Cantera  3.1.0a1
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Array2D Class Reference

A class for 2D arrays stored in column-major (Fortran-compatible) form. More...

#include <Array.h>

Inheritance diagram for Array2D:
[legend]

Detailed Description

A class for 2D arrays stored in column-major (Fortran-compatible) form.

In this form, the data entry for an n row, m col matrix is

  index = i + (n-1) * j

where

J(i,j) = data_start + index
    i = row
    j = column

Definition at line 31 of file Array.h.

Public Member Functions

 Array2D ()=default
 Default constructor.
 
 Array2D (const size_t m, const size_t n, const double v=0.0)
 Constructor.
 
 Array2D (const size_t m, const size_t n, const double *values)
 Constructor.
 
 Array2D (const Array2D &y)
 
Array2Doperator= (const Array2D &y)
 
virtual void resize (size_t n, size_t m, double v=0.0)
 Resize the array, and fill the new entries with 'v'.
 
void appendColumn (const vector< double > &c)
 Append a column to the existing matrix using a std vector.
 
void appendColumn (const double *const c)
 Append a column to the existing matrix.
 
void setRow (size_t n, const double *const rw)
 Set the nth row to array rw.
 
void getRow (size_t n, double *const rw)
 Get the nth row and return it in a vector.
 
void setColumn (size_t m, double *const col)
 Set the values in column m to those in array col.
 
void getColumn (size_t m, double *const col)
 Get the values in column m.
 
void zero ()
 Set all of the entries to zero.
 
double & operator() (size_t i, size_t j)
 Allows setting elements using the syntax A(i,j) = x.
 
double operator() (size_t i, size_t j) const
 Allows retrieving elements using the syntax x = A(i,j).
 
double & value (size_t i, size_t j)
 Returns a changeable reference to position in the matrix.
 
double value (size_t i, size_t j) const
 Returns the value of a single matrix entry.
 
size_t nRows () const
 Number of rows.
 
size_t nColumns () const
 Number of columns.
 
vector< double > & data ()
 Return a reference to the data vector.
 
const vector< double > & data () const
 Return a const reference to the data vector.
 
void operator*= (double a)
 
double * ptrColumn (size_t j)
 Return a pointer to the top of column j, columns are contiguous in memory.
 
const double * ptrColumn (size_t j) const
 Return a const pointer to the top of column j, columns are contiguous in memory.
 

Protected Attributes

vector< double > m_data
 Data stored in a single array.
 
size_t m_nrows = 0
 Number of rows.
 
size_t m_ncols = 0
 Number of columns.
 

Constructor & Destructor Documentation

◆ Array2D() [1/4]

Array2D ( )
default

Default constructor.

Create an empty array.

◆ Array2D() [2/4]

Array2D ( const size_t  m,
const size_t  n,
const double  v = 0.0 
)

Constructor.

Create an m by n array, and initialize all elements to v.

Parameters
mNumber of rows
nNumber of columns
vDefault fill value. The default is 0.0

Definition at line 15 of file Array.cpp.

◆ Array2D() [3/4]

Array2D ( const size_t  m,
const size_t  n,
const double *  values 
)

Constructor.

Create an m by n array, initialized with the contents of the array values.

Parameters
mNumber of rows
nNumber of columns
valuesInitial values of the array. Must be of length m*n, and stored in column-major order.

Definition at line 22 of file Array.cpp.

◆ Array2D() [4/4]

Array2D ( const Array2D y)

Definition at line 29 of file Array.cpp.

Member Function Documentation

◆ operator=()

Array2D & operator= ( const Array2D y)

Definition at line 36 of file Array.cpp.

◆ resize()

void resize ( size_t  n,
size_t  m,
double  v = 0.0 
)
virtual

Resize the array, and fill the new entries with 'v'.

Parameters
nThis is the number of rows
mThis is the number of columns in the new matrix
vDefault fill value -> defaults to zero.

Reimplemented in DenseMatrix.

Definition at line 47 of file Array.cpp.

◆ appendColumn() [1/2]

void appendColumn ( const vector< double > &  c)

Append a column to the existing matrix using a std vector.

This operation will add a column onto the existing matrix.

Parameters
cThis vector is the entries in the column to be added. It must have a length equal to m_nrows or greater.

Definition at line 54 of file Array.cpp.

◆ appendColumn() [2/2]

void appendColumn ( const double *const  c)

Append a column to the existing matrix.

This operation will add a column onto the existing matrix.

Parameters
cThis vector of doubles is the entries in the column to be added. It must have a length equal to m_nrows or greater.

Definition at line 63 of file Array.cpp.

◆ setRow()

void setRow ( size_t  n,
const double *const  rw 
)

Set the nth row to array rw.

Parameters
nIndex of the row to be changed
rwVector for the row. Must have a length of m_ncols.

Definition at line 72 of file Array.cpp.

◆ getRow()

void getRow ( size_t  n,
double *const  rw 
)

Get the nth row and return it in a vector.

Parameters
nIndex of the row to be returned.
rwReturn Vector for the operation. Must have a length of m_ncols.

Definition at line 79 of file Array.cpp.

◆ setColumn()

void setColumn ( size_t  m,
double *const  col 
)

Set the values in column m to those in array col.

A(i,m) = col(i)

Parameters
mColumn to set
colpointer to a col vector. Vector must have a length of m_nrows.

Definition at line 86 of file Array.cpp.

◆ getColumn()

void getColumn ( size_t  m,
double *const  col 
)

Get the values in column m.

col(i) = A(i,m)

Parameters
mColumn to set
colpointer to a col vector that will be returned

Definition at line 93 of file Array.cpp.

◆ zero()

void zero ( )
inline

Set all of the entries to zero.

Definition at line 127 of file Array.h.

◆ operator()() [1/2]

double & operator() ( size_t  i,
size_t  j 
)
inline

Allows setting elements using the syntax A(i,j) = x.

Parameters
irow index
jcolumn index.
Returns
a reference to A(i,j) which may be assigned.

Definition at line 137 of file Array.h.

◆ operator()() [2/2]

double operator() ( size_t  i,
size_t  j 
) const
inline

Allows retrieving elements using the syntax x = A(i,j).

Parameters
iIndex for the row to be retrieved
jIndex for the column to be retrieved.
Returns
the value of the matrix entry

Definition at line 147 of file Array.h.

◆ value() [1/2]

double & value ( size_t  i,
size_t  j 
)
inline

Returns a changeable reference to position in the matrix.

Returns a reference to the matrix's (i,j) element. This may be used as an L value.

Parameters
iThe row index
jThe column index
Returns
a changeable reference to the matrix entry

Definition at line 160 of file Array.h.

◆ value() [2/2]

double value ( size_t  i,
size_t  j 
) const
inline

Returns the value of a single matrix entry.

Returns the value of the matrix position (i,j) element.

Parameters
iThe row index
jThe column index

Definition at line 171 of file Array.h.

◆ nRows()

size_t nRows ( ) const
inline

Number of rows.

Definition at line 176 of file Array.h.

◆ nColumns()

size_t nColumns ( ) const
inline

Number of columns.

Definition at line 181 of file Array.h.

◆ data() [1/2]

vector< double > & data ( )
inline

Return a reference to the data vector.

Definition at line 186 of file Array.h.

◆ data() [2/2]

const vector< double > & data ( ) const
inline

Return a const reference to the data vector.

Definition at line 191 of file Array.h.

◆ ptrColumn() [1/2]

double * ptrColumn ( size_t  j)
inline

Return a pointer to the top of column j, columns are contiguous in memory.

Parameters
jValue of the column
Returns
a pointer to the top of the column

Definition at line 203 of file Array.h.

◆ ptrColumn() [2/2]

const double * ptrColumn ( size_t  j) const
inline

Return a const pointer to the top of column j, columns are contiguous in memory.

Parameters
jValue of the column
Returns
a const pointer to the top of the column

Definition at line 213 of file Array.h.

Member Data Documentation

◆ m_data

vector<double> m_data
protected

Data stored in a single array.

Definition at line 219 of file Array.h.

◆ m_nrows

size_t m_nrows = 0
protected

Number of rows.

Definition at line 222 of file Array.h.

◆ m_ncols

size_t m_ncols = 0
protected

Number of columns.

Definition at line 225 of file Array.h.


The documentation for this class was generated from the following files: