Cantera  3.1.0
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Array.h
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1/**
2 * @file Array.h Header file for class Cantera::Array2D
3 */
4
5// This file is part of Cantera. See License.txt in the top-level directory or
6// at https://cantera.org/license.txt for license and copyright information.
7
8#ifndef CT_ARRAY_H
9#define CT_ARRAY_H
10
11#include "ct_defs.h"
12#include <iostream>
13
14namespace Cantera
15{
16
17//! A class for 2D arrays stored in column-major (Fortran-compatible) form.
18/*!
19 * In this form, the data entry for an n row, m col matrix is
20 *
21 * index = i + (n-1) * j
22 *
23 * where
24 *
25 * J(i,j) = data_start + index
26 * i = row
27 * j = column
28 *
29 * @ingroup matrices
30 */
32{
33public:
34 /**
35 * Default constructor. Create an empty array.
36 */
37 Array2D() = default;
38
39 //! Constructor.
40 /*!
41 * Create an @c m by @c n array, and initialize all elements to @c v.
42 *
43 * @param m Number of rows
44 * @param n Number of columns
45 * @param v Default fill value. The default is 0.0
46 */
47 Array2D(const size_t m, const size_t n, const double v=0.0);
48
49 //! Constructor.
50 /*!
51 * Create an @c m by @c n array, initialized with the contents of the array
52 * @c values.
53 *
54 * @param m Number of rows
55 * @param n Number of columns
56 * @param values Initial values of the array. Must be of length m*n, and
57 * stored in column-major order.
58 */
59 Array2D(const size_t m, const size_t n, const double* values);
60
61 Array2D(const Array2D& y);
62
63 virtual ~Array2D() = default;
64
65 Array2D& operator=(const Array2D& y);
66
67 //! Resize the array, and fill the new entries with 'v'
68 /*!
69 * @param n This is the number of rows
70 * @param m This is the number of columns in the new matrix
71 * @param v Default fill value -> defaults to zero.
72 */
73 virtual void resize(size_t n, size_t m, double v=0.0);
74
75 //! Append a column to the existing matrix using a std vector
76 /*!
77 * This operation will add a column onto the existing matrix.
78 *
79 * @param c This vector is the entries in the column to be added. It must
80 * have a length equal to m_nrows or greater.
81 */
82 void appendColumn(const vector<double>& c);
83
84 //! Append a column to the existing matrix
85 /*!
86 * This operation will add a column onto the existing matrix.
87 *
88 * @param c This vector of doubles is the entries in the column to be
89 * added. It must have a length equal to m_nrows or greater.
90 */
91 void appendColumn(const double* const c);
92
93 //! Set the nth row to array rw
94 /*!
95 * @param n Index of the row to be changed
96 * @param rw Vector for the row. Must have a length of m_ncols.
97 */
98 void setRow(size_t n, const double* const rw);
99
100 //! Get the nth row and return it in a vector
101 /*!
102 * @param n Index of the row to be returned.
103 * @param rw Return Vector for the operation. Must have a length of
104 * m_ncols.
105 */
106 void getRow(size_t n, double* const rw);
107
108 //! Set the values in column m to those in array col
109 /*!
110 * A(i,m) = col(i)
111 *
112 * @param m Column to set
113 * @param col pointer to a col vector. Vector must have a length of m_nrows.
114 */
115 void setColumn(size_t m, double* const col);
116
117 //! Get the values in column m
118 /*!
119 * col(i) = A(i,m)
120 *
121 * @param m Column to set
122 * @param col pointer to a col vector that will be returned
123 */
124 void getColumn(size_t m, double* const col);
125
126 //! Set all of the entries to zero
127 void zero() {
128 m_data.assign(m_data.size(), 0.0);
129 }
130
131 //! Allows setting elements using the syntax A(i,j) = x.
132 /*!
133 * @param i row index
134 * @param j column index.
135 * @returns a reference to A(i,j) which may be assigned.
136 */
137 double& operator()(size_t i, size_t j) {
138 return value(i,j);
139 }
140
141 //! Allows retrieving elements using the syntax x = A(i,j).
142 /*!
143 * @param i Index for the row to be retrieved
144 * @param j Index for the column to be retrieved.
145 * @returns the value of the matrix entry
146 */
147 double operator()(size_t i, size_t j) const {
148 return value(i,j);
149 }
150
151 //! Returns a changeable reference to position in the matrix
152 /*!
153 * Returns a reference to the matrix's (i,j) element. This may be used as an
154 * L value.
155 *
156 * @param i The row index
157 * @param j The column index
158 * @returns a changeable reference to the matrix entry
159 */
160 double& value(size_t i, size_t j) {
161 return m_data[m_nrows*j + i];
162 }
163
164 //! Returns the value of a single matrix entry
165 /*!
166 * Returns the value of the matrix position (i,j) element.
167 *
168 * @param i The row index
169 * @param j The column index
170 */
171 double value(size_t i, size_t j) const {
172 return m_data[m_nrows*j + i];
173 }
174
175 //! Number of rows
176 size_t nRows() const {
177 return m_nrows;
178 }
179
180 //! Number of columns
181 size_t nColumns() const {
182 return m_ncols;
183 }
184
185 //! Return a reference to the data vector
186 vector<double>& data() {
187 return m_data;
188 }
189
190 //! Return a const reference to the data vector
191 const vector<double>& data() const {
192 return m_data;
193 }
194
195 void operator*=(double a);
196
197 //! Return a pointer to the top of column j, columns are contiguous
198 //! in memory
199 /*!
200 * @param j Value of the column
201 * @returns a pointer to the top of the column
202 */
203 double* ptrColumn(size_t j) {
204 return &m_data[m_nrows*j];
205 }
206
207 //! Return a const pointer to the top of column j, columns are contiguous
208 //! in memory
209 /*!
210 * @param j Value of the column
211 * @returns a const pointer to the top of the column
212 */
213 const double* ptrColumn(size_t j) const {
214 return &m_data[m_nrows*j];
215 }
216
217protected:
218 //! Data stored in a single array
219 vector<double> m_data;
220
221 //! Number of rows
222 size_t m_nrows = 0;
223
224 //! Number of columns
225 size_t m_ncols = 0;
226};
227
228//! Output the current contents of the Array2D object
229/*!
230 * Example of usage:
231 * s << m << endl;
232 *
233 * @param s Reference to the ostream to write to
234 * @param m Object of type Array2D that you are querying
235 * @returns a reference to the ostream.
236 */
237std::ostream& operator<<(std::ostream& s, const Array2D& m);
238
239//! Overload the times equals operator for multiplication of a matrix and a
240//! scalar.
241/*!
242 * Scaled every element of the matrix by the scalar input
243 *
244 * @param m Matrix
245 * @param a scalar
246 */
247void operator*=(Array2D& m, double a);
248
249}
250
251#endif
A class for 2D arrays stored in column-major (Fortran-compatible) form.
Definition Array.h:32
vector< double > m_data
Data stored in a single array.
Definition Array.h:219
void zero()
Set all of the entries to zero.
Definition Array.h:127
Array2D()=default
Default constructor.
size_t m_nrows
Number of rows.
Definition Array.h:222
void getColumn(size_t m, double *const col)
Get the values in column m.
Definition Array.cpp:93
void setColumn(size_t m, double *const col)
Set the values in column m to those in array col.
Definition Array.cpp:86
size_t nRows() const
Number of rows.
Definition Array.h:176
size_t m_ncols
Number of columns.
Definition Array.h:225
double value(size_t i, size_t j) const
Returns the value of a single matrix entry.
Definition Array.h:171
double & operator()(size_t i, size_t j)
Allows setting elements using the syntax A(i,j) = x.
Definition Array.h:137
size_t nColumns() const
Number of columns.
Definition Array.h:181
const vector< double > & data() const
Return a const reference to the data vector.
Definition Array.h:191
const double * ptrColumn(size_t j) const
Return a const pointer to the top of column j, columns are contiguous in memory.
Definition Array.h:213
void appendColumn(const vector< double > &c)
Append a column to the existing matrix using a std vector.
Definition Array.cpp:54
double * ptrColumn(size_t j)
Return a pointer to the top of column j, columns are contiguous in memory.
Definition Array.h:203
void setRow(size_t n, const double *const rw)
Set the nth row to array rw.
Definition Array.cpp:72
void getRow(size_t n, double *const rw)
Get the nth row and return it in a vector.
Definition Array.cpp:79
vector< double > & data()
Return a reference to the data vector.
Definition Array.h:186
double & value(size_t i, size_t j)
Returns a changeable reference to position in the matrix.
Definition Array.h:160
double operator()(size_t i, size_t j) const
Allows retrieving elements using the syntax x = A(i,j).
Definition Array.h:147
virtual void resize(size_t n, size_t m, double v=0.0)
Resize the array, and fill the new entries with 'v'.
Definition Array.cpp:47
This file contains definitions of constants, types and terms that are used in internal routines and a...
Namespace for the Cantera kernel.
Definition AnyMap.cpp:595
void operator*=(Array2D &m, double a)
Overload the times equals operator for multiplication of a matrix and a scalar.
Definition Array.cpp:114
std::ostream & operator<<(std::ostream &s, const Array2D &m)
Output the current contents of the Array2D object.
Definition Array.cpp:100