GNU Octave  6.2.0
A high-level interpreted language, primarily intended for numerical computations, mostly compatible with Matlab
ComplexRowVector Class Reference

#include "CRowVector.h"

Inheritance diagram for ComplexRowVector:
Collaboration diagram for ComplexRowVector:

Public Types

typedef bool(* compare_fcn_type) (typename ref_param< T >::type, typename ref_param< T >::type)
 
typedef ref_param< T >::type crefT
 
typedef T element_type
 
typedef octave_idx_type size_type
 Used for operator(), and returned by numel() and size() (beware: signed integer) More...
 
typedef T value_type
 

Public Member Functions

 ComplexRowVector (const Array< Complex > &a)
 
 ComplexRowVector (const ComplexRowVector &a)
 
 ComplexRowVector (const dim_vector &dv)
 
 ComplexRowVector (const MArray< Complex > &a)
 
 ComplexRowVector (const RowVector &a)
 
 ComplexRowVector (octave_idx_type n)
 
 ComplexRowVector (octave_idx_type n, const Complex &val)
 
 ComplexRowVector (void)
 
ComplexRowVector append (const ComplexRowVector &a) const
 
ComplexRowVector append (const RowVector &a) const
 
Array< T > as_column (void) const
 Return the array as a column vector. More...
 
Array< T > as_matrix (void) const
 Return the array as a matrix. More...
 
Array< T > as_row (void) const
 Return the array as a row vector. More...
 
void changesign (void)
 
void clear (const dim_vector &dv)
 
void clear (octave_idx_type n)
 
void clear (octave_idx_type r, octave_idx_type c)
 
void clear (void)
 
ComplexRowVector extract (octave_idx_type c1, octave_idx_type c2) const
 
ComplexRowVector extract_n (octave_idx_type c1, octave_idx_type n) const
 
ComplexRowVectorfill (const Complex &val)
 
ComplexRowVectorfill (const Complex &val, octave_idx_type c1, octave_idx_type c2)
 
void fill (const T &val)
 
ComplexRowVectorfill (double val)
 
ComplexRowVectorfill (double val, octave_idx_type c1, octave_idx_type c2)
 
Array< octave_idx_typefind (octave_idx_type, bool) const
 
MArray< Complexhermitian (Complex(*fcn)(const Complex &)=nullptr) const
 
ComplexColumnVector hermitian (void) const
 
void idx_add (const idx_vector &idx, Complex val)
 Performs indexed accumulative addition. More...
 
void idx_add (const idx_vector &idx, const MArray< Complex > &vals)
 
void idx_add_nd (const idx_vector &idx, const MArray< Complex > &vals, int dim=-1)
 
void idx_max (const idx_vector &idx, const MArray< Complex > &vals)
 
void idx_min (const idx_vector &idx, const MArray< Complex > &vals)
 
ComplexRowVectorinsert (const ComplexRowVector &a, octave_idx_type c)
 
ComplexRowVectorinsert (const RowVector &a, octave_idx_type c)
 
MArray< Complexipermute (const Array< octave_idx_type > &vec) const
 
sortmode is_sorted_rows (sortmode) const
 
OCTAVE_API sortmode issorted (sortmode mode) const
 
sortmode issorted (sortmode) const
 
Array< octave_idx_typelookup (const Array< idx_vector > &, sortmode) const
 
octave_idx_type lookup (idx_vector const &, sortmode) const
 
void make_unique (void)
 
Complex max (void) const
 
Complex min (void) const
 
octave_idx_type nnz (void) const
 
Array< idx_vectornth_element (const idx_vector &, int) const
 
octave_idx_type numel (void) const
 Number of elements in the array. More...
 
bool operator!= (const ComplexRowVector &a) const
 
ComplexRowVectoroperator+= (const RowVector &a)
 
ComplexRowVectoroperator-= (const RowVector &a)
 
ComplexRowVectoroperator= (const ComplexRowVector &a)
 
bool operator== (const ComplexRowVector &a) const
 
MArray< Complexpermute (const Array< octave_idx_type > &vec, bool inv=false) const
 
MArray< Complexreshape (const dim_vector &new_dims) const
 
void resize (octave_idx_type n, const Complex &rfv=Complex(0))
 
Array< idx_vectorsort (Array< octave_idx_type > &sidx, int, sortmode) const
 
Array< idx_vectorsort (int, sortmode) const
 
Array< octave_idx_typesort_rows_idx (sortmode) const
 
MArray squeeze (void) const
 
ComplexColumnVector transpose (void) const
 
First dimension

Get the first dimension of the array (number of rows)

octave_idx_type dim1 (void) const
 
octave_idx_type rows (void) const
 
Second dimension

Get the second dimension of the array (number of columns)

octave_idx_type dim2 (void) const
 
octave_idx_type cols (void) const
 
octave_idx_type columns (void) const
 

Protected Attributes

dim_vector dimensions
 
Array< T >::ArrayReprep
 
T * slice_data
 
octave_idx_type slice_len
 

Private Member Functions

void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 
void instantiation_guard ()
 

Static Private Member Functions

static Array< T >::ArrayRepnil_rep (void)
 

Friends

class ComplexColumnVector
 
ComplexRowVector conj (const ComplexRowVector &a)
 
ComplexRowVector operator* (const ComplexRowVector &a, const ComplexMatrix &b)
 
ComplexRowVector operator* (const RowVector &a, const ComplexMatrix &b)
 
std::ostream & operator<< (std::ostream &os, const ComplexRowVector &a)
 
std::istream & operator>> (std::istream &is, ComplexRowVector &a)
 

Third dimension

Get the third dimension of the array (number of pages)

Array< T > reshape (octave_idx_type nr, octave_idx_type nc) const
 Size of the specified dimension. More...
 
Array< T > hermitian (T(*fcn)(const T &)=nullptr) const
 Size of the specified dimension. More...
 
octave_idx_type dim3 (void) const
 Size of the specified dimension. More...
 
octave_idx_type pages (void) const
 Size of the specified dimension. More...
 
size_type size (const size_type d) const
 Size of the specified dimension. More...
 
size_t byte_size (void) const
 Size of the specified dimension. More...
 
const dim_vectordims (void) const
 Return a const-reference so that dims ()(i) works efficiently. More...
 
octave_idx_type compute_index (octave_idx_type i, octave_idx_type j) const
 Size of the specified dimension. More...
 
octave_idx_type compute_index (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
 Size of the specified dimension. More...
 
octave_idx_type compute_index (const Array< octave_idx_type > &ra_idx) const
 Size of the specified dimension. More...
 
octave_idx_type compute_index_unchecked (const Array< octave_idx_type > &ra_idx) const
 Size of the specified dimension. More...
 
T & xelem (octave_idx_type n)
 Size of the specified dimension. More...
 
crefT xelem (octave_idx_type n) const
 Size of the specified dimension. More...
 
T & xelem (octave_idx_type i, octave_idx_type j)
 Size of the specified dimension. More...
 
crefT xelem (octave_idx_type i, octave_idx_type j) const
 Size of the specified dimension. More...
 
T & xelem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
 Size of the specified dimension. More...
 
crefT xelem (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
 Size of the specified dimension. More...
 
T & xelem (const Array< octave_idx_type > &ra_idx)
 Size of the specified dimension. More...
 
crefT xelem (const Array< octave_idx_type > &ra_idx) const
 Size of the specified dimension. More...
 
T & checkelem (octave_idx_type n)
 Size of the specified dimension. More...
 
T & checkelem (octave_idx_type i, octave_idx_type j)
 Size of the specified dimension. More...
 
T & checkelem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
 Size of the specified dimension. More...
 
T & checkelem (const Array< octave_idx_type > &ra_idx)
 Size of the specified dimension. More...
 
crefT checkelem (octave_idx_type n) const
 Size of the specified dimension. More...
 
crefT checkelem (octave_idx_type i, octave_idx_type j) const
 Size of the specified dimension. More...
 
crefT checkelem (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
 Size of the specified dimension. More...
 
crefT checkelem (const Array< octave_idx_type > &ra_idx) const
 Size of the specified dimension. More...
 
T & elem (octave_idx_type n)
 Size of the specified dimension. More...
 
T & elem (octave_idx_type i, octave_idx_type j)
 Size of the specified dimension. More...
 
T & elem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
 Size of the specified dimension. More...
 
T & elem (const Array< octave_idx_type > &ra_idx)
 Size of the specified dimension. More...
 
crefT elem (octave_idx_type n) const
 Size of the specified dimension. More...
 
crefT elem (octave_idx_type i, octave_idx_type j) const
 Size of the specified dimension. More...
 
crefT elem (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
 Size of the specified dimension. More...
 
crefT elem (const Array< octave_idx_type > &ra_idx) const
 Size of the specified dimension. More...
 
T & operator() (octave_idx_type n)
 Size of the specified dimension. More...
 
T & operator() (octave_idx_type i, octave_idx_type j)
 Size of the specified dimension. More...
 
T & operator() (octave_idx_type i, octave_idx_type j, octave_idx_type k)
 Size of the specified dimension. More...
 
T & operator() (const Array< octave_idx_type > &ra_idx)
 Size of the specified dimension. More...
 
crefT operator() (octave_idx_type n) const
 Size of the specified dimension. More...
 
crefT operator() (octave_idx_type i, octave_idx_type j) const
 Size of the specified dimension. More...
 
crefT operator() (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
 Size of the specified dimension. More...
 
crefT operator() (const Array< octave_idx_type > &ra_idx) const
 Size of the specified dimension. More...
 
Array< T > column (octave_idx_type k) const
 Extract column: A(:,k+1). More...
 
Array< T > page (octave_idx_type k) const
 Extract page: A(:,:,k+1). More...
 
Array< T > linear_slice (octave_idx_type lo, octave_idx_type up) const
 Extract a slice from this array as a column vector: A(:)(lo+1:up). More...
 
bool issquare (void) const
 Size of the specified dimension. More...
 
bool isempty (void) const
 Size of the specified dimension. More...
 
bool isvector (void) const
 Size of the specified dimension. More...
 
bool is_nd_vector (void) const
 Size of the specified dimension. More...
 
const T * data (void) const
 Size of the specified dimension. More...
 
const T * fortran_vec (void) const
 Size of the specified dimension. More...
 
T * fortran_vec (void)
 Size of the specified dimension. More...
 
bool is_shared (void)
 Size of the specified dimension. More...
 
int ndims (void) const
 Size of the specified dimension. More...
 
Array< T > index (const idx_vector &i) const
 Indexing without resizing. More...
 
Array< T > index (const idx_vector &i, const idx_vector &j) const
 Size of the specified dimension. More...
 
Array< T > index (const Array< idx_vector > &ia) const
 Size of the specified dimension. More...
 
Array< T > index (const idx_vector &i, bool resize_ok, const T &rfv) const
 Indexing with possible resizing and fill. More...
 
Array< T > index (const idx_vector &i, bool resize_ok) const
 Size of the specified dimension. More...
 
Array< T > index (const idx_vector &i, const idx_vector &j, bool resize_ok, const T &rfv) const
 Size of the specified dimension. More...
 
Array< T > index (const idx_vector &i, const idx_vector &j, bool resize_ok) const
 Size of the specified dimension. More...
 
Array< T > index (const Array< idx_vector > &ia, bool resize_ok, const T &rfv) const
 Size of the specified dimension. More...
 
Array< T > index (const Array< idx_vector > &ia, bool resize_ok) const
 Size of the specified dimension. More...
 
virtual T resize_fill_value (void) const
 Size of the specified dimension. More...
 
void resize2 (octave_idx_type nr, octave_idx_type nc, const T &rfv)
 Resizing (with fill). More...
 
void resize2 (octave_idx_type nr, octave_idx_type nc)
 Size of the specified dimension. More...
 
void resize1 (octave_idx_type n, const T &rfv)
 Size of the specified dimension. More...
 
void resize1 (octave_idx_type n)
 Size of the specified dimension. More...
 
void resize (const dim_vector &dv, const T &rfv)
 Size of the specified dimension. More...
 
void resize (const dim_vector &dv)
 Size of the specified dimension. More...
 
void assign (const idx_vector &i, const Array< T > &rhs, const T &rfv)
 Indexed assignment (always with resize & fill). More...
 
void assign (const idx_vector &i, const Array< T > &rhs)
 Size of the specified dimension. More...
 
void assign (const idx_vector &i, const idx_vector &j, const Array< T > &rhs, const T &rfv)
 Size of the specified dimension. More...
 
void assign (const idx_vector &i, const idx_vector &j, const Array< T > &rhs)
 Size of the specified dimension. More...
 
void assign (const Array< idx_vector > &ia, const Array< T > &rhs, const T &rfv)
 Size of the specified dimension. More...
 
void assign (const Array< idx_vector > &ia, const Array< T > &rhs)
 Size of the specified dimension. More...
 
void delete_elements (const idx_vector &i)
 Deleting elements. More...
 
void delete_elements (int dim, const idx_vector &i)
 A(:,...,I,...,:) = [] (>= 2 subscripts, one of them is non-colon) More...
 
void delete_elements (const Array< idx_vector > &ia)
 Dispatcher to the above two. More...
 
Array< T > & insert (const Array< T > &a, const Array< octave_idx_type > &idx)
 Insert an array into another at a specified position. More...
 
Array< T > & insert (const Array< T > &a, octave_idx_type r, octave_idx_type c)
 This is just a special case for idx = [r c 0 ...]. More...
 
void maybe_economize (void)
 Size of the specified dimension. More...
 
void print_info (std::ostream &os, const std::string &prefix) const
 Size of the specified dimension. More...
 
void * mex_get_data (void) const
 Give a pointer to the data in mex format. More...
 
Array< T > sort (int dim=0, sortmode mode=ASCENDING) const
 Size of the specified dimension. More...
 
Array< T > sort (Array< octave_idx_type > &sidx, int dim=0, sortmode mode=ASCENDING) const
 Size of the specified dimension. More...
 
sortmode issorted (sortmode mode=UNSORTED) const
 Ordering is auto-detected or can be specified. More...
 
Array< octave_idx_typesort_rows_idx (sortmode mode=ASCENDING) const
 Sort by rows returns only indices. More...
 
sortmode is_sorted_rows (sortmode mode=UNSORTED) const
 Ordering is auto-detected or can be specified. More...
 
octave_idx_type lookup (const T &value, sortmode mode=UNSORTED) const
 Do a binary lookup in a sorted array. More...
 
Array< octave_idx_typelookup (const Array< T > &values, sortmode mode=UNSORTED) const
 Ditto, but for an array of values, specializing on the case when values are sorted. More...
 
octave_idx_type nnz (void) const
 Count nonzero elements. More...
 
Array< octave_idx_typefind (octave_idx_type n=-1, bool backward=false) const
 Find indices of (at most n) nonzero elements. More...
 
Array< T > nth_element (const idx_vector &n, int dim=0) const
 Returns the n-th element in increasing order, using the same ordering as used for sort. More...
 
Array< T > diag (octave_idx_type k=0) const
 Get the kth super or subdiagonal. More...
 
Array< T > diag (octave_idx_type m, octave_idx_type n) const
 Size of the specified dimension. More...
 
template<typename U , typename F >
Array< U > map (F fcn) const
 Apply function fcn to each element of the Array<T>. More...
 
template<typename U >
Array< U > map (U(&fcn)(T)) const
 Overloads for function references. More...
 
template<typename U >
Array< U > map (U(&fcn)(const T &)) const
 Size of the specified dimension. More...
 
template<typename F , bool zero>
bool test (F fcn) const
 Generic any/all test functionality with arbitrary predicate. More...
 
template<typename F >
bool test_any (F fcn) const
 Simpler calls. More...
 
bool test_any (bool(&fcn)(T)) const
 Overloads for function references. More...
 
bool test_any (bool(&fcn)(const T &)) const
 Size of the specified dimension. More...
 
template<typename F >
bool test_all (F fcn) const
 Size of the specified dimension. More...
 
bool test_all (bool(&fcn)(T)) const
 Size of the specified dimension. More...
 
bool test_all (bool(&fcn)(const T &)) const
 Size of the specified dimension. More...
 
bool optimize_dimensions (const dim_vector &dv)
 Returns true if this->dims () == dv, and if so, replaces this->dimensions by a shallow copy of dv. More...
 
int jit_ref_count (void)
 WARNING: Only call these functions from jit. More...
 
T * jit_slice_data (void) const
 Size of the specified dimension. More...
 
octave_idx_typejit_dimensions (void) const
 Size of the specified dimension. More...
 
void * jit_array_rep (void) const
 Size of the specified dimension. More...
 
static void instantiation_guard ()
 Size of the specified dimension. More...
 
static Array< T > cat (int dim, octave_idx_type n, const Array< T > *array_list)
 Concatenation along a specified (0-based) dimension, equivalent to cat(). More...
 

Detailed Description

Definition at line 35 of file CRowVector.h.

Member Typedef Documentation

◆ compare_fcn_type

template<typename T >
typedef bool(* Array< T >::compare_fcn_type) (typename ref_param< T >::type, typename ref_param< T >::type)
inherited

Definition at line 212 of file Array.h.

◆ crefT

template<typename T >
typedef ref_param<T>::type Array< T >::crefT
inherited

Definition at line 210 of file Array.h.

◆ element_type

template<typename T >
typedef T Array< T >::element_type
inherited

Definition at line 202 of file Array.h.

◆ size_type

template<typename T >
typedef octave_idx_type Array< T >::size_type
inherited

Used for operator(), and returned by numel() and size() (beware: signed integer)

Definition at line 208 of file Array.h.

◆ value_type

template<typename T >
typedef T Array< T >::value_type
inherited

Definition at line 204 of file Array.h.

Constructor & Destructor Documentation

◆ ComplexRowVector() [1/8]

ComplexRowVector::ComplexRowVector ( void  )
inline

Definition at line 43 of file CRowVector.h.

◆ ComplexRowVector() [2/8]

ComplexRowVector::ComplexRowVector ( octave_idx_type  n)
inlineexplicit

Definition at line 45 of file CRowVector.h.

◆ ComplexRowVector() [3/8]

ComplexRowVector::ComplexRowVector ( const dim_vector dv)
inlineexplicit

Definition at line 48 of file CRowVector.h.

◆ ComplexRowVector() [4/8]

ComplexRowVector::ComplexRowVector ( octave_idx_type  n,
const Complex val 
)
inline

Definition at line 50 of file CRowVector.h.

◆ ComplexRowVector() [5/8]

ComplexRowVector::ComplexRowVector ( const ComplexRowVector a)
inline

Definition at line 53 of file CRowVector.h.

◆ ComplexRowVector() [6/8]

ComplexRowVector::ComplexRowVector ( const MArray< Complex > &  a)
inline

Definition at line 55 of file CRowVector.h.

◆ ComplexRowVector() [7/8]

ComplexRowVector::ComplexRowVector ( const Array< Complex > &  a)
inline

Definition at line 58 of file CRowVector.h.

◆ ComplexRowVector() [8/8]

ComplexRowVector::ComplexRowVector ( const RowVector a)
inlineexplicit

Definition at line 61 of file CRowVector.h.

Member Function Documentation

◆ append() [1/2]

ComplexRowVector ComplexRowVector::append ( const ComplexRowVector a) const

Definition at line 185 of file CRowVector.cc.

References Array< T >::insert(), len, Array< T >::numel(), and retval.

◆ append() [2/2]

ComplexRowVector ComplexRowVector::append ( const RowVector a) const

Definition at line 174 of file CRowVector.cc.

References Array< T >::insert(), len, Array< T >::numel(), and retval.

◆ as_column()

template<typename T >
Array<T> Array< T >::as_column ( void  ) const
inlineinherited

Return the array as a column vector.

Definition at line 381 of file Array.h.

References Array< T >::dimensions, dim_vector::ndims(), numel(), and retval.

◆ as_matrix()

template<typename T >
Array<T> Array< T >::as_matrix ( void  ) const
inlineinherited

Return the array as a matrix.

Definition at line 401 of file Array.h.

References Array< T >::dimensions, dim_vector::ndims(), dim_vector::redim(), and retval.

Referenced by Sparse< T >::index().

◆ as_row()

template<typename T >
Array<T> Array< T >::as_row ( void  ) const
inlineinherited

Return the array as a row vector.

Definition at line 391 of file Array.h.

References Array< T >::dimensions, dim_vector::ndims(), numel(), and retval.

◆ assign() [1/6]

template<typename T >
void Array< T >::assign ( const Array< idx_vector > &  ia,
const Array< T > &  rhs 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 661 of file Array.h.

◆ assign() [2/6]

template<typename T >
void Array< T >::assign ( const Array< idx_vector > &  ia,
const Array< T > &  rhs,
const T &  rfv 
)
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 1267 of file Array.cc.

References dim_vector::alloc(), rec_index_helper::assign(), dim_vector::chop_all_singletons(), dim_vector::chop_trailing_singletons(), Array< T >::data(), Array< T >::dims(), octave::err_nonconformant(), rec_index_helper::fill(), dim_vector::ndims(), Array< T >::numel(), dim_vector::redim(), Array< T >::reshape(), dim_vector::zero_by_zero(), and zero_dims_inquire().

◆ assign() [3/6]

template<typename T >
void Array< T >::assign ( const idx_vector i,
const Array< T > &  rhs 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 648 of file Array.h.

◆ assign() [4/6]

◆ assign() [5/6]

template<typename T >
void Array< T >::assign ( const idx_vector i,
const idx_vector j,
const Array< T > &  rhs 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 655 of file Array.h.

◆ assign() [6/6]

template<typename T >
void Array< T >::assign ( const idx_vector i,
const idx_vector j,
const Array< T > &  rhs,
const T &  rfv 
)
inherited

◆ byte_size()

template<typename T >
size_t Array< T >::byte_size ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 449 of file Array.h.

References numel().

Referenced by octave_cell::byte_size(), DiagArray2< T >::byte_size(), PermMatrix::byte_size(), and octave_perm_matrix::save_binary().

◆ cat()

template<typename T >
Array< T > Array< T >::cat ( int  dim,
octave_idx_type  n,
const Array< T > *  array_list 
)
staticinherited

Concatenation along a specified (0-based) dimension, equivalent to cat().

dim = -1 corresponds to dim = 0 and dim = -2 corresponds to dim = 1, but apply the looser matching rules of vertcat/horzcat.

Definition at line 2630 of file Array.cc.

References Array< T >::assign(), idx_vector::colon, dim_vector::concat(), Array< T >::dims(), dim_vector::hvcat(), Array< T >::isempty(), max(), n, dim_vector::ndims(), retval, and dim_vector::zero_by_zero().

Referenced by single_type_concat().

◆ changesign()

void MArray< Complex >::changesign ( void  )
inherited

Definition at line 123 of file MArray.cc.

◆ checkelem() [1/8]

template<typename T >
T & Array< T >::checkelem ( const Array< octave_idx_type > &  ra_idx)
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 219 of file Array.cc.

References compute_index(), elem, and ra_idx.

◆ checkelem() [2/8]

template<typename T >
Array< T >::crefT Array< T >::checkelem ( const Array< octave_idx_type > &  ra_idx) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 254 of file Array.cc.

References compute_index(), elem, and ra_idx.

◆ checkelem() [3/8]

template<typename T >
T & Array< T >::checkelem ( octave_idx_type  i,
octave_idx_type  j 
)
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 205 of file Array.cc.

References compute_index(), and elem.

◆ checkelem() [4/8]

template<typename T >
Array< T >::crefT Array< T >::checkelem ( octave_idx_type  i,
octave_idx_type  j 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 239 of file Array.cc.

References compute_index(), and elem.

◆ checkelem() [5/8]

template<typename T >
T & Array< T >::checkelem ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
)
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 212 of file Array.cc.

References compute_index(), and elem.

◆ checkelem() [6/8]

template<typename T >
Array< T >::crefT Array< T >::checkelem ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 246 of file Array.cc.

References compute_index(), and elem.

◆ checkelem() [7/8]

◆ checkelem() [8/8]

template<typename T >
Array< T >::crefT Array< T >::checkelem ( octave_idx_type  n) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 226 of file Array.cc.

References elem, octave::err_index_out_of_range(), octave::err_invalid_index(), and n.

◆ clear() [1/4]

template<typename T >
void Array< T >::clear ( const dim_vector dv)
inherited

Definition at line 102 of file Array.cc.

References dim_vector::chop_trailing_singletons(), and dim_vector::safe_numel().

◆ clear() [2/4]

void ComplexRowVector::clear ( octave_idx_type  n)
inline

Definition at line 126 of file CRowVector.h.

References Array< T >::clear(), and n.

◆ clear() [3/4]

template<typename T >
void Array< T >::clear ( octave_idx_type  r,
octave_idx_type  c 
)
inlineinherited

Definition at line 373 of file Array.h.

References r.

◆ clear() [4/4]

◆ cols()

template<typename T >
octave_idx_type Array< T >::cols ( void  ) const
inlineinherited

Definition at line 423 of file Array.h.

Referenced by aepbalance< T >::aepbalance(), ComplexMatrix::ComplexMatrix(), FloatComplexMatrix::FloatComplexMatrix(), FloatMatrix::FloatMatrix(), Matrix::Matrix(), octave::math::airy(), FloatComplexMatrix::append(), FloatMatrix::append(), ComplexMatrix::append(), Matrix::append(), octave::math::biry(), SparseComplexMatrix::bsolve(), SparseMatrix::bsolve(), octave::math::sparse_qr< SPARSE_T >::sparse_qr_rep< SPARSE_T >::C(), ComplexMatrix::column_max(), FloatComplexMatrix::column_max(), FloatMatrix::column_max(), ComplexMatrix::column_min(), FloatComplexMatrix::column_min(), FloatMatrix::column_min(), ComplexMatrix::determinant(), FloatComplexMatrix::determinant(), FloatMatrix::determinant(), ComplexMatrix::diag(), FloatComplexMatrix::diag(), FloatMatrix::diag(), dmsolve_insert(), dmsolve_permute(), octave::math::do_bessel(), drawcn(), SparseComplexMatrix::dsolve(), SparseMatrix::dsolve(), elem_xpow(), ComplexMatrix::fill(), FloatComplexMatrix::fill(), FloatMatrix::fill(), ComplexMatrix::finverse(), FloatComplexMatrix::finverse(), FloatMatrix::finverse(), ComplexMatrix::fourier(), FloatComplexMatrix::fourier(), FloatMatrix::fourier(), ComplexMatrix::fourier2d(), FloatComplexMatrix::fourier2d(), FloatMatrix::fourier2d(), ComplexMatrix::fsolve(), FloatComplexMatrix::fsolve(), FloatMatrix::fsolve(), Matrix::fsolve(), SparseComplexMatrix::fsolve(), SparseMatrix::fsolve(), EIG::hermitian_init(), FloatEIG::hermitian_init(), ComplexMatrix::ifourier(), FloatComplexMatrix::ifourier(), FloatMatrix::ifourier(), ComplexMatrix::ifourier2d(), FloatComplexMatrix::ifourier2d(), FloatMatrix::ifourier2d(), Sparse< T >::index(), FloatEIG::init(), hess< T >::init(), EIG::init(), chol< T >::init(), gepbalance< T >::init(), schur< T >::init(), qr< T >::init(), qrp< T >::init(), FloatComplexMatrix::insert(), FloatMatrix::insert(), ComplexMatrix::insert(), qr< T >::insert_col(), ComplexMatrix::ishermitian(), FloatComplexMatrix::ishermitian(), FloatMatrix::issymmetric(), kron(), ComplexMatrix::lssolve(), FloatComplexMatrix::lssolve(), FloatMatrix::lssolve(), Matrix::lssolve(), ComplexMatrix::ltsolve(), FloatComplexMatrix::ltsolve(), FloatMatrix::ltsolve(), Matrix::ltsolve(), SparseComplexMatrix::ltsolve(), SparseMatrix::ltsolve(), LuAminusSigmaB(), make_cholb(), mark_facets(), matrix_real_probe(), octave_print_internal(), octave_print_internal_template(), ComplexMatrix::operator+=(), FloatComplexMatrix::operator+=(), FloatMatrix::operator+=(), ComplexMatrix::operator-=(), FloatComplexMatrix::operator-=(), FloatMatrix::operator-=(), boolMatrix::operator==(), charMatrix::operator==(), ComplexMatrix::operator==(), FloatComplexMatrix::operator==(), FloatMatrix::operator==(), Matrix::operator==(), ComplexMatrix::pseudo_inverse(), FloatComplexMatrix::pseudo_inverse(), FloatMatrix::pseudo_inverse(), ComplexMatrix::rcond(), FloatComplexMatrix::rcond(), FloatMatrix::rcond(), ComplexMatrix::row_max(), FloatComplexMatrix::row_max(), FloatMatrix::row_max(), ComplexMatrix::row_min(), FloatComplexMatrix::row_min(), FloatMatrix::row_min(), octave_cell::save_ascii(), octave_char_matrix_str::save_ascii(), save_mat_binary_data(), FloatComplexMatrix::stack(), FloatMatrix::stack(), ComplexMatrix::stack(), Matrix::stack(), stack_complex_matrix(), FloatEIG::symmetric_init(), EIG::symmetric_init(), ComplexMatrix::tinverse(), FloatComplexMatrix::tinverse(), FloatMatrix::tinverse(), SparseComplexMatrix::trisolve(), SparseMatrix::trisolve(), octave_bool_matrix::try_narrowing_conversion(), unstack_complex_matrix(), qr< T >::update(), QtHandles::Table::updateColumnname(), QtHandles::Table::updateRowname(), ComplexMatrix::utsolve(), FloatComplexMatrix::utsolve(), FloatMatrix::utsolve(), Matrix::utsolve(), SparseComplexMatrix::utsolve(), SparseMatrix::utsolve(), xgemm(), and xpow().

◆ column()

template<typename T >
Array< T > Array< T >::column ( octave_idx_type  k) const
inherited

◆ columns()

◆ compute_index() [1/3]

template<typename T >
octave_idx_type Array< T >::compute_index ( const Array< octave_idx_type > &  ra_idx) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 185 of file Array.cc.

References compute_index(), and ra_idx.

◆ compute_index() [2/3]

template<typename T >
octave_idx_type Array< T >::compute_index ( octave_idx_type  i,
octave_idx_type  j 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 170 of file Array.cc.

References compute_index().

◆ compute_index() [3/3]

template<typename T >
octave_idx_type Array< T >::compute_index ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 177 of file Array.cc.

References compute_index().

◆ compute_index_unchecked()

template<typename T >
octave_idx_type Array< T >::compute_index_unchecked ( const Array< octave_idx_type > &  ra_idx) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 463 of file Array.h.

References dim_vector::compute_index(), octave_base_value::numel(), and ra_idx.

◆ data()

template<typename T >
const T* Array< T >::data ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 581 of file Array.h.

Referenced by Cell::Cell(), idx_vector::idx_mask_rep::idx_mask_rep(), SparseComplexMatrix::abs(), SparseMatrix::abs(), SparseBoolMatrix::any(), mxArray_octave_value::array_to_string(), octave_bool_matrix::as_mxArray(), octave_cell::as_mxArray(), octave_char_matrix::as_mxArray(), octave_complex_matrix::as_mxArray(), octave_float_complex_matrix::as_mxArray(), octave_float_matrix::as_mxArray(), octave_matrix::as_mxArray(), octave_struct::as_mxArray(), octave_scalar_struct::as_mxArray(), Array< T >::assign(), binmap(), blkmm_internal(), MArray< double >::changesign(), convert_cdata(), DiagArray2< T >::data(), SparseComplexMatrix::dinverse(), SparseMatrix::dinverse(), octave::ft_manager::do_get_font(), do_merge(), do_mm_binary_op(), do_mx_check(), do_sm_binary_op(), octave::opengl_selector::draw_image(), octave::opengl_renderer::draw_marker(), octave::opengl_renderer::draw_patch(), octave::opengl_renderer::draw_surface(), F__native2unicode__(), F__pchip_deriv__(), F__unicode2native__(), octave::opengl_selector::fake_text(), Fbase64_encode(), Fdot(), Fellipj(), filter(), Fordschur(), ComplexMatrix::fourier(), FloatComplexMatrix::fourier(), ComplexMatrix::fourier2d(), FloatComplexMatrix::fourier2d(), Funicode_idx(), mxArray_octave_value::get_string(), MArray< T >::idx_add(), MArray< T >::idx_add_nd(), ComplexMatrix::ifourier(), FloatComplexMatrix::ifourier(), ComplexMatrix::ifourier2d(), FloatComplexMatrix::ifourier2d(), Sparse< T >::index(), octave_char_matrix::index_vector(), qr< T >::insert_col(), kron(), Array< T >::lookup(), octinternal_do_mul_pm_sm(), octinternal_do_mul_sm_pm(), operator*(), ComplexColumnVector::operator+=(), FloatComplexColumnVector::operator+=(), FloatComplexMatrix::operator+=(), FloatComplexRowVector::operator+=(), ComplexMatrix::operator+=(), operator+=(), operator-(), ComplexColumnVector::operator-=(), FloatComplexColumnVector::operator-=(), FloatComplexMatrix::operator-=(), FloatComplexRowVector::operator-=(), ComplexMatrix::operator-=(), operator-=(), boolMatrix::operator==(), charMatrix::operator==(), ColumnVector::operator==(), ComplexColumnVector::operator==(), ComplexMatrix::operator==(), operator==(), FloatColumnVector::operator==(), FloatComplexColumnVector::operator==(), FloatComplexMatrix::operator==(), FloatComplexRowVector::operator==(), FloatMatrix::operator==(), FloatRowVector::operator==(), Matrix::operator==(), RowVector::operator==(), qs_preprocess(), qs_replace(), qs_search(), octave::opengl_renderer::render_text(), octave_perm_matrix::save_binary(), save_mat5_binary_element(), octave::opengl_renderer::set_clipbox(), octave::opengl_renderer::set_color(), octave::rand::set_internal_state(), octave::opengl_renderer::setup_opengl_transformation(), stack_complex_matrix(), SparseComplexMatrix::tinverse(), SparseMatrix::tinverse(), unstack_complex_matrix(), lu< T >::update_piv(), octave::opengl_renderer::patch_tessellator::vertex(), octave::stream::write(), and xgemm().

◆ delete_elements() [1/3]

template<typename T >
void Array< T >::delete_elements ( const Array< idx_vector > &  ia)
inherited

Dispatcher to the above two.

Definition at line 1486 of file Array.cc.

References Array< T >::numel().

◆ delete_elements() [2/3]

template<typename T >
void Array< T >::delete_elements ( const idx_vector i)
inherited

◆ delete_elements() [3/3]

template<typename T >
void Array< T >::delete_elements ( int  dim,
const idx_vector i 
)
inherited

◆ diag() [1/2]

template<typename T >
Array< T > Array< T >::diag ( octave_idx_type  k = 0) const
inherited

Get the kth super or subdiagonal.

The zeroth diagonal is the ordinary diagonal.

Definition at line 2528 of file Array.cc.

References abs(), d, elem, n, and dim_vector::ndims().

Referenced by Cell::diag(), octave_base_scalar< ST >::diag(), boolMatrix::diag(), boolNDArray::diag(), charNDArray::diag(), ComplexNDArray::diag(), NDArray::diag(), FloatComplexNDArray::diag(), FloatNDArray::diag(), intNDArray< T >::diag(), and Fdiag().

◆ diag() [2/2]

template<typename T >
Array< T > Array< T >::diag ( octave_idx_type  m,
octave_idx_type  n 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 2614 of file Array.cc.

References m, min(), n, numel(), retval, and Array< T >::xelem().

◆ dim1()

template<typename T >
octave_idx_type Array< T >::dim1 ( void  ) const
inlineinherited

Definition at line 414 of file Array.h.

Referenced by Array< T >::assign(), PermMatrix::numel(), and PermMatrix::rows().

◆ dim2()

template<typename T >
octave_idx_type Array< T >::dim2 ( void  ) const
inlineinherited

◆ dim3()

template<typename T >
octave_idx_type Array< T >::dim3 ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 431 of file Array.h.

Referenced by octave::ft_text_renderer::process_character(), and octave::ft_text_renderer::render().

◆ dims()

template<typename T >
const dim_vector& Array< T >::dims ( void  ) const
inlineinherited

Return a const-reference so that dims ()(i) works efficiently.

Definition at line 453 of file Array.h.

Referenced by idx_vector::idx_mask_rep::idx_mask_rep(), idx_vector::idx_vector_rep::idx_vector_rep(), NDArray::NDArray(), octave::math::airy(), Array< T >::assign(), octave_map::assign(), binmap(), octave::math::biry(), bitopxx(), Array< T >::cat(), FloatNDArray::concat(), charNDArray::concat(), conv_to_int_array(), convolve(), octave_map::delete_elements(), octave::math::do_bessel(), do_bitpack(), do_bsxfun_op(), octave_map::do_cat(), do_merge(), do_mm_binary_op(), do_numeric_lookup(), do_rand(), do_rc_map(), octave::do_simple_cellfun(), do_sm_binary_op(), do_strcmp_fun(), do_tril(), do_triu(), octave::opengl_renderer::draw_surface(), octave_char_matrix_str::edit_display(), elem_xpow(), encode_bool_image(), Fcell2struct(), Fcomplex(), Fellipj(), filter(), find_nonzero_elem_idx(), Fis_same_file(), Fisa(), Fisargout(), Fisfield(), Flookup(), ComplexNDArray::fourier(), FloatComplexNDArray::fourier(), FloatNDArray::fourier(), ComplexNDArray::fourier2d(), FloatComplexNDArray::fourier2d(), FloatNDArray::fourier2d(), ComplexNDArray::fourierNd(), FloatComplexNDArray::fourierNd(), FloatNDArray::fourierNd(), Fregexprep(), Frepelems(), Fstr2double(), Fstrfind(), Fstrrep(), Fstruct(), Funicode_idx(), hex2num(), MArray< T >::idx_add_nd(), ComplexNDArray::ifourier(), FloatComplexNDArray::ifourier(), FloatNDArray::ifourier(), ComplexNDArray::ifourier2d(), FloatComplexNDArray::ifourier2d(), FloatNDArray::ifourier2d(), ComplexNDArray::ifourierNd(), FloatComplexNDArray::ifourierNd(), FloatNDArray::ifourierNd(), octave_map::index(), gepbalance< T >::init(), Array< T >::insert(), ComplexNDArray::insert(), FloatComplexNDArray::insert(), is_handle_visible(), ishghandle(), Array< T >::lookup(), octave_float_matrix::map(), octave_matrix::map(), octave::cdef_object::map_value(), num2hex(), oct_catop_matrix_struct(), oct_catop_struct_matrix(), octave_print_internal(), octcellregexp(), operator<<(), octave_map::permute(), octave_cell::print_raw(), octave_map::setfield(), sizes_cmp(), try_cellfun_internal_ops(), and x_el_div().

◆ elem() [1/8]

template<typename T >
T& Array< T >::elem ( const Array< octave_idx_type > &  ra_idx)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 510 of file Array.h.

References Array< T >::elem(), and ra_idx.

◆ elem() [2/8]

template<typename T >
crefT Array< T >::elem ( const Array< octave_idx_type > &  ra_idx) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 537 of file Array.h.

References ra_idx, and Array< T >::xelem().

◆ elem() [3/8]

template<typename T >
T& Array< T >::elem ( octave_idx_type  i,
octave_idx_type  j 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 505 of file Array.h.

References Array< T >::elem().

Referenced by Array< T >::elem().

◆ elem() [4/8]

template<typename T >
crefT Array< T >::elem ( octave_idx_type  i,
octave_idx_type  j 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 531 of file Array.h.

◆ elem() [5/8]

template<typename T >
T& Array< T >::elem ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 507 of file Array.h.

References elem.

◆ elem() [6/8]

template<typename T >
crefT Array< T >::elem ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 534 of file Array.h.

◆ elem() [7/8]

template<typename T >
T& Array< T >::elem ( octave_idx_type  n)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 499 of file Array.h.

References n.

Referenced by ComplexMatrix::ComplexMatrix(), FloatComplexMatrix::FloatComplexMatrix(), FloatMatrix::FloatMatrix(), Matrix::Matrix(), Sparse< T >::Sparse(), ComplexNDArray::all_integers(), FloatComplexNDArray::all_integers(), FloatNDArray::all_integers(), aepbalance< T >::balancing_matrix(), octave_complex_matrix::char_array_value(), octave_float_complex_matrix::char_array_value(), octave_float_matrix::char_array_value(), octave_range::char_array_value(), octave_matrix::char_array_value(), ComplexDiagMatrix::column(), DiagMatrix::column(), FloatComplexDiagMatrix::column(), FloatDiagMatrix::column(), ComplexMatrix::column_is_real_only(), FloatComplexMatrix::column_is_real_only(), ComplexMatrix::column_max(), Matrix::column_max(), FloatComplexMatrix::column_max(), FloatMatrix::column_max(), ComplexMatrix::column_min(), Matrix::column_min(), FloatComplexMatrix::column_min(), FloatMatrix::column_min(), NDArray::concat(), FloatNDArray::concat(), charNDArray::concat(), conj(), conv_to_int_array(), ddaspk_f(), ddaspk_j(), ddasrt_j(), ddassl_f(), ddassl_j(), delete_graphics_objects(), ComplexMatrix::determinant(), FloatComplexMatrix::determinant(), FloatMatrix::determinant(), DiagArray2< T >::dgelem(), LSODE::do_integrate(), Array< T >::elem(), DiagArray2< T >::elem(), extract(), FloatComplexRowVector::extract(), FloatRowVector::extract(), ComplexDiagMatrix::extract(), charMatrix::extract(), DiagMatrix::extract(), FloatComplexDiagMatrix::extract(), FloatDiagMatrix::extract(), ComplexColumnVector::extract(), FloatComplexColumnVector::extract(), FloatColumnVector::extract(), extract_n(), FloatComplexRowVector::extract_n(), FloatRowVector::extract_n(), ComplexColumnVector::extract_n(), FloatComplexColumnVector::extract_n(), FloatColumnVector::extract_n(), F__player_play__(), F__player_playblocking__(), ComplexDiagMatrix::fill(), FloatComplexDiagMatrix::fill(), FloatDiagMatrix::fill(), DiagMatrix::fill(), qr< T >::form(), SparseComplexMatrix::fsolve(), Fsymrcm(), text::properties::get___fontsize_points__(), Givens(), FloatEIG::init(), EIG::init(), ComplexColumnVector::insert(), ColumnVector::insert(), FloatComplexColumnVector::insert(), FloatColumnVector::insert(), FloatComplexMatrix::insert(), FloatComplexRowVector::insert(), FloatRowVector::insert(), FloatMatrix::insert(), ComplexMatrix::insert(), ComplexNDArray::insert(), FloatComplexNDArray::insert(), insert(), RowVector::insert(), Matrix::insert(), DASPK::integrate(), DASSL::integrate(), DASRT::integrate(), ComplexDiagMatrix::inverse(), DiagMatrix::inverse(), FloatComplexDiagMatrix::inverse(), FloatDiagMatrix::inverse(), ComplexMatrix::ishermitian(), FloatMatrix::issymmetric(), octave_bool_matrix::load_ascii(), octave_cell::load_ascii(), octave_cell::load_binary(), octave_bool_matrix::load_hdf5(), lsode_f(), ComplexMatrix::lssolve(), FloatComplexMatrix::lssolve(), FloatMatrix::lssolve(), Matrix::lssolve(), ltsolve(), matrix_real_probe(), SparseBoolMatrix::matrix_value(), SparseComplexMatrix::max(), SparseMatrix::max(), ComplexColumnVector::max(), max(), FloatComplexColumnVector::max(), FloatColumnVector::max(), FloatComplexRowVector::max(), FloatRowVector::max(), SparseComplexMatrix::min(), SparseMatrix::min(), ComplexColumnVector::min(), min(), FloatComplexColumnVector::min(), FloatColumnVector::min(), FloatComplexRowVector::min(), FloatRowVector::min(), boolMatrix::operator!(), intNDArray< T >::operator!(), PermMatrix::operator()(), operator*(), ComplexMatrix::operator+=(), FloatComplexMatrix::operator+=(), FloatMatrix::operator+=(), ComplexMatrix::operator-=(), FloatComplexMatrix::operator-=(), FloatMatrix::operator-=(), operator<<(), operator>>(), octave::bp_table::parse_dbfunction_params(), ComplexDiagMatrix::pseudo_inverse(), ComplexMatrix::pseudo_inverse(), DiagMatrix::pseudo_inverse(), Matrix::pseudo_inverse(), FloatComplexMatrix::pseudo_inverse(), FloatMatrix::pseudo_inverse(), FloatComplexDiagMatrix::pseudo_inverse(), FloatDiagMatrix::pseudo_inverse(), read_mat_ascii_data(), ComplexDiagMatrix::row(), DiagMatrix::row(), FloatComplexDiagMatrix::row(), FloatDiagMatrix::row(), ComplexMatrix::row_is_real_only(), FloatComplexMatrix::row_is_real_only(), ComplexMatrix::row_max(), Matrix::row_max(), FloatComplexMatrix::row_max(), FloatMatrix::row_max(), ComplexMatrix::row_min(), Matrix::row_min(), FloatComplexMatrix::row_min(), FloatMatrix::row_min(), octave_cell::save_ascii(), octave_cell::save_binary(), octave_cell::save_hdf5(), try_cellfun_internal_ops(), text::properties::update_fontunits(), utsolve(), and x_el_div().

◆ elem() [8/8]

template<typename T >
crefT Array< T >::elem ( octave_idx_type  n) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 529 of file Array.h.

References n.

◆ extract()

ComplexRowVector ComplexRowVector::extract ( octave_idx_type  c1,
octave_idx_type  c2 
) const

Definition at line 216 of file CRowVector.cc.

References Array< T >::elem().

◆ extract_n()

ComplexRowVector ComplexRowVector::extract_n ( octave_idx_type  c1,
octave_idx_type  n 
) const

Definition at line 231 of file CRowVector.cc.

References Array< T >::elem(), and n.

◆ fill() [1/5]

ComplexRowVector & ComplexRowVector::fill ( const Complex val)

◆ fill() [2/5]

ComplexRowVector & ComplexRowVector::fill ( const Complex val,
octave_idx_type  c1,
octave_idx_type  c2 
)

◆ fill() [3/5]

template<typename T >
void Array< T >::fill ( const T &  val)
inherited

Definition at line 73 of file Array.cc.

References numel().

Referenced by idx_vector::idx_scalar_rep::sort_idx().

◆ fill() [4/5]

ComplexRowVector & ComplexRowVector::fill ( double  val)

Definition at line 99 of file CRowVector.cc.

References len, Array< T >::make_unique(), Array< T >::numel(), and Array< T >::xelem().

◆ fill() [5/5]

ComplexRowVector & ComplexRowVector::fill ( double  val,
octave_idx_type  c1,
octave_idx_type  c2 
)

◆ find() [1/2]

◆ find() [2/2]

Array< octave_idx_type > Array< idx_vector >::find ( octave_idx_type  ,
bool   
) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ fortran_vec() [1/2]

template<typename T >
T * Array< T >::fortran_vec ( void  )
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 1740 of file Array.cc.

◆ fortran_vec() [2/2]

template<typename T >
const T* Array< T >::fortran_vec ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 583 of file Array.h.

Referenced by lu< T >::lu(), NDArray::NDArray(), octave::math::sparse_lu< lu_type >::sparse_lu(), SparseBoolMatrix::any(), octave_uint64_matrix::array_value(), idx_vector::idx_vector_rep::as_array(), mxArray_number::as_octave_value(), mxArray_struct::as_octave_value(), mxArray_cell::as_octave_value(), Sparse< T >::assign(), aepbalance< T >::balancing_matrix(), octave::base64_decode(), binmap(), blkmm_internal(), octave_uint64_matrix::bool_array_value(), SparseComplexMatrix::bsolve(), SparseMatrix::bsolve(), octave::math::sparse_qr< SPARSE_T >::sparse_qr_rep< SPARSE_T >::C(), cam2xform(), octave_uint64_matrix::char_array_value(), octave::chol2inv_internal(), idx_vector::complement(), octave_uint64_matrix::complex_array_value(), octave_uint64_matrix::complex_matrix_value(), convert_cdata(), convolve(), Array< T >::delete_elements(), ComplexMatrix::determinant(), Matrix::determinant(), FloatComplexMatrix::determinant(), FloatMatrix::determinant(), SparseComplexMatrix::determinant(), SparseMatrix::determinant(), dmsolve_insert(), dmsolve_permute(), do_bitpack(), do_bitunpack(), do_bsxfun_op(), octave::rand::do_float_nd_array(), DASPK::do_integrate(), DASSL::do_integrate(), LSODE::do_integrate(), DefQuad::do_integrate(), IndefQuad::do_integrate(), FloatDefQuad::do_integrate(), FloatIndefQuad::do_integrate(), do_merge(), octave::rand::do_nd_array(), do_repelems(), octave::base_stream::do_scanf(), octave::do_scanf_conv(), do_tril(), do_triu(), octave::rand::do_vector(), octave::opengl_renderer::draw_patch(), EigsComplexNonSymmetricFunc(), EigsComplexNonSymmetricMatrix(), EigsComplexNonSymmetricMatrixShift(), EigsRealNonSymmetricFunc(), EigsRealNonSymmetricMatrix(), EigsRealNonSymmetricMatrixShift(), EigsRealSymmetricFunc(), EigsRealSymmetricMatrix(), EigsRealSymmetricMatrixShift(), encode_bool_image(), encode_indexed_images(), octave_fields::equal_up_to_order(), F__delaunayn__(), F__dsearchn__(), F__glpk__(), F__icholt__(), F__iluc__(), F__ilutp__(), F__magick_finfo__(), F__pchip_deriv__(), F__voronoi__(), SparseComplexMatrix::factorize(), SparseMatrix::factorize(), Famd(), Faudioread(), Fconvhulln(), Fdot(), Fellipj(), filter(), Array< T >::find(), find_starting_node(), ComplexMatrix::finverse(), Matrix::finverse(), FloatComplexMatrix::finverse(), FloatMatrix::finverse(), octave_uint64_matrix::float_array_value(), octave_uint64_matrix::float_complex_array_value(), octave_uint64_matrix::float_complex_matrix_value(), octave_uint64_matrix::float_matrix_value(), Fordschur(), DiagArray2< T >::fortran_vec(), ComplexNDArray::fourier(), NDArray::fourier(), FloatComplexNDArray::fourier(), FloatNDArray::fourier(), ComplexMatrix::fourier(), Matrix::fourier(), FloatComplexMatrix::fourier(), FloatMatrix::fourier(), ComplexMatrix::fourier2d(), ComplexNDArray::fourier2d(), Matrix::fourier2d(), NDArray::fourier2d(), FloatComplexMatrix::fourier2d(), FloatComplexNDArray::fourier2d(), FloatMatrix::fourier2d(), FloatNDArray::fourier2d(), ComplexNDArray::fourierNd(), NDArray::fourierNd(), FloatComplexNDArray::fourierNd(), FloatNDArray::fourierNd(), Fqz(), Frandperm(), ComplexMatrix::fsolve(), FloatComplexMatrix::fsolve(), FloatMatrix::fsolve(), Matrix::fsolve(), SparseComplexMatrix::fsolve(), SparseMatrix::fsolve(), Fsymrcm(), octave::rand::get_internal_state(), octave::opengl_renderer::get_pixels(), gsvd< T >::ggsvd(), EIG::hermitian_init(), FloatEIG::hermitian_init(), ichol_t(), MArray< T >::idx_add_nd(), ComplexNDArray::ifourier(), FloatComplexNDArray::ifourier(), FloatNDArray::ifourier(), ComplexMatrix::ifourier(), Matrix::ifourier(), FloatComplexMatrix::ifourier(), FloatMatrix::ifourier(), ComplexMatrix::ifourier2d(), ComplexNDArray::ifourier2d(), Matrix::ifourier2d(), NDArray::ifourier2d(), FloatComplexMatrix::ifourier2d(), FloatComplexNDArray::ifourier2d(), FloatMatrix::ifourier2d(), FloatNDArray::ifourier2d(), ComplexNDArray::ifourierNd(), NDArray::ifourierNd(), FloatComplexNDArray::ifourierNd(), FloatNDArray::ifourierNd(), ilu_crout(), ilu_tp(), img_float2uint(), Range::index(), Array< T >::index(), FloatEIG::init(), hess< T >::init(), EIG::init(), chol< T >::init(), gepbalance< T >::init(), schur< T >::init(), qr< T >::init(), qrp< T >::init(), CollocWt::init(), qr< T >::insert_col(), qr< T >::insert_row(), DASRT::integrate(), ComplexDiagMatrix::inverse(), DiagMatrix::inverse(), kron(), octave_char_matrix_str::load_ascii(), octave_char_matrix_str::load_binary(), Array< T >::lookup(), ComplexMatrix::lssolve(), FloatComplexMatrix::lssolve(), FloatMatrix::lssolve(), Matrix::lssolve(), ComplexMatrix::ltsolve(), FloatComplexMatrix::ltsolve(), FloatMatrix::ltsolve(), Matrix::ltsolve(), LuAminusSigmaB(), Cell::map(), Array< T >::map(), octave_uint64_matrix::matrix_value(), num2hex(), octave::octave_jit_paren_subsasgn_impl(), operator*(), ComplexColumnVector::operator+=(), FloatComplexColumnVector::operator+=(), FloatComplexMatrix::operator+=(), FloatComplexRowVector::operator+=(), ComplexMatrix::operator+=(), operator+=(), ComplexColumnVector::operator-=(), FloatComplexColumnVector::operator-=(), FloatComplexMatrix::operator-=(), FloatComplexRowVector::operator-=(), ComplexMatrix::operator-=(), operator-=(), PermMatrix::pos_power(), octave::math::sparse_qr< SPARSE_T >::sparse_qr_rep< SPARSE_T >::Q(), qs_replace(), ComplexMatrix::rcond(), Matrix::rcond(), FloatComplexMatrix::rcond(), FloatMatrix::rcond(), read_indexed_images(), read_mat5_binary_element(), read_mat_binary_data(), reinterpret_copy(), reinterpret_int_copy(), Array< T >::resize(), Array< T >::resize1(), Array< T >::resize2(), octave_char_matrix_str::save_ascii(), log_scaler::scale(), neg_log_scaler::scale(), Array< T >::sort(), string_vector::sort(), idx_vector::idx_vector_rep::sort_idx(), Range::sort_internal(), Array< T >::sort_rows_idx(), sqrtm_utri_inplace(), stack_complex_matrix(), sub2ind(), SparseBoolMatrix::sum(), Sylvester(), FloatEIG::symmetric_init(), EIG::symmetric_init(), ComplexMatrix::tinverse(), Matrix::tinverse(), FloatComplexMatrix::tinverse(), FloatMatrix::tinverse(), QtHandles::Utils::toRgb(), Array< T >::transpose(), SparseComplexMatrix::trisolve(), SparseMatrix::trisolve(), unstack_complex_matrix(), lu< T >::update(), qr< T >::update(), lu< T >::update_piv(), ComplexMatrix::utsolve(), FloatComplexMatrix::utsolve(), FloatMatrix::utsolve(), Matrix::utsolve(), viridis_colormap(), and xgemm().

◆ hermitian() [1/3]

MArray<Complex > MArray< Complex >::hermitian ( T(*)(const T &)  fcn = nullptr) const
inlineinherited

Definition at line 108 of file MArray.h.

◆ hermitian() [2/3]

template<typename T >
Array< T > Array< T >::hermitian ( T(*)(const T &)  fcn = nullptr) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 1642 of file Array.cc.

References Array< T >::xelem().

Referenced by MArray< T >::hermitian(), and octave::math::sparse_chol< chol_type >::inverse().

◆ hermitian() [3/3]

ComplexColumnVector ComplexRowVector::hermitian ( void  ) const

Definition at line 196 of file CRowVector.cc.

References conj(), and MArray< T >::hermitian().

◆ idx_add() [1/2]

void MArray< Complex >::idx_add ( const idx_vector idx,
val 
)
inherited

Performs indexed accumulative addition.

Definition at line 113 of file MArray.cc.

◆ idx_add() [2/2]

void MArray< Complex >::idx_add ( const idx_vector idx,
const MArray< T > &  vals 
)
inherited

Definition at line 114 of file MArray.cc.

◆ idx_add_nd()

void MArray< Complex >::idx_add_nd ( const idx_vector idx,
const MArray< T > &  vals,
int  dim = -1 
)
inherited

Definition at line 121 of file MArray.cc.

◆ idx_max()

void MArray< Complex >::idx_max ( const idx_vector idx,
const MArray< T > &  vals 
)
inherited

Definition at line 119 of file MArray.cc.

◆ idx_min()

void MArray< Complex >::idx_min ( const idx_vector idx,
const MArray< T > &  vals 
)
inherited

Definition at line 117 of file MArray.cc.

◆ index() [1/9]

template<typename T >
Array< T > Array< T >::index ( const Array< idx_vector > &  ia) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 823 of file Array.cc.

References Array< T >::numel(), dim_vector::redim(), and retval.

◆ index() [2/9]

template<typename T >
Array<T> Array< T >::index ( const Array< idx_vector > &  ia,
bool  resize_ok 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 639 of file Array.h.

◆ index() [3/9]

template<typename T >
Array< T > Array< T >::index ( const Array< idx_vector > &  ia,
bool  resize_ok,
const T &  rfv 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 1085 of file Array.cc.

References dim_vector::alloc(), Array< T >::dimensions, Array< T >::index(), Array< T >::numel(), dim_vector::redim(), and Array< T >::resize().

◆ index() [4/9]

◆ index() [5/9]

template<typename T >
Array<T> Array< T >::index ( const idx_vector i,
bool  resize_ok 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 624 of file Array.h.

◆ index() [6/9]

template<typename T >
Array< T > Array< T >::index ( const idx_vector i,
bool  resize_ok,
const T &  rfv 
) const
inherited

Indexing with possible resizing and fill.

Definition at line 1033 of file Array.cc.

References idx_vector::extent(), Array< T >::index(), idx_vector::is_scalar(), n, numel(), Array< T >::numel(), and Array< T >::resize1().

◆ index() [7/9]

template<typename T >
Array< T > Array< T >::index ( const idx_vector i,
const idx_vector j 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 765 of file Array.cc.

References octave::err_index_out_of_range(), idx_vector::extent(), Array< T >::fortran_vec(), idx_vector::index(), idx_vector::is_colon(), idx_vector::is_cont_range(), idx_vector::length(), idx_vector::maybe_reduce(), n, numel(), r, dim_vector::redim(), retval, and idx_vector::xelem().

◆ index() [8/9]

template<typename T >
Array<T> Array< T >::index ( const idx_vector i,
const idx_vector j,
bool  resize_ok 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 631 of file Array.h.

◆ index() [9/9]

template<typename T >
Array< T > Array< T >::index ( const idx_vector i,
const idx_vector j,
bool  resize_ok,
const T &  rfv 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 1057 of file Array.cc.

References Array< T >::columns(), idx_vector::extent(), Array< T >::index(), idx_vector::is_scalar(), r, dim_vector::redim(), Array< T >::resize2(), and Array< T >::rows().

◆ insert() [1/4]

◆ insert() [2/4]

template<typename T >
Array< T > & Array< T >::insert ( const Array< T > &  a,
octave_idx_type  r,
octave_idx_type  c 
)
inherited

This is just a special case for idx = [r c 0 ...].

Definition at line 1563 of file Array.cc.

References Array< T >::columns(), Array< T >::dimensions, Array< T >::ndims(), r, and Array< T >::rows().

◆ insert() [3/4]

ComplexRowVector & ComplexRowVector::insert ( const ComplexRowVector a,
octave_idx_type  c 
)

◆ insert() [4/4]

ComplexRowVector & ComplexRowVector::insert ( const RowVector a,
octave_idx_type  c 
)

◆ instantiation_guard() [1/15]

void Array< Complex >::instantiation_guard ( )
privateinherited

Definition at line 97 of file Array-C.cc.

◆ instantiation_guard() [2/15]

void Array< float >::instantiation_guard ( )
privateinherited

Definition at line 168 of file Array-f.cc.

◆ instantiation_guard() [3/15]

void Array< FloatComplex >::instantiation_guard ( )
privateinherited

Definition at line 97 of file Array-fC.cc.

◆ instantiation_guard() [4/15]

void Array< long >::instantiation_guard ( )
privateinherited

Definition at line 53 of file Array-i.cc.

◆ instantiation_guard() [5/15]

void Array< octave_int8 >::instantiation_guard ( )
privateinherited

Definition at line 63 of file Array-i.cc.

◆ instantiation_guard() [6/15]

void Array< octave_int16 >::instantiation_guard ( )
privateinherited

Definition at line 64 of file Array-i.cc.

◆ instantiation_guard() [7/15]

void Array< octave_int32 >::instantiation_guard ( )
privateinherited

Definition at line 65 of file Array-i.cc.

◆ instantiation_guard() [8/15]

void Array< octave_int64 >::instantiation_guard ( )
privateinherited

Definition at line 66 of file Array-i.cc.

◆ instantiation_guard() [9/15]

void Array< octave_uint8 >::instantiation_guard ( )
privateinherited

Definition at line 73 of file Array-i.cc.

◆ instantiation_guard() [10/15]

void Array< octave_uint16 >::instantiation_guard ( )
privateinherited

Definition at line 74 of file Array-i.cc.

◆ instantiation_guard() [11/15]

void Array< octave_uint32 >::instantiation_guard ( )
privateinherited

Definition at line 75 of file Array-i.cc.

◆ instantiation_guard() [12/15]

void Array< octave_uint64 >::instantiation_guard ( )
privateinherited

Definition at line 76 of file Array-i.cc.

◆ instantiation_guard() [13/15]

void Array< idx_vector >::instantiation_guard ( )
privateinherited

Definition at line 44 of file Array-idx-vec.cc.

◆ instantiation_guard() [14/15]

void Array< short >::instantiation_guard ( )
privateinherited

Definition at line 47 of file Array-s.cc.

◆ instantiation_guard() [15/15]

template<typename T >
void Array< T >::instantiation_guard
staticprivateinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 2760 of file Array.cc.

◆ ipermute()

MArray<Complex > MArray< Complex >::ipermute ( const Array< octave_idx_type > &  vec) const
inlineinherited

Definition at line 100 of file MArray.h.

◆ is_nd_vector()

template<typename T >
bool Array< T >::is_nd_vector ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 576 of file Array.h.

References dim_vector::is_nd_vector().

Referenced by dim_vector::make_nd_vector().

◆ is_shared()

template<typename T >
bool Array< T >::is_shared ( void  )
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 587 of file Array.h.

References Array< T >::ArrayRep::count.

Referenced by mx_el_or_assign(), operator*=(), operator+=(), operator-=(), operator/=(), product_eq(), and quotient_eq().

◆ is_sorted_rows() [1/2]

template<typename T >
sortmode Array< T >::is_sorted_rows ( sortmode  mode = UNSORTED) const
inherited

◆ is_sorted_rows() [2/2]

sortmode Array< idx_vector >::is_sorted_rows ( sortmode  ) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ isempty()

template<typename T >
bool Array< T >::isempty ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 572 of file Array.h.

References numel().

Referenced by Array< T >::cat(), Sparse< T >::cat(), octave::ft_text_renderer::compute_bbox(), octave::ft_text_renderer::compute_line_xoffset(), NDArray::concat(), FloatNDArray::concat(), charNDArray::concat(), convolve(), daspk_user_function(), daspk_user_jacobian(), dasrt_user_cf(), dasrt_user_f(), dasrt_user_j(), dassl_user_function(), dassl_user_jacobian(), octave::bp_table::dbstop_process_map_args(), ddaspk_f(), ddasrt_f(), ddassl_f(), do_bsxfun_op(), do_minmax_red_op< boolNDArray >(), do_num2cell(), do_object2cell(), octave::opengl_renderer::draw_axes_boxes(), octave::opengl_renderer::draw_axes_planes(), octave::opengl_renderer::draw_axes_x_grid(), octave::opengl_renderer::draw_axes_y_grid(), octave::opengl_renderer::draw_axes_z_grid(), octave::opengl_renderer::draw_patch(), octave::opengl_renderer::draw_surface(), octave::opengl_renderer::draw_text_background(), EigsComplexNonSymmetricFunc(), EigsComplexNonSymmetricMatrix(), EigsComplexNonSymmetricMatrixShift(), EigsRealNonSymmetricFunc(), EigsRealNonSymmetricMatrix(), EigsRealNonSymmetricMatrixShift(), EigsRealSymmetricFunc(), EigsRealSymmetricMatrix(), EigsRealSymmetricMatrixShift(), F__magick_write__(), Array< T >::find(), find_config_info(), find_nonzero_elem_idx(), axes::properties::get_boundingbox(), uicontrol::properties::get_boundingbox(), uibuttongroup::properties::get_boundingbox(), uipanel::properties::get_boundingbox(), uitable::properties::get_boundingbox(), octave_bool_matrix::load_ascii(), octave_char_matrix_str::load_ascii(), lsode_f(), lsode_user_function(), lsode_user_jacobian(), LuAminusSigmaB(), Range::matrix_value(), octave_print_internal(), octave::textscan::read_format_once(), octave::textscan::scan_string(), octave::opengl_renderer::set_color(), octave_cell::short_disp(), octave::ft_text_renderer::text_to_pixels(), text::properties::update_font(), and val_in_table().

◆ issorted() [1/3]

OCTAVE_API sortmode Array< float >::issorted ( sortmode  mode) const
inherited

Definition at line 100 of file Array-f.cc.

References ASCENDING, DESCENDING, octave::math::isnan(), n, numel(), r, and UNSORTED.

◆ issorted() [2/3]

template<typename T >
sortmode Array< T >::issorted ( sortmode  mode = UNSORTED) const
inherited

◆ issorted() [3/3]

sortmode Array< idx_vector >::issorted ( sortmode  ) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ issquare()

template<typename T >
bool Array< T >::issquare ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 570 of file Array.h.

Referenced by ComplexMatrix::ishermitian(), and FloatMatrix::issymmetric().

◆ isvector()

template<typename T >
bool Array< T >::isvector ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 574 of file Array.h.

References dim_vector::isvector().

Referenced by Ffilter(), and sizes_cmp().

◆ jit_array_rep()

template<typename T >
void* Array< T >::jit_array_rep ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 849 of file Array.h.

References Array< T >::rep.

◆ jit_dimensions()

template<typename T >
octave_idx_type* Array< T >::jit_dimensions ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 847 of file Array.h.

References Array< T >::dimensions, and dim_vector::to_jit().

◆ jit_ref_count()

template<typename T >
int Array< T >::jit_ref_count ( void  )
inlineinherited

WARNING: Only call these functions from jit.

Definition at line 843 of file Array.h.

References Array< T >::ArrayRep::count, Array< T >::rep, and octave::refcount< T >::value().

Referenced by octave::octave_jit_paren_subsasgn_matrix_range().

◆ jit_slice_data()

template<typename T >
T* Array< T >::jit_slice_data ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 845 of file Array.h.

References Array< T >::slice_data.

Referenced by octave::octave_jit_paren_subsasgn_matrix_range().

◆ linear_slice()

template<typename T >
Array< T > Array< T >::linear_slice ( octave_idx_type  lo,
octave_idx_type  up 
) const
inherited

Extract a slice from this array as a column vector: A(:)(lo+1:up).

Must be 0 <= lo && up <= numel. May be up < lo.

Definition at line 281 of file Array.cc.

Referenced by octave_value_list::slice().

◆ lookup() [1/4]

Array< octave_idx_type > Array< idx_vector >::lookup ( const Array< idx_vector > &  ,
sortmode   
) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ lookup() [2/4]

template<typename T >
Array< octave_idx_type > Array< T >::lookup ( const Array< T > &  values,
sortmode  mode = UNSORTED 
) const
inherited

◆ lookup() [3/4]

template<typename T >
octave_idx_type Array< T >::lookup ( const T &  value,
sortmode  mode = UNSORTED 
) const
inherited

Do a binary lookup in a sorted array.

Must not contain NaNs. Mode can be specified or is auto-detected by comparing 1st and last element.

Definition at line 2145 of file Array.cc.

References ASCENDING, DESCENDING, octave_sort< T >::descending_compare(), elem, octave_sort< T >::lookup(), n, numel(), octave_sort< T >::set_compare(), and UNSORTED.

Referenced by do_numeric_lookup(), Flookup(), and val_in_table().

◆ lookup() [4/4]

octave_idx_type Array< idx_vector >::lookup ( idx_vector const &  ,
sortmode   
) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ make_unique()

◆ map() [1/3]

template<typename T >
template<typename U , typename F >
Array<U> Array< T >::map ( fcn) const
inlineinherited

◆ map() [2/3]

template<typename T >
template<typename U >
Array<U> Array< T >::map ( U(&)(const T &)  fcn) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 796 of file Array.h.

◆ map() [3/3]

template<typename T >
template<typename U >
Array<U> Array< T >::map ( U(&)(T)  fcn) const
inlineinherited

Overloads for function references.

Definition at line 791 of file Array.h.

◆ max()

Complex ComplexRowVector::max ( void  ) const

Definition at line 346 of file CRowVector.cc.

References abs(), Array< T >::elem(), len, and Array< T >::numel().

◆ maybe_economize()

template<typename T >
void Array< T >::maybe_economize ( void  )
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 689 of file Array.h.

References Array< T >::ArrayRep::count, Array< T >::ArrayRep::data, and Array< T >::ArrayRep::len.

◆ mex_get_data()

template<typename T >
void* Array< T >::mex_get_data ( void  ) const
inlineinherited

Give a pointer to the data in mex format.

Unsafe. This function exists to support the MEX interface. You should not use it anywhere else.

Definition at line 705 of file Array.h.

Referenced by octave_cell::mex_get_data().

◆ min()

Complex ComplexRowVector::min ( void  ) const

Definition at line 326 of file CRowVector.cc.

References abs(), Array< T >::elem(), len, and Array< T >::numel().

◆ ndims()

◆ nil_rep()

template<typename T >
Array< T >::ArrayRep * Array< T >::nil_rep ( void  )
staticprivateinherited

Definition at line 42 of file Array.cc.

◆ nnz() [1/2]

octave_idx_type Array< idx_vector >::nnz ( void  ) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ nnz() [2/2]

template<typename T >
octave_idx_type Array< T >::nnz ( void  ) const
inherited

◆ nth_element() [1/2]

Array< idx_vector > Array< idx_vector >::nth_element ( const idx_vector ,
int   
) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ nth_element() [2/2]

template<typename T >
Array< T > Array< T >::nth_element ( const idx_vector n,
int  dim = 0 
) const
inherited

Returns the n-th element in increasing order, using the same ordering as used for sort.

n can either be a scalar index or a contiguous range.

Definition at line 2306 of file Array.cc.

References ASCENDING, idx_vector::class_range, idx_vector::class_scalar, idx_vector::class_vector, DESCENDING, m, max(), min(), n, nn, octave_sort< T >::nth_element(), numel(), OCTAVE_LOCAL_BUFFER, octave_sort< T >::set_compare(), and UNSORTED.

Referenced by Fnth_element().

◆ numel()

template<typename T >
octave_idx_type Array< T >::numel ( void  ) const
inlineinherited

Number of elements in the array.

Definition at line 377 of file Array.h.

Referenced by Array< T >::Array(), QtHandles::ButtonControl::ButtonControl(), Cell::Cell(), ComplexMatrix::ComplexMatrix(), ComplexNDArray::ComplexNDArray(), DiagArray2< T >::DiagArray2(), FloatComplexMatrix::FloatComplexMatrix(), FloatComplexNDArray::FloatComplexNDArray(), FloatNDArray::FloatNDArray(), idx_vector::idx_vector(), idx_vector::idx_vector_rep::idx_vector_rep(), QtHandles::ListBoxControl::ListBoxControl(), NDArray::NDArray(), octave_value_list::octave_value_list(), rec_permute_helper::rec_permute_helper(), QtHandles::SliderControl::SliderControl(), Sparse< T >::Sparse(), octave::math::sparse_lu< lu_type >::sparse_lu(), string_array_property::string_array_property(), text_label_property::text_label_property(), ComplexNDArray::all_integers(), FloatComplexNDArray::all_integers(), FloatNDArray::all_integers(), all_ones(), any_ones(), FloatComplexMatrix::append(), FloatComplexRowVector::append(), FloatMatrix::append(), FloatRowVector::append(), ComplexMatrix::append(), append(), Matrix::append(), RowVector::append(), octave_value_list::array_value(), Array< T >::assign(), binmap(), bitopxx(), QtHandles::boundingBoxToRect(), calc_dimensions(), QtHandles::Canvas::canvasWheelEvent(), MArray< double >::changesign(), PermMatrix::checkelem(), gh_manager::close_all_figures(), boolNDArray::concat(), charNDArray::concat(), ComplexNDArray::concat(), FloatComplexNDArray::concat(), FloatNDArray::concat(), NDArray::concat(), concat(), conv_to_int_array(), convert_cdata(), convert_position(), octave::tree_evaluator::convert_return_list_to_const_vector(), convert_text_position(), daspk_user_function(), daspk_user_jacobian(), dasrt_user_f(), dasrt_user_j(), dassl_user_function(), dassl_user_jacobian(), octave::bp_table::dbstop_process_map_args(), decode_subscripts(), default_numeric_conversion_function(), octave::error_system::default_warning_state(), DEFMETHOD(), DEFMETHODX(), qr< T >::delete_col(), Array< T >::delete_elements(), delete_graphics_objects(), octave::cdef_class::cdef_class_rep::delete_object(), DiagArray2< T >::diag_length(), PermMatrix::dim1(), PermMatrix::dim2(), octave::error_system::display_warning_options(), octave::math::do_bessel(), do_bitpack(), do_bsxfun_op(), octave_map::do_cat(), do_cellslices_nda(), do_cleanup_waitfor_listener(), octave::rand::do_float_nd_array(), children_property::do_init_children(), DASPK::do_integrate(), DASSL::do_integrate(), LSODE::do_integrate(), DefQuad::do_integrate(), FloatDefQuad::do_integrate(), do_mat2cell(), do_mat2cell_nd(), do_merge(), do_minmax_bin_op< charNDArray >(), do_mx_check(), octave::rand::do_nd_array(), do_num2cell_helper(), do_permute(), do_rand(), do_rc_map(), text_label_property::do_set(), children_property::do_set(), octave_sparse_params::do_set_vals(), octave::do_simple_cellfun(), do_strcmp_fun(), octave::rand::do_vector(), chol< T >::downdate(), octave::opengl_renderer::draw(), octave::opengl_renderer::draw_all_lights(), octave::opengl_renderer::draw_line(), octave::opengl_renderer::draw_marker(), octave::opengl_renderer::draw_patch(), octave::opengl_selector::draw_text(), octave::opengl_renderer::draw_text(), EigsComplexNonSymmetricFunc(), EigsComplexNonSymmetricMatrix(), EigsComplexNonSymmetricMatrixShift(), EigsRealNonSymmetricFunc(), EigsRealNonSymmetricMatrix(), EigsRealNonSymmetricMatrixShift(), EigsRealSymmetricFunc(), EigsRealSymmetricMatrix(), EigsRealSymmetricMatrixShift(), elem_xpow(), octave_fields::equal_up_to_order(), gh_manager::execute_callback(), F__contourc__(), F__delaunayn__(), F__event_manager_input_dialog__(), F__event_manager_list_dialog__(), F__expint__(), F__get__(), F__glpk__(), F__go_delete__(), F__go_execute_callback__(), F__go_post_callback__(), F__magick_read__(), F__native2unicode__(), F__ode15__(), F__pchip_deriv__(), F__unicode2native__(), F__voronoi__(), Faudioread(), Fbase64_decode(), Fbase64_encode(), Fccolamd(), Fcell2struct(), Fcellslices(), Fcolamd(), Fcomplex(), Fconvhulln(), Fcsymamd(), Fdbstop(), Fdrawnow(), Fellipj(), Ffilter(), Fget(), octave::load_path::files(), DiagMatrix::fill(), ComplexDiagMatrix::fill(), FloatComplexDiagMatrix::fill(), FloatDiagMatrix::fill(), ComplexColumnVector::fill(), fill(), FloatComplexColumnVector::fill(), FloatComplexRowVector::fill(), FloatRowVector::fill(), FloatColumnVector::fill(), octave::cdef_object_array::fill_empty_values(), filter(), finalize_r(), Array< T >::find(), octave::cdef_class::cdef_class_rep::find_method(), octave::cdef_class::cdef_class_rep::find_methods(), octave::cdef_class::cdef_class_rep::find_names(), find_nonzero_elem_idx(), octave::cdef_class::cdef_class_rep::find_properties(), octave::cdef_class::cdef_class_rep::find_property(), Fis_same_file(), Fisa(), Fisargout(), Fiscolumn(), Fisfield(), Fismatrix(), Fisrow(), Fisscalar(), Fissquare(), Fisvector(), Flookup(), Flu(), Fmatrix_type(), Fndims(), Fnumel(), Fordschur(), octave::curl_transfer::form_data_post(), octave::curl_transfer::form_query_string(), ComplexNDArray::fourier(), FloatComplexNDArray::fourier(), FloatNDArray::fourier(), ComplexNDArray::fourier2d(), FloatComplexNDArray::fourier2d(), FloatNDArray::fourier2d(), Fquadcc(), Fregexprep(), Frepelems(), Freset(), Freshape(), Fresize(), Frmfield(), QtHandles::Utils::fromRgb(), Fset(), Fspparms(), Fstr2double(), Fstrfind(), Fstrrep(), Fsymamd(), Funicode_idx(), Furlread(), Furlwrite(), Fvec(), Fwarning(), octave::cdef_object_scalar::get(), get_children_limits(), base_properties::get_children_of_type(), get_dim_vector(), octave::get_dimensions(), get_region_range(), get_scalar_idx(), octave::get_size(), get_sort_mode(), hex2num(), MArray< T >::idx_add(), ComplexNDArray::ifourier(), FloatComplexNDArray::ifourier(), FloatNDArray::ifourier(), ComplexNDArray::ifourier2d(), FloatComplexNDArray::ifourier2d(), FloatNDArray::ifourier2d(), Array< T >::index(), octave::opengl_renderer::init_gl_context(), ODES::initialize(), base_diff_alg_eqn::initialize(), initialize_r(), ComplexColumnVector::insert(), ColumnVector::insert(), FloatComplexColumnVector::insert(), FloatColumnVector::insert(), FloatComplexRowVector::insert(), FloatRowVector::insert(), FloatComplexMatrix::insert(), FloatMatrix::insert(), intNDArray< octave_uint8 >::insert(), ComplexNDArray::insert(), FloatComplexNDArray::insert(), insert(), RowVector::insert(), ComplexMatrix::insert(), Matrix::insert(), qr< T >::insert_col(), qr< T >::insert_row(), chol< T >::insert_sym(), DASPK::integrate(), DASSL::integrate(), DASRT::integrate(), ComplexMatrix::inverse(), FloatComplexMatrix::inverse(), FloatMatrix::inverse(), octave::math::sparse_chol< chol_type >::inverse(), is_handle_visible(), octave::is_superclass(), PermMatrix::isempty(), ishghandle(), DiagArray2< T >::length(), linspace(), octave_bool_matrix::load_ascii(), octave::scoped_fcn_handle::load_ascii(), octave::scoped_fcn_handle::load_binary(), octave::textscan::lookahead(), Array< T >::lookup(), octave::lookup_classes(), Matrix::lssolve(), ComplexMatrix::lssolve(), FloatMatrix::lssolve(), FloatComplexMatrix::lssolve(), LuAminusSigmaB(), octave::cdef_object::map_value(), ComplexColumnVector::max(), max(), FloatComplexColumnVector::max(), FloatColumnVector::max(), FloatComplexRowVector::max(), FloatRowVector::max(), ComplexColumnVector::min(), min(), FloatComplexColumnVector::min(), FloatColumnVector::min(), FloatComplexRowVector::min(), FloatRowVector::min(), norm1(), null(), num2hex(), numel(), octave_class::numeric_conv(), octave::octave_jit_paren_subsasgn_impl(), octave_print_internal(), octcellregexp(), operator*(), ComplexColumnVector::operator+=(), FloatComplexColumnVector::operator+=(), FloatComplexMatrix::operator+=(), FloatComplexRowVector::operator+=(), ComplexMatrix::operator+=(), operator+=(), ComplexColumnVector::operator-=(), FloatComplexColumnVector::operator-=(), FloatComplexMatrix::operator-=(), FloatComplexRowVector::operator-=(), ComplexMatrix::operator-=(), operator-=(), operator<<(), ColumnVector::operator==(), ComplexColumnVector::operator==(), ComplexMatrix::operator==(), operator==(), FloatColumnVector::operator==(), FloatComplexColumnVector::operator==(), FloatComplexMatrix::operator==(), FloatComplexRowVector::operator==(), FloatMatrix::operator==(), FloatRowVector::operator==(), RowVector::operator==(), operator>>(), octave::bp_table::parse_dbfunction_params(), octave::textscan::parse_options(), PermMatrix::perm_length(), octave_base_diag< DMT, MT >::permute(), Array< T >::permute(), Sparse< T >::permute(), print_DASPK_options(), print_DASRT_options(), print_DASSL_options(), print_LSODE_options(), ComplexMatrix::pseudo_inverse(), Matrix::pseudo_inverse(), FloatComplexMatrix::pseudo_inverse(), FloatMatrix::pseudo_inverse(), qp(), qs_preprocess(), qs_replace(), qs_search(), read_images(), read_indexed_images(), read_mat5_binary_element(), read_mat5_binary_file_header(), octave::textscan::read_until(), octave::type_info::register_type(), figure::properties::remove_child(), octave::ft_text_renderer::render(), octave::opengl_renderer::render_grid(), octave::opengl_renderer::render_tickmarks(), octave::opengl_renderer::render_ticktexts(), safe_comparator(), octave_perm_matrix::save_ascii(), save_mat5_binary_element(), save_mat5_element_length(), octave::textscan::scan_complex(), octave::textscan::scan_string(), QtHandles::Canvas::select_object(), gnuplot_graphics_toolkit::send_quit(), graphics_object::set(), octave::ft_text_renderer::set_color(), annotation_dialog::set_gui_props(), octave::curl_transfer::set_header_fields(), octave::rand::set_internal_state(), octave::ft_text_renderer::set_mode(), octave::error_system::set_warning_option(), PermMatrix::setup(), show_DASPK_options(), show_DASRT_options(), show_DASSL_options(), show_LSODE_options(), sizes_cmp(), octave::textscan::skip_delim(), octave::textscan::skip_whitespace(), ComplexColumnVector::stack(), ColumnVector::stack(), FloatComplexColumnVector::stack(), FloatColumnVector::stack(), FloatComplexMatrix::stack(), FloatMatrix::stack(), ComplexMatrix::stack(), Matrix::stack(), sub2ind(), octave::cdef_object_array::subsasgn(), octave_cell::subsasgn(), octave_struct::subsasgn(), octave_class::subsasgn_common(), octave_struct::subsref(), octave_cell::subsref(), octave_class::subsref(), QtHandles::ButtonControl::toggled(), PermMatrix::transpose(), try_cellfun_internal_ops(), octave_complex_matrix::try_narrowing_conversion(), octave_float_complex_matrix::try_narrowing_conversion(), octave_float_matrix::try_narrowing_conversion(), octave_matrix::try_narrowing_conversion(), chol< T >::update(), lu< T >::update(), qr< T >::update(), QtHandles::ButtonControl::update(), QtHandles::PopupMenuControl::update(), QtHandles::SliderControl::update(), hggroup::update_axis_limits(), base_properties::update_boundingbox(), octave::file_editor_tab::update_lexer_settings(), lu< T >::update_piv(), octave::workspace_model::update_table(), update_text_pos(), QtHandles::Table::updateColumnname(), QtHandles::Table::updateColumnwidth(), QtHandles::Canvas::updateCurrentPoint(), QtHandles::Table::updateRowname(), QtHandles::updateSelection(), array_property::validate(), QtHandles::SliderControl::valueChanged(), vector_norm(), octave::opengl_renderer::patch_tessellator::vertex(), octave::tree_evaluator::visit_complex_for_command(), octave::error_system::warning_query(), octave::stream::write(), write_mat5_cell_array(), x_el_div(), octave::xzip(), and zero_dims_inquire().

◆ operator!=()

bool ComplexRowVector::operator!= ( const ComplexRowVector a) const

Definition at line 53 of file CRowVector.cc.

◆ operator()() [1/8]

template<typename T >
T& Array< T >::operator() ( const Array< octave_idx_type > &  ra_idx)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 517 of file Array.h.

References elem, and ra_idx.

◆ operator()() [2/8]

template<typename T >
crefT Array< T >::operator() ( const Array< octave_idx_type > &  ra_idx) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 546 of file Array.h.

References elem, and ra_idx.

◆ operator()() [3/8]

template<typename T >
T& Array< T >::operator() ( octave_idx_type  i,
octave_idx_type  j 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 514 of file Array.h.

References elem.

◆ operator()() [4/8]

template<typename T >
crefT Array< T >::operator() ( octave_idx_type  i,
octave_idx_type  j 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 541 of file Array.h.

References elem.

◆ operator()() [5/8]

template<typename T >
T& Array< T >::operator() ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 515 of file Array.h.

References elem.

◆ operator()() [6/8]

template<typename T >
crefT Array< T >::operator() ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 543 of file Array.h.

References elem.

◆ operator()() [7/8]

template<typename T >
T& Array< T >::operator() ( octave_idx_type  n)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 513 of file Array.h.

References elem, and n.

◆ operator()() [8/8]

template<typename T >
crefT Array< T >::operator() ( octave_idx_type  n) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 540 of file Array.h.

References elem, and n.

◆ operator+=()

ComplexRowVector & ComplexRowVector::operator+= ( const RowVector a)

◆ operator-=()

ComplexRowVector & ComplexRowVector::operator-= ( const RowVector a)

◆ operator=()

ComplexRowVector& ComplexRowVector::operator= ( const ComplexRowVector a)
inline

Definition at line 63 of file CRowVector.h.

References MArray< T >::operator=().

◆ operator==()

bool ComplexRowVector::operator== ( const ComplexRowVector a) const

Definition at line 44 of file CRowVector.cc.

References Array< T >::data(), len, mx_inline_equal(), and Array< T >::numel().

◆ optimize_dimensions()

template<typename T >
bool Array< T >::optimize_dimensions ( const dim_vector dv)
inherited

Returns true if this->dims () == dv, and if so, replaces this->dimensions by a shallow copy of dv.

This is useful for maintaining several arrays with supposedly equal dimensions (e.g. structs in the interpreter).

Definition at line 2750 of file Array.cc.

References retval.

Referenced by octave_map::cat(), octave_map::index(), octave_map::permute(), octave_map::reshape(), octave_map::squeeze(), and octave_map::transpose().

◆ page()

template<typename T >
Array< T > Array< T >::page ( octave_idx_type  k) const
inherited

Extract page: A(:,:,k+1).

Definition at line 270 of file Array.cc.

References r.

◆ pages()

template<typename T >
octave_idx_type Array< T >::pages ( void  ) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 432 of file Array.h.

◆ permute()

MArray<Complex > MArray< Complex >::permute ( const Array< octave_idx_type > &  vec,
bool  inv = false 
) const
inlineinherited

Definition at line 96 of file MArray.h.

◆ print_info()

template<typename T >
void Array< T >::print_info ( std::ostream &  os,
const std::string &  prefix 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 2734 of file Array.cc.

Referenced by DiagArray2< T >::print_info(), and PermMatrix::print_info().

◆ reshape() [1/2]

MArray<Complex > MArray< Complex >::reshape ( const dim_vector new_dims) const
inlineinherited

Definition at line 93 of file MArray.h.

◆ reshape() [2/2]

template<typename T >
Array<T> Array< T >::reshape ( octave_idx_type  nr,
octave_idx_type  nc 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 560 of file Array.h.

Referenced by idx_vector::idx_mask_rep::as_array(), Array< T >::assign(), Fbase64_decode(), Freshape(), Fvec(), octave_map::reshape(), Cell::reshape(), octave_base_scalar< ST >::reshape(), octave_class::reshape(), octave_lazy_index::reshape(), octave_matrix::reshape(), and MArray< T >::reshape().

◆ resize() [1/3]

template<typename T >
void Array< T >::resize ( const dim_vector dv)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 614 of file Array.h.

References Array< T >::resize().

Referenced by Array< T >::resize().

◆ resize() [2/3]

template<typename T >
void Array< T >::resize ( const dim_vector dv,
const T &  rfv 
)
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 1011 of file Array.cc.

References dim_vector::any_neg(), octave::err_invalid_resize(), Array< T >::fortran_vec(), dim_vector::ndims(), dim_vector::redim(), and rec_resize_helper::resize_fill().

Referenced by DiagArray2< T >::DiagArray2(), octave::math::sparse_lu< lu_type >::sparse_lu(), octave_value_list::array_value(), octave::base64_decode(), bitopxx(), SparseMatrix::bsolve(), call_mex(), Cell::column(), ComplexMatrix::column_max(), Matrix::column_max(), FloatComplexMatrix::column_max(), FloatMatrix::column_max(), ComplexMatrix::column_min(), Matrix::column_min(), FloatComplexMatrix::column_min(), FloatMatrix::column_min(), octave::regexp::compile_internal(), convert_label_position(), convert_text_position(), dmsolve(), dmsolve_permute(), octave::math::do_bessel(), do_cumminmax_red_op(), do_fft(), do_fft2(), do_fftn(), children_property::do_get_children(), DASPK::do_integrate(), DASSL::do_integrate(), LSODE::do_integrate(), do_object2cell(), do_regexp_ptn_string_escapes(), do_regexp_rep_string_escapes(), octave::do_simple_cellfun(), octave::do_string_escapes(), SparseComplexMatrix::dsolve(), SparseMatrix::dsolve(), octave::tree_cell::evaluate(), extract_keyword(), F__glpk__(), F__magick_read__(), Farrayfun(), Fbsxfun(), Fcellfun(), Fdet(), Ffilter(), Fgcd(), Fget(), filter(), find_nonzero_elem_idx(), ComplexMatrix::finverse(), Matrix::finverse(), FloatComplexMatrix::finverse(), FloatMatrix::finverse(), Flu(), Frandperm(), freeze(), Fresize(), Fsize(), SparseComplexMatrix::fsolve(), SparseMatrix::fsolve(), Fwarning(), get_object_dims(), get_ra_idx(), octave::sys::glob(), ichol_t(), MArray< T >::idx_add_nd(), octave::tree_evaluator::ignored_fcn_outputs(), ilu_crout(), ilu_tp(), Array< T >::index(), DASPK::integrate(), DASSL::integrate(), DASRT::integrate(), intmap_to_ov(), linspace(), octave::curl_transfer::list(), octave_bool_matrix::load_hdf5(), octave_cell::load_hdf5(), octave_complex_matrix::load_hdf5(), octave_float_complex_matrix::load_hdf5(), octave_float_matrix::load_hdf5(), octave_matrix::load_hdf5(), octave_char_matrix_str::load_hdf5(), ComplexMatrix::lssolve(), FloatComplexMatrix::lssolve(), FloatMatrix::lssolve(), Matrix::lssolve(), SparseComplexMatrix::ltsolve(), SparseMatrix::ltsolve(), octave::make_indices(), octave_complex_diag_matrix::map(), octave_float_complex_diag_matrix::map(), octave_float_diag_matrix::map(), octave_diag_matrix::map(), SparseComplexMatrix::max(), SparseMatrix::max(), mexCallMATLAB(), SparseComplexMatrix::min(), SparseMatrix::min(), null(), octregexp(), octave::stream_list::open_file_numbers(), octave::base_stream::oscanf(), octave::textscan_format_list::parse_char_class(), octave::type_info::register_type(), octave_map::resize(), octave_base_diag< DMT, MT >::resize(), octave_base_matrix< MT >::resize(), octave_range::resize(), octave_char_matrix_str::resize(), octave_base_sparse< T >::resize(), octave_char_matrix_sq_str::resize(), ComplexColumnVector::resize(), resize(), ColumnVector::resize(), RowVector::resize(), FloatColumnVector::resize(), FloatRowVector::resize(), FloatComplexColumnVector::resize(), FloatComplexRowVector::resize(), DiagArray2< T >::resize(), boolMatrix::resize(), charMatrix::resize(), ComplexMatrix::resize(), FloatComplexMatrix::resize(), Matrix::resize(), FloatMatrix::resize(), charMatrix::row_as_string(), ComplexMatrix::row_max(), Matrix::row_max(), FloatComplexMatrix::row_max(), FloatMatrix::row_max(), ComplexMatrix::row_min(), Matrix::row_min(), FloatComplexMatrix::row_min(), FloatMatrix::row_min(), octave::error_system::set_warning_option(), octave_class::size(), octave_base_scalar< ST >::sort(), Range::sort_internal(), octave_value_list::splice(), octave_char_matrix_str::string_vector_value(), utsolve(), SparseComplexMatrix::utsolve(), SparseMatrix::utsolve(), and octave::sys::windows_glob().

◆ resize() [3/3]

void ComplexRowVector::resize ( octave_idx_type  n,
const Complex rfv = Complex (0) 
)
inline

Definition at line 121 of file CRowVector.h.

References n, and Array< T >::resize().

Referenced by ComplexMatrix::column_max(), and ComplexMatrix::column_min().

◆ resize1() [1/2]

template<typename T >
void Array< T >::resize1 ( octave_idx_type  n)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 611 of file Array.h.

References n, and Array< T >::resize1().

Referenced by Array< T >::resize1().

◆ resize1() [2/2]

template<typename T >
void Array< T >::resize1 ( octave_idx_type  n,
const T &  rfv 
)
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 898 of file Array.cc.

References octave::err_invalid_resize(), Array< T >::fortran_vec(), min(), n, nn, and numel().

Referenced by Array< T >::index(), and octave::octave_jit_paren_subsasgn_impl().

◆ resize2() [1/2]

template<typename T >
void Array< T >::resize2 ( octave_idx_type  nr,
octave_idx_type  nc 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 605 of file Array.h.

◆ resize2() [2/2]

template<typename T >
void Array< T >::resize2 ( octave_idx_type  nr,
octave_idx_type  nc,
const T &  rfv 
)
inherited

Resizing (with fill).

Definition at line 969 of file Array.cc.

References octave::err_invalid_resize(), Array< T >::fortran_vec(), min(), and r.

Referenced by Array< T >::find(), and Array< T >::index().

◆ resize_fill_value()

template<typename T >
T Array< T >::resize_fill_value ( void  ) const
virtualinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Reimplemented in Cell.

Definition at line 887 of file Array.cc.

◆ rows()

template<typename T >
octave_idx_type Array< T >::rows ( void  ) const
inlineinherited

Definition at line 415 of file Array.h.

Referenced by aepbalance< T >::aepbalance(), ComplexMatrix::ComplexMatrix(), FloatComplexMatrix::FloatComplexMatrix(), FloatMatrix::FloatMatrix(), lu< T >::lu(), Matrix::Matrix(), octave::math::airy(), FloatComplexMatrix::append(), FloatMatrix::append(), ComplexMatrix::append(), Matrix::append(), octave::math::biry(), SparseComplexMatrix::bsolve(), SparseMatrix::bsolve(), octave::math::sparse_qr< SPARSE_T >::sparse_qr_rep< SPARSE_T >::C(), octave_char_matrix_str::cellstr_value(), QtHandles::Table::checkBoxClicked(), ComplexMatrix::column_is_real_only(), FloatComplexMatrix::column_is_real_only(), ComplexMatrix::column_max(), FloatComplexMatrix::column_max(), FloatMatrix::column_max(), ComplexMatrix::column_min(), FloatComplexMatrix::column_min(), FloatMatrix::column_min(), convert_cdata(), ComplexMatrix::determinant(), FloatComplexMatrix::determinant(), FloatMatrix::determinant(), octave_complex_matrix::diag(), octave_float_complex_matrix::diag(), octave_float_matrix::diag(), octave_matrix::diag(), ComplexMatrix::diag(), FloatComplexMatrix::diag(), FloatMatrix::diag(), dmsolve_insert(), dmsolve_permute(), octave::math::do_bessel(), do_fftn(), do_repelems(), string_array_property::do_set(), do_sparse_diff(), do_tril(), do_triu(), octave::opengl_renderer::draw_patch(), octave::opengl_renderer::draw_surface(), drawcn(), SparseComplexMatrix::dsolve(), SparseMatrix::dsolve(), elem_xpow(), encode_bool_image(), encode_indexed_images(), F__delaunayn__(), F__event_manager_file_dialog__(), F__event_manager_input_dialog__(), F__pchip_deriv__(), F__voronoi__(), Faudiowrite(), Fconvhulln(), ComplexMatrix::fill(), FloatComplexMatrix::fill(), FloatMatrix::fill(), find_nonzero_elem_idx(), ComplexMatrix::finverse(), FloatComplexMatrix::finverse(), FloatMatrix::finverse(), qr< T >::form(), ComplexMatrix::fourier(), FloatComplexMatrix::fourier(), FloatMatrix::fourier(), ComplexMatrix::fourier2d(), FloatComplexMatrix::fourier2d(), FloatMatrix::fourier2d(), Frepelems(), ComplexMatrix::fsolve(), FloatComplexMatrix::fsolve(), FloatMatrix::fsolve(), Matrix::fsolve(), SparseComplexMatrix::fsolve(), SparseMatrix::fsolve(), EIG::hermitian_init(), FloatEIG::hermitian_init(), ComplexMatrix::ifourier(), FloatComplexMatrix::ifourier(), FloatMatrix::ifourier(), ComplexMatrix::ifourier2d(), FloatComplexMatrix::ifourier2d(), FloatMatrix::ifourier2d(), Sparse< T >::index(), Array< T >::index(), FloatEIG::init(), hess< T >::init(), EIG::init(), chol< T >::init(), gepbalance< T >::init(), schur< T >::init(), qr< T >::init(), qrp< T >::init(), Array< T >::insert(), FloatComplexMatrix::insert(), FloatMatrix::insert(), ComplexMatrix::insert(), ComplexMatrix::inverse(), FloatComplexMatrix::inverse(), FloatMatrix::inverse(), ComplexMatrix::ishermitian(), FloatComplexMatrix::ishermitian(), FloatMatrix::issymmetric(), kron(), ComplexMatrix::lssolve(), FloatComplexMatrix::lssolve(), FloatMatrix::lssolve(), Matrix::lssolve(), ComplexMatrix::ltsolve(), FloatComplexMatrix::ltsolve(), FloatMatrix::ltsolve(), Matrix::ltsolve(), SparseComplexMatrix::ltsolve(), SparseMatrix::ltsolve(), LuAminusSigmaB(), mark_facets(), mark_upper_triangular(), matrix_real_probe(), max(), min(), octave_print_internal(), octave_print_internal_template(), operator*(), ComplexMatrix::operator+=(), FloatComplexMatrix::operator+=(), FloatMatrix::operator+=(), ComplexMatrix::operator-=(), FloatComplexMatrix::operator-=(), FloatMatrix::operator-=(), boolMatrix::operator==(), charMatrix::operator==(), ComplexMatrix::operator==(), FloatComplexMatrix::operator==(), FloatMatrix::operator==(), Matrix::operator==(), QtHandles::pointer_to_qimage(), ComplexMatrix::pseudo_inverse(), FloatComplexMatrix::pseudo_inverse(), FloatMatrix::pseudo_inverse(), ComplexMatrix::rcond(), FloatComplexMatrix::rcond(), FloatMatrix::rcond(), octave::regexp::replace(), ComplexMatrix::row_max(), FloatComplexMatrix::row_max(), FloatMatrix::row_max(), ComplexMatrix::row_min(), FloatComplexMatrix::row_min(), FloatMatrix::row_min(), octave_cell::save_ascii(), octave_char_matrix_str::save_ascii(), save_mat_binary_data(), save_three_d(), sizes_cmp(), sqrtm_utri_inplace(), FloatComplexMatrix::stack(), FloatMatrix::stack(), ComplexMatrix::stack(), Matrix::stack(), stack_complex_matrix(), streameuler2d_internal(), octave_char_matrix_str::string_vector_value(), octave::tree_evaluator::switch_case_label_matches(), Sylvester(), FloatEIG::symmetric_init(), EIG::symmetric_init(), ComplexMatrix::tinverse(), FloatComplexMatrix::tinverse(), FloatMatrix::tinverse(), SparseComplexMatrix::trisolve(), SparseMatrix::trisolve(), octave_bool_matrix::try_narrowing_conversion(), unstack_complex_matrix(), lu< T >::update(), qr< T >::update(), lu< T >::update_piv(), QtHandles::Table::updateColumnname(), QtHandles::Table::updateRowname(), ComplexMatrix::utsolve(), FloatComplexMatrix::utsolve(), FloatMatrix::utsolve(), Matrix::utsolve(), SparseComplexMatrix::utsolve(), SparseMatrix::utsolve(), x_el_div(), xgemm(), and xpow().

◆ size()

template<typename T >
size_type Array< T >::size ( const size_type  d) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 442 of file Array.h.

References d.

Referenced by Fdbstatus(), octave::textscan::parse_options(), octave::bp_table::remove_breakpoint(), and octave_value::size().

◆ sort() [1/4]

template<typename T >
Array< T > Array< T >::sort ( Array< octave_idx_type > &  sidx,
int  dim = 0,
sortmode  mode = ASCENDING 
) const
inherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 1873 of file Array.cc.

References Array< octave_idx_type >, DESCENDING, Array< T >::fortran_vec(), m, dim_vector::numel(), OCTAVE_LOCAL_BUFFER, octave_sort< T >::set_compare(), octave_sort< T >::sort(), and UNSORTED.

◆ sort() [2/4]

Array< idx_vector > Array< idx_vector >::sort ( Array< octave_idx_type > &  sidx,
int  ,
sortmode   
) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ sort() [3/4]

◆ sort() [4/4]

Array< idx_vector > Array< idx_vector >::sort ( int  ,
sortmode   
) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ sort_rows_idx() [1/2]

◆ sort_rows_idx() [2/2]

Array< octave_idx_type > Array< idx_vector >::sort_rows_idx ( sortmode  ) const
inherited

Definition at line 42 of file Array-idx-vec.cc.

◆ squeeze()

MArray MArray< Complex >::squeeze ( void  ) const
inlineinherited

Definition at line 103 of file MArray.h.

◆ test()

template<typename T >
template<typename F , bool zero>
bool Array< T >::test ( fcn) const
inlineinherited

Generic any/all test functionality with arbitrary predicate.

Definition at line 802 of file Array.h.

References numel().

◆ test_all() [1/3]

template<typename T >
bool Array< T >::test_all ( bool(&)(const T &)  fcn) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 829 of file Array.h.

◆ test_all() [2/3]

template<typename T >
bool Array< T >::test_all ( bool(&)(T)  fcn) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 826 of file Array.h.

◆ test_all() [3/3]

template<typename T >
template<typename F >
bool Array< T >::test_all ( fcn) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 814 of file Array.h.

Referenced by FloatNDArray::all_elements_are_int_or_inf_or_nan(), FloatNDArray::all_elements_are_zero(), FloatNDArray::all_integers(), FloatNDArray::any_element_is_negative(), FloatNDArray::any_element_is_positive(), and FloatNDArray::any_element_not_one_or_zero().

◆ test_any() [1/3]

template<typename T >
bool Array< T >::test_any ( bool(&)(const T &)  fcn) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 823 of file Array.h.

◆ test_any() [2/3]

template<typename T >
bool Array< T >::test_any ( bool(&)(T)  fcn) const
inlineinherited

Overloads for function references.

Definition at line 820 of file Array.h.

◆ test_any() [3/3]

template<typename T >
template<typename F >
bool Array< T >::test_any ( fcn) const
inlineinherited

Simpler calls.

Definition at line 810 of file Array.h.

Referenced by ComplexNDArray::too_large_for_float().

◆ transpose()

ComplexColumnVector ComplexRowVector::transpose ( void  ) const

Definition at line 202 of file CRowVector.cc.

References MArray< T >::transpose().

◆ xelem() [1/8]

template<typename T >
T& Array< T >::xelem ( const Array< octave_idx_type > &  ra_idx)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 482 of file Array.h.

References ra_idx.

◆ xelem() [2/8]

template<typename T >
crefT Array< T >::xelem ( const Array< octave_idx_type > &  ra_idx) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 485 of file Array.h.

References ra_idx.

◆ xelem() [3/8]

template<typename T >
T& Array< T >::xelem ( octave_idx_type  i,
octave_idx_type  j 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 472 of file Array.h.

◆ xelem() [4/8]

template<typename T >
crefT Array< T >::xelem ( octave_idx_type  i,
octave_idx_type  j 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 474 of file Array.h.

◆ xelem() [5/8]

template<typename T >
T& Array< T >::xelem ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 477 of file Array.h.

◆ xelem() [6/8]

template<typename T >
crefT Array< T >::xelem ( octave_idx_type  i,
octave_idx_type  j,
octave_idx_type  k 
) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 479 of file Array.h.

◆ xelem() [7/8]

template<typename T >
T& Array< T >::xelem ( octave_idx_type  n)
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 469 of file Array.h.

References n.

Referenced by ComplexMatrix::ComplexMatrix(), ComplexNDArray::ComplexNDArray(), FloatComplexMatrix::FloatComplexMatrix(), FloatComplexNDArray::FloatComplexNDArray(), FloatNDArray::FloatNDArray(), idx_vector::idx_vector_rep::idx_vector_rep(), intNDArray< T >::abs(), SparseBoolMatrix::any(), octave_value_list::array_value(), DiagArray2< T >::array_value(), Sparse< T >::array_value(), idx_vector::idx_range_rep::as_array(), idx_vector::idx_mask_rep::as_array(), octave::as_bool_nd_array(), dim_vector::as_column(), octave::as_nd_array(), dim_vector::as_row(), octave::type_info::assign_ops_map(), octave::type_info::assignany_ops_map(), octave::type_info::binary_ops_map(), Cell::cellstr_value(), octave_char_matrix_str::cellstr_value(), octave::chol2inv_internal(), Cell::column(), column_norms(), octave::type_info::compound_binary_ops_map(), DiagArray2< T >::dgxelem(), Array< T >::diag(), dmsolve_extract(), octave_map::do_cat(), do_cellslices_nda(), children_property::do_init_children(), do_mat2cell(), do_mat2cell_2d(), do_mat2cell_nd(), do_num2cell(), do_numeric_lookup(), do_object2cell(), do_rand(), do_rc_map(), children_property::do_set(), Array< T >::elem(), dim_vector::elem(), elem_xpow(), dim_vector::empty_2d(), octave_builtin::execute(), RowVector::extract(), FloatRowVector::extract(), ColumnVector::extract(), FloatColumnVector::extract(), RowVector::extract_n(), FloatRowVector::extract_n(), ColumnVector::extract_n(), FloatColumnVector::extract_n(), F__event_manager_file_dialog__(), F__event_manager_input_dialog__(), F__event_manager_list_dialog__(), F__native2unicode__(), F__unicode2native__(), Famd(), Faudiowrite(), Fcellindexmat(), Fcellslices(), Fcomplex(), octave_fields::fieldnames(), ComplexColumnVector::fill(), ComplexMatrix::fill(), fill(), FloatComplexColumnVector::fill(), FloatComplexMatrix::fill(), FloatComplexRowVector::fill(), FloatMatrix::fill(), FloatRowVector::fill(), FloatColumnVector::fill(), octave::cdef_object_array::fill_empty_values(), find_nonzero_elem_idx(), dim_vector::first_non_singleton(), Flookup(), Fordschur(), qr< T >::form(), SparseComplexMatrix::fsolve(), SparseMatrix::fsolve(), Fstruct2cell(), octave::math::lu< T >::getp(), Array< T >::hermitian(), hex2num(), imag(), Sparse< T >::index(), ComplexColumnVector::insert(), FloatComplexColumnVector::insert(), FloatColumnVector::insert(), FloatComplexMatrix::insert(), FloatComplexRowVector::insert(), FloatRowVector::insert(), FloatMatrix::insert(), ComplexMatrix::insert(), insert(), idx_vector::inverse_permutation(), is_handle_visible(), dim_vector::is_nd_vector(), ishghandle(), dim_vector::isvector(), kron(), linspace(), SparseComplexMatrix::ltsolve(), SparseMatrix::ltsolve(), LuAminusSigmaB(), map_2_xlog2(), Range::matrix_value(), octave::type_info::non_const_unary_ops_map(), norm1(), octave::octave_jit_paren_scalar(), octave::octave_jit_paren_scalar_subsasgn(), octave::octave_jit_paren_subsasgn_matrix_range(), octave_scalar_map::orderfields(), octave_map::orderfields(), octave::math::sparse_qr< SPARSE_T >::sparse_qr_rep< SPARSE_T >::P(), octave::math::lu< T >::P_vec(), octave::math::sparse_lu< lu_type >::Pc_vec(), octave_base_diag< DMT, MT >::permute(), octave::math::sparse_qr< SPARSE_T >::sparse_qr_rep< SPARSE_T >::Pinv(), octave::math::sparse_lu< lu_type >::Pr_vec(), put_int(), qp(), qs_search(), read_mat_binary_data(), row_norms(), intNDArray< T >::signum(), idx_vector::idx_range_rep::sort_idx(), idx_vector::idx_mask_rep::sort_idx(), Cell::string_vector_value(), SparseBoolMatrix::sum(), Array< T >::transpose(), PermMatrix::transpose(), octave::type_info::unary_ops_map(), idx_vector::idx_vector_rep::unconvert(), idx_vector::idx_mask_rep::unconvert(), SparseComplexMatrix::utsolve(), SparseMatrix::utsolve(), DiagArray2< T >::xelem(), xgemm(), and dim_vector::zero_by_zero().

◆ xelem() [8/8]

template<typename T >
crefT Array< T >::xelem ( octave_idx_type  n) const
inlineinherited

Size of the specified dimension.

Dimensions beyond the Array number of dimensions return 1 as those are implicit singleton dimensions.

Equivalent to Octave's 'size (A, DIM)'

Definition at line 470 of file Array.h.

References n.

Friends And Related Function Documentation

◆ ComplexColumnVector

friend class ComplexColumnVector
friend

Definition at line 39 of file CRowVector.h.

◆ conj

ComplexRowVector conj ( const ComplexRowVector a)
friend

Definition at line 208 of file CRowVector.cc.

◆ operator* [1/2]

ComplexRowVector operator* ( const ComplexRowVector a,
const ComplexMatrix b 
)
friend

Definition at line 284 of file CRowVector.cc.

◆ operator* [2/2]

ComplexRowVector operator* ( const RowVector a,
const ComplexMatrix b 
)
friend

Definition at line 317 of file CRowVector.cc.

◆ operator<<

std::ostream& operator<< ( std::ostream &  os,
const ComplexRowVector a 
)
friend

Definition at line 367 of file CRowVector.cc.

◆ operator>>

std::istream& operator>> ( std::istream &  is,
ComplexRowVector a 
)
friend

Definition at line 377 of file CRowVector.cc.

Member Data Documentation

◆ dimensions

◆ rep

◆ slice_data

template<typename T >
T* Array< T >::slice_data
protectedinherited

Definition at line 228 of file Array.h.

Referenced by Array< T >::Array(), Array< T >::jit_slice_data(), and Array< T >::operator=().

◆ slice_len

template<typename T >
octave_idx_type Array< T >::slice_len
protectedinherited

Definition at line 229 of file Array.h.

Referenced by Array< T >::operator=().


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