangularMatrix not dimensionned ! ");
54 elem_ = a;
55 return (*this);
56 }
57
58//! () operator : access to elements row \b l and column \b m
59inline T& operator()(sa_size_t l, sa_size_t m)
60 {
61 return elem_(indexOfElement(l,m));
62 }
63
64inline T& operator()(sa_size_t index)
65 {
66 return elem_(index);
67 }
68
69
70//! () operator : access to elements row \b l and column \b m
71inline T const& operator()(sa_size_t l, sa_size_t m) const
72 {
73 return *(elem_.Begin()+ indexOfElement(l,m));
74 }
75
76inline T const& operator()(sa_size_t index) const
77 {
78 return *(elem_.Begin()+ index);
79 }
80
81TriangularMatrix<T>& Set(const TriangularMatrix<T>& a)
82 {
83 if (this != &a)
84 {
85 if (a.Size() < 1)
86 throw RangeCheckError(" TriangularMatrix<T>::Set()- Array a not allocated ! ");
87 }
88 if (Size() < 1) CloneOrShare(a);
89 else CopyElt(a);
90 return(*this);
91 }
92
93inline TriangularMatrix<T>& operator = (const TriangularMatrix<T>& a)
94 {return Set(a);}
95
96TriangularMatrix<T>& CopyElt(const TriangularMatrix<T>& a)
97 {
98 if (Size() < 1)
99 throw RangeCheckError("TriangularMatrix<T>::CopyElt(const TriangularMatrix<T>& ) - Not Allocated Array ! ");
100 if (Size() != a.Size() )
101 throw(SzMismatchError("TriangularMatrix<T>::CopyElt(const TriangularMatrix<T>&) SizeMismatch")) ;
102 long_diag_ = a.long_diag_;
103 sa_size_t k;
104 for (k=0; k< Size(); k++) elem_(k) = a.elem_(k);
105 return(*this);
106 }
107
108void CloneOrShare(const TriangularMatrix<T>& a)
109 {
110 long_diag_ = a.long_diag_;
111 elem_.CloneOrShare(a.elem_);
112 }
113
114
115//! Return number of rows
116inline sa_size_t rowNumber() const {return (int_4)long_diag_;}
117
118//! Return size of the total array
119 inline sa_size_t Size() const {return elem_.Size();}
120
121 inline bool CheckRelativeIndices(sa_size_t l, sa_size_t m) const
122 {
123 if ( l < m )
124 {
125 throw RangeCheckError("TriangularMatrix<T>::CheckRelativeIndices: indices out of range " );
126 }
127 return true;
128 }
129 inline bool CheckAbsoluteIndice(sa_size_t l, sa_size_t m) const
130 {
131 if ( indexOfElement(l,m) >= elem_.Size() )
132 {
133 throw RangeCheckError("TriangularMatrix<T>::CheckAbsoluteIndice: indices out of range " );
134 }
135 }
136 inline bool CheckAbsoluteIndice(sa_size_t ind) const
137 {
138 if ( ind >= elem_.Size() )
139 {
140 throw RangeCheckError("TriangularMatrix<T>::CheckAbsoluteIndice: indices out of range " );
141 }
142 }
143
144 //! ASCII dump of the matrix (set nbLignes=-1) for dumping the complete matrix
145void Print(ostream& os, sa_size_t nbLignes=0) const
146 {
147 os << "TriangularMatrix< " << typeid(T).name()
148 << " > NRow=" << long_diag_ << " NbElem<>0 : " << Size() << endl;
149 if (nbLignes == 0) return;
150 if (nbLignes < 0 ) nbLignes = long_diag_;
151 if (nbLignes > long_diag_ ) nbLignes = long_diag_;
152 for (sa_size_t k=0; k < nbLignes; k++) {
153 os << "L[" << k << "]: " ;
154 for (sa_size_t kc = 0; kc <= k ; kc++)
155 os << " " << elem_(indexOfElement(k,kc));
156 os << endl;
157 }
158 if (nbLignes < long_diag_) os << " ... ... ... " << endl;
159 return;
160 }
161
162inline void Print(sa_size_t nbLignes=0) const { Print(cout, nbLignes); }
163
164
165//! Return the pointer to the first non zero element in column \b j = &(tmmtx(j,j))
166inline const T* columnData(sa_size_t j) const {return elem_.Begin()+(long_diag_*j-j*(j-1)/2) ;}
167
168//! Return the pointer to the first non zero element in column \b j = &(tmmtx(j,j))
169inline T* columnData(sa_size_t j) {return elem_.Begin()+(long_diag_*j-j*(j-1)/2) ;}
170
171//! compute the address of an element in the single array representing the matrix
172inline sa_size_t indexOfElement(sa_size_t i,sa_size_t j) const
173{
174 // return(i*(i+1)/2+j);
175 // the (inferior triangular )matrix is stored column by column
176 return(i+ long_diag_*j-j*(j+1)/2);
177}
178
179private:
180
181sa_size_t long_diag_; //!< size of the square matrix
182NDataBlock<T> elem_; //!< Data block
183
184 };
185
186template <class T>
187inline ostream& operator << (ostream& os, const TriangularMatrix<T>& a)
188 { a.Print(os, 0); return(os); }
189
190} // namespace SOPHYA
191
192#endif
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