#include "CColVector.h"

Inheritance diagram for ComplexColumnVector:

Collaboration diagram for ComplexColumnVector:

[legend]

Public Types
typedef bool(*	compare_fcn_type) (typename ref_param< Complex >::type, typename ref_param< Complex >::type)

typedef ref_param< Complex >::type	crefT

typedef Complex	element_type

typedef octave_idx_type	size_type
	Used for operator(), and returned by numel() and size() (beware: signed integer) More...

typedef Complex	value_type

Public Member Functions
	ComplexColumnVector (const Array< Complex > &a)

OCTAVE_API	ComplexColumnVector (const ColumnVector &a)

	ComplexColumnVector (const ComplexColumnVector &a)

	ComplexColumnVector (const dim_vector &dv)

	ComplexColumnVector (const MArray< Complex > &a)

	ComplexColumnVector (octave_idx_type n)

	ComplexColumnVector (octave_idx_type n, const Complex &val)

	ComplexColumnVector (void)

OCTAVE_API ColumnVector	abs (void) const

Array< Complex, Alloc >	as_column (void) const
	Return the array as a column vector. More...

Array< Complex, Alloc >	as_matrix (void) const
	Return the array as a matrix. More...

Array< Complex, Alloc >	as_row (void) const
	Return the array as a row vector. More...

OCTARRAY_API void	changesign (void)

OCTARRAY_API void	clear (const dim_vector &dv)

void	clear (octave_idx_type n)

void	clear (octave_idx_type r, octave_idx_type c)

OCTARRAY_API void	clear (void)

OCTAVE_API ComplexColumnVector	extract (octave_idx_type r1, octave_idx_type r2) const

OCTAVE_API ComplexColumnVector	extract_n (octave_idx_type r1, octave_idx_type n) const

OCTARRAY_API void	fill (const Complex &val)

OCTAVE_API ComplexColumnVector &	fill (const Complex &val)

OCTAVE_API ComplexColumnVector &	fill (const Complex &val, octave_idx_type r1, octave_idx_type r2)

OCTAVE_API ComplexColumnVector &	fill (double val)

OCTAVE_API ComplexColumnVector &	fill (double val, octave_idx_type r1, octave_idx_type r2)

OCTAVE_API Array< octave_idx_type >	find (octave_idx_type, bool) const

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

OCTAVE_API ComplexRowVector	hermitian (void) const

OCTARRAY_API void	idx_add (const octave::idx_vector &idx, Complex val)
	Performs indexed accumulative addition. More...

OCTARRAY_API void	idx_add (const octave::idx_vector &idx, const MArray< Complex > &vals)

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

OCTARRAY_API void	idx_max (const octave::idx_vector &idx, const MArray< Complex > &vals)

OCTARRAY_API void	idx_min (const octave::idx_vector &idx, const MArray< Complex > &vals)

OCTAVE_API ComplexColumnVector &	insert (const ColumnVector &a, octave_idx_type r)

OCTAVE_API ComplexColumnVector &	insert (const ComplexColumnVector &a, octave_idx_type r)

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

OCTAVE_API sortmode	is_sorted_rows (sortmode) const

OCTAVE_API sortmode	issorted (sortmode) const

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

OCTAVE_API octave_idx_type	lookup (octave::idx_vector const &, sortmode) const

void	make_unique (void)

OCTAVE_API Complex	max (void) const

OCTAVE_API Complex	min (void) const

OCTAVE_API octave_idx_type	nnz (void) const

OCTAVE_API Array< octave::idx_vector >	nth_element (const octave::idx_vector &, int) const

octave_idx_type	numel (void) const
	Number of elements in the array. More...

OCTAVE_API bool	operator!= (const ComplexColumnVector &a) const

OCTAVE_API ComplexColumnVector &	operator+= (const ColumnVector &a)

OCTAVE_API ComplexColumnVector &	operator-= (const ColumnVector &a)

ComplexColumnVector &	operator= (const ComplexColumnVector &a)

OCTAVE_API bool	operator== (const ComplexColumnVector &a) const

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

MArray< Complex >	reshape (const dim_vector &new_dims) const

void	resize (octave_idx_type n, const Complex &rfv=Complex(0))

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

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

OCTAVE_API Array< octave_idx_type >	sort_rows_idx (sortmode) const

MArray	squeeze (void) const

OCTAVE_API ComplexColumnVector	stack (const ColumnVector &a) const

OCTAVE_API ComplexColumnVector	stack (const ComplexColumnVector &a) const

OCTAVE_API ComplexRowVector	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	m_dimensions

Array< Complex, Alloc >::ArrayRep *	m_rep

Complex *	m_slice_data

octave_idx_type	m_slice_len

Private Member Functions
OCTAVE_API void	instantiation_guard ()

OCTAVE_API void	instantiation_guard ()

OCTAVE_API void	instantiation_guard ()

OCTAVE_API void	instantiation_guard ()

OCTAVE_API void	instantiation_guard ()

OCTAVE_API void	instantiation_guard ()

OCTAVE_API void	instantiation_guard ()

OCTAVE_API void	instantiation_guard ()

Static Private Member Functions
static OCTARRAY_API void	instantiation_guard ()

static OCTARRAY_API Array< Complex, Alloc >::ArrayRep *	nil_rep (void)

Friends
class	ComplexMatrix

class	ComplexRowVector

OCTAVE_API ComplexColumnVector	conj (const ComplexColumnVector &a)

OCTAVE_API ComplexColumnVector	operator* (const ComplexDiagMatrix &a, const ColumnVector &b)

OCTAVE_API ComplexColumnVector	operator* (const ComplexDiagMatrix &a, const ComplexColumnVector &b)

OCTAVE_API ComplexColumnVector	operator* (const ComplexMatrix &a, const ColumnVector &b)

OCTAVE_API ComplexColumnVector	operator* (const ComplexMatrix &a, const ComplexColumnVector &b)

OCTAVE_API ComplexColumnVector	operator* (const DiagMatrix &a, const ComplexColumnVector &b)

OCTAVE_API ComplexColumnVector	operator* (const Matrix &a, const ComplexColumnVector &b)

OCTAVE_API std::ostream &	operator<< (std::ostream &os, const ComplexColumnVector &a)

OCTAVE_API std::istream &	operator>> (std::istream &is, ComplexColumnVector &a)

Third dimension
Get the third dimension of the array (number of pages)
Array< Complex, Alloc >	reshape (octave_idx_type nr, octave_idx_type nc) 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...

std::size_t	byte_size (void) const
	Size of the specified dimension. More...

const dim_vector &	dims (void) const
	Return a const-reference so that dims ()(i) works efficiently. More...

OCTARRAY_API octave_idx_type	compute_index (octave_idx_type i, octave_idx_type j) const
	Size of the specified dimension. More...

OCTARRAY_API octave_idx_type	compute_index (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
	Size of the specified dimension. More...

OCTARRAY_API 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...

Complex &	xelem (octave_idx_type n)
	Size of the specified dimension. More...

crefT	xelem (octave_idx_type n) const
	Size of the specified dimension. More...

Complex &	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...

Complex &	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...

Complex &	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...

OCTARRAY_API Complex &	checkelem (octave_idx_type n)
	Size of the specified dimension. More...

OCTARRAY_API Complex &	checkelem (octave_idx_type i, octave_idx_type j)
	Size of the specified dimension. More...

OCTARRAY_API Complex &	checkelem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
	Size of the specified dimension. More...

OCTARRAY_API Complex &	checkelem (const Array< octave_idx_type > &ra_idx)
	Size of the specified dimension. More...

OCTARRAY_API crefT	checkelem (octave_idx_type n) const
	Size of the specified dimension. More...

OCTARRAY_API crefT	checkelem (octave_idx_type i, octave_idx_type j) const
	Size of the specified dimension. More...

OCTARRAY_API crefT	checkelem (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
	Size of the specified dimension. More...

OCTARRAY_API crefT	checkelem (const Array< octave_idx_type > &ra_idx) const
	Size of the specified dimension. More...

Complex &	elem (octave_idx_type n)
	Size of the specified dimension. More...

Complex &	elem (octave_idx_type i, octave_idx_type j)
	Size of the specified dimension. More...

Complex &	elem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
	Size of the specified dimension. More...

Complex &	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...

Complex &	operator() (octave_idx_type n)
	Size of the specified dimension. More...

Complex &	operator() (octave_idx_type i, octave_idx_type j)
	Size of the specified dimension. More...

Complex &	operator() (octave_idx_type i, octave_idx_type j, octave_idx_type k)
	Size of the specified dimension. More...

Complex &	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...

OCTARRAY_API Array< Complex, Alloc >	column (octave_idx_type k) const
	Extract column: A(:,k+1). More...

OCTARRAY_API Array< Complex, Alloc >	page (octave_idx_type k) const
	Extract page: A(:,:,k+1). More...

OCTARRAY_API Array< Complex, Alloc >	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 Complex *	data (void) const
	Size of the specified dimension. More...

OCTARRAY_API Complex *	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...

OCTARRAY_API Array< Complex, Alloc >	index (const octave::idx_vector &i) const
	Indexing without resizing. More...

OCTARRAY_API Array< Complex, Alloc >	index (const octave::idx_vector &i, const octave::idx_vector &j) const
	Size of the specified dimension. More...

OCTARRAY_API Array< Complex, Alloc >	index (const Array< octave::idx_vector > &ia) const
	Size of the specified dimension. More...

OCTARRAY_API Array< Complex, Alloc >	index (const octave::idx_vector &i, bool resize_ok, const Complex &rfv) const
	Indexing with possible resizing and fill. More...

Array< Complex, Alloc >	index (const octave::idx_vector &i, bool resize_ok) const
	Size of the specified dimension. More...

OCTARRAY_API Array< Complex, Alloc >	index (const octave::idx_vector &i, const octave::idx_vector &j, bool resize_ok, const Complex &rfv) const
	Size of the specified dimension. More...

Array< Complex, Alloc >	index (const octave::idx_vector &i, const octave::idx_vector &j, bool resize_ok) const
	Size of the specified dimension. More...

OCTARRAY_API Array< Complex, Alloc >	index (const Array< octave::idx_vector > &ia, bool resize_ok, const Complex &rfv) const
	Size of the specified dimension. More...

Array< Complex, Alloc >	index (const Array< octave::idx_vector > &ia, bool resize_ok) const
	Size of the specified dimension. More...

virtual OCTARRAY_API Complex	resize_fill_value (void) const
	Size of the specified dimension. More...

OCTARRAY_API void	resize2 (octave_idx_type nr, octave_idx_type nc, const Complex &rfv)
	Resizing (with fill). More...

void	resize2 (octave_idx_type nr, octave_idx_type nc)
	Size of the specified dimension. More...

OCTARRAY_API void	resize1 (octave_idx_type n, const Complex &rfv)
	Size of the specified dimension. More...

void	resize1 (octave_idx_type n)
	Size of the specified dimension. More...

OCTARRAY_API void	resize (const dim_vector &dv, const Complex &rfv)
	Size of the specified dimension. More...

void	resize (const dim_vector &dv)
	Size of the specified dimension. More...

OCTARRAY_API void	assign (const octave::idx_vector &i, const Array< Complex, Alloc > &rhs, const Complex &rfv)
	Indexed assignment (always with resize & fill). More...

void	assign (const octave::idx_vector &i, const Array< Complex, Alloc > &rhs)
	Size of the specified dimension. More...

OCTARRAY_API void	assign (const octave::idx_vector &i, const octave::idx_vector &j, const Array< Complex, Alloc > &rhs, const Complex &rfv)
	Size of the specified dimension. More...

void	assign (const octave::idx_vector &i, const octave::idx_vector &j, const Array< Complex, Alloc > &rhs)
	Size of the specified dimension. More...

OCTARRAY_API void	assign (const Array< octave::idx_vector > &ia, const Array< Complex, Alloc > &rhs, const Complex &rfv)
	Size of the specified dimension. More...

void	assign (const Array< octave::idx_vector > &ia, const Array< Complex, Alloc > &rhs)
	Size of the specified dimension. More...

OCTARRAY_API void	delete_elements (const octave::idx_vector &i)
	Deleting elements. More...

OCTARRAY_API void	delete_elements (int dim, const octave::idx_vector &i)
	A(:,...,I,...,:) = [] (>= 2 subscripts, one of them is non-colon) More...

OCTARRAY_API void	delete_elements (const Array< octave::idx_vector > &ia)
	Dispatcher to the above two. More...

OCTARRAY_API Array< Complex, Alloc > &	insert (const Array< Complex, Alloc > &a, const Array< octave_idx_type > &idx)
	Insert an array into another at a specified position. More...

OCTARRAY_API Array< Complex, Alloc > &	insert (const Array< Complex, Alloc > &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...

OCTARRAY_API void	print_info (std::ostream &os, const std::string &prefix) const
	Size of the specified dimension. More...

OCTARRAY_API Array< Complex, Alloc >	sort (int dim=0, sortmode mode=ASCENDING) const
	Size of the specified dimension. More...

OCTARRAY_API Array< Complex, Alloc >	sort (Array< octave_idx_type > &sidx, int dim=0, sortmode mode=ASCENDING) const
	Size of the specified dimension. More...

OCTARRAY_API sortmode	issorted (sortmode mode=UNSORTED) const
	Ordering is auto-detected or can be specified. More...

OCTARRAY_API Array< octave_idx_type >	sort_rows_idx (sortmode mode=ASCENDING) const
	Sort by rows returns only indices. More...

OCTARRAY_API sortmode	is_sorted_rows (sortmode mode=UNSORTED) const
	Ordering is auto-detected or can be specified. More...

OCTARRAY_API octave_idx_type	lookup (const Complex &value, sortmode mode=UNSORTED) const
	Do a binary lookup in a sorted array. More...

OCTARRAY_API Array< octave_idx_type >	lookup (const Array< Complex, Alloc > &values, sortmode mode=UNSORTED) const
	Ditto, but for an array of values, specializing on the case when values are sorted. More...

OCTARRAY_API octave_idx_type	nnz (void) const
	Count nonzero elements. More...

OCTARRAY_API Array< octave_idx_type >	find (octave_idx_type n=-1, bool backward=false) const
	Find indices of (at most n) nonzero elements. More...

OCTARRAY_API Array< Complex, Alloc >	nth_element (const octave::idx_vector &n, int dim=0) const
	Returns the n-th element in increasing order, using the same ordering as used for sort. More...

OCTARRAY_API Array< Complex, Alloc >	diag (octave_idx_type k=0) const
	Get the kth super or subdiagonal. More...

OCTARRAY_API Array< Complex, Alloc >	diag (octave_idx_type m, octave_idx_type n) const
	Size of the specified dimension. More...

Array< U, A >	map (F fcn) const
	Apply function fcn to each element of the Array<T, Alloc>. More...

Array< U, A >	map (U(&fcn)(Complex)) const
	Overloads for function references. More...

Array< U, A >	map (U(&fcn)(const Complex &)) const
	Size of the specified dimension. More...

bool	test (F fcn) const
	Generic any/all test functionality with arbitrary predicate. More...

bool	test_any (F fcn) const
	Simpler calls. More...

bool	test_any (bool(&fcn)(Complex)) const
	Overloads for function references. More...

bool	test_any (bool(&fcn)(const Complex &)) const
	Size of the specified dimension. More...

bool	test_all (F fcn) const
	Size of the specified dimension. More...

bool	test_all (bool(&fcn)(Complex)) const
	Size of the specified dimension. More...

bool	test_all (bool(&fcn)(const Complex &)) const
	Size of the specified dimension. More...

OCTARRAY_API bool	optimize_dimensions (const dim_vector &dv)
	Returns true if this->dims () == dv, and if so, replaces this->m_dimensions by a shallow copy of dv. More...

static OCTARRAY_API Array< Complex, Alloc >	cat (int dim, octave_idx_type n, const Array< Complex, Alloc > *array_list)
	Concatenation along a specified (0-based) dimension, equivalent to cat(). More...

Detailed Description

Definition at line 34 of file CColVector.h.

Member Typedef Documentation

◆ compare_fcn_type

typedef bool(* Array< Complex , Alloc >::compare_fcn_type) (typename ref_param< Complex >::type, typename ref_param< Complex >::type)

inherited

Definition at line 239 of file Array.h.

◆ crefT

typedef ref_param<Complex >::type Array< Complex , Alloc >::crefT

inherited

Definition at line 237 of file Array.h.

◆ element_type

typedef Complex Array< Complex , Alloc >::element_type

inherited

Definition at line 229 of file Array.h.

◆ size_type

typedef octave_idx_type Array< Complex , Alloc >::size_type

inherited

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

Definition at line 235 of file Array.h.

◆ value_type

typedef Complex Array< Complex , Alloc >::value_type

inherited

Definition at line 231 of file Array.h.

Constructor & Destructor Documentation

◆ ComplexColumnVector() [1/8]

ComplexColumnVector::ComplexColumnVector ( void )

inline

Definition at line 43 of file CColVector.h.

◆ ComplexColumnVector() [2/8]

ComplexColumnVector::ComplexColumnVector ( octave_idx_type n )

inlineexplicit

Definition at line 45 of file CColVector.h.

◆ ComplexColumnVector() [3/8]

ComplexColumnVector::ComplexColumnVector ( const dim_vector & dv )

inlineexplicit

Definition at line 48 of file CColVector.h.

◆ ComplexColumnVector() [4/8]

ComplexColumnVector::ComplexColumnVector	(	octave_idx_type	n,
		const Complex &	val
	)

inline

Definition at line 51 of file CColVector.h.

◆ ComplexColumnVector() [5/8]

ComplexColumnVector::ComplexColumnVector ( const ComplexColumnVector & a )

inline

Definition at line 54 of file CColVector.h.

◆ ComplexColumnVector() [6/8]

ComplexColumnVector::ComplexColumnVector ( const MArray< Complex > & a )

inline

Definition at line 56 of file CColVector.h.

◆ ComplexColumnVector() [7/8]

ComplexColumnVector::ComplexColumnVector ( const Array< Complex > & a )

inline

Definition at line 59 of file CColVector.h.

◆ ComplexColumnVector() [8/8]

ComplexColumnVector::ComplexColumnVector ( const ColumnVector & a )

explicit

Definition at line 42 of file CColVector.cc.

Member Function Documentation

◆ abs()

ColumnVector ComplexColumnVector::abs ( void ) const

Definition at line 211 of file CColVector.cc.

◆ as_column()

Array< Complex , Alloc > Array< Complex , Alloc >::as_column ( void ) const

inlineinherited

Return the array as a column vector.

Definition at line 415 of file Array.h.

◆ as_matrix()

Array< Complex , Alloc > Array< Complex , Alloc >::as_matrix ( void ) const

inlineinherited

Return the array as a matrix.

Definition at line 435 of file Array.h.

◆ as_row()

Array< Complex , Alloc > Array< Complex , Alloc >::as_row ( void ) const

inlineinherited

Return the array as a row vector.

Definition at line 425 of file Array.h.

◆ assign() [1/6]

void Array< Complex , Alloc >::assign	(	const Array< octave::idx_vector > &	ia,
		const Array< Complex , Alloc > &	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 701 of file Array.h.

◆ assign() [2/6]

void Array< Complex , Alloc >::assign	(	const Array< octave::idx_vector > &	ia,
		const Array< Complex , Alloc > &	rhs,
		const Complex &	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 700 of file Array.cc.

◆ assign() [3/6]

void Array< Complex , Alloc >::assign	(	const octave::idx_vector &	i,
		const Array< Complex , Alloc > &	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 687 of file Array.h.

◆ assign() [4/6]

void Array< Complex , Alloc >::assign	(	const octave::idx_vector &	i,
		const Array< Complex , Alloc > &	rhs,
		const Complex &	rfv
	)

inherited

Indexed assignment (always with resize & fill).

Definition at line 686 of file Array.cc.

◆ assign() [5/6]

void Array< Complex , Alloc >::assign	(	const octave::idx_vector &	i,
		const octave::idx_vector &	j,
		const Array< Complex , Alloc > &	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 695 of file Array.h.

◆ assign() [6/6]

void Array< Complex , Alloc >::assign	(	const octave::idx_vector &	i,
		const octave::idx_vector &	j,
		const Array< Complex , Alloc > &	rhs,
		const Complex &	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 692 of file Array.cc.

◆ byte_size()

std::size_t Array< Complex , Alloc >::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 483 of file Array.h.

◆ cat()

Array< Complex , Alloc > Array< Complex , Alloc >::cat	(	int	dim,
		octave_idx_type	n,
		const Array< Complex , Alloc > *	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 788 of file Array.cc.

◆ changesign()

void MArray< Complex >::changesign ( void )

inherited

Definition at line 122 of file MArray.cc.

◆ checkelem() [1/8]

Complex & Array< Complex , Alloc >::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 532 of file Array.cc.

◆ checkelem() [2/8]

Array< Complex , Alloc >::crefT Array< Complex , Alloc >::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 562 of file Array.cc.

◆ checkelem() [3/8]

Complex & Array< Complex , Alloc >::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 528 of file Array.cc.

◆ checkelem() [4/8]

Array< Complex , Alloc >::crefT Array< Complex , Alloc >::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 557 of file Array.cc.

◆ checkelem() [5/8]

Complex & Array< Complex , Alloc >::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 530 of file Array.cc.

◆ checkelem() [6/8]

Array< Complex , Alloc >::crefT Array< Complex , Alloc >::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 559 of file Array.cc.

◆ checkelem() [7/8]

Complex & Array< Complex , Alloc >::checkelem ( octave_idx_type n )

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 526 of file Array.cc.

◆ checkelem() [8/8]

Array< Complex , Alloc >::crefT Array< Complex , Alloc >::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 555 of file Array.cc.

◆ clear() [1/4]

void Array< Complex , Alloc >::clear ( const dim_vector & dv )

inherited

Definition at line 405 of file Array.cc.

◆ clear() [2/4]

void ComplexColumnVector::clear ( octave_idx_type n )

inline

Definition at line 151 of file CColVector.h.

References Array< T, Alloc >::clear().

◆ clear() [3/4]

void Array< Complex , Alloc >::clear	(	octave_idx_type	r,
		octave_idx_type	c
	)

inlineinherited

Definition at line 407 of file Array.h.

◆ clear() [4/4]

void Array< Complex , Alloc >::clear ( void )

inherited

Definition at line 404 of file Array.cc.

◆ cols()

octave_idx_type Array< Complex , Alloc >::cols ( void ) const

inlineinherited

Definition at line 457 of file Array.h.

◆ column()

Array< Complex , Alloc > Array< Complex , Alloc >::column ( octave_idx_type k ) const

inherited

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

Definition at line 587 of file Array.cc.

◆ columns()

octave_idx_type Array< Complex , Alloc >::columns ( void ) const

inlineinherited

Definition at line 458 of file Array.h.

◆ compute_index() [1/3]

octave_idx_type Array< Complex , Alloc >::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 495 of file Array.cc.

◆ compute_index() [2/3]

octave_idx_type Array< Complex , Alloc >::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 492 of file Array.cc.

◆ compute_index() [3/3]

octave_idx_type Array< Complex , Alloc >::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 493 of file Array.cc.

◆ compute_index_unchecked()

octave_idx_type Array< Complex , Alloc >::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 497 of file Array.h.

◆ data()

const Complex * Array< Complex , Alloc >::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 616 of file Array.h.

◆ delete_elements() [1/3]

void Array< Complex , Alloc >::delete_elements ( const Array< octave::idx_vector > & ia )

inherited

Dispatcher to the above two.

Definition at line 717 of file Array.cc.

◆ delete_elements() [2/3]

void Array< Complex , Alloc >::delete_elements ( const octave::idx_vector & i )

inherited

Deleting elements.

A(I) = [] (with a single subscript)

Definition at line 711 of file Array.cc.

◆ delete_elements() [3/3]

void Array< Complex , Alloc >::delete_elements	(	int	dim,
		const octave::idx_vector &	i
	)

inherited

A(:,...,I,...,:) = [] (>= 2 subscripts, one of them is non-colon)

Definition at line 714 of file Array.cc.

◆ diag() [1/2]

Array< Complex , Alloc > Array< Complex , Alloc >::diag ( octave_idx_type k = 0 ) const

inherited

Get the kth super or subdiagonal.

The zeroth diagonal is the ordinary diagonal.

Definition at line 779 of file Array.cc.

◆ diag() [2/2]

Array< Complex , Alloc > Array< Complex , Alloc >::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 781 of file Array.cc.

◆ dim1()

octave_idx_type Array< Complex , Alloc >::dim1 ( void ) const

inlineinherited

Definition at line 448 of file Array.h.

◆ dim2()

octave_idx_type Array< Complex , Alloc >::dim2 ( void ) const

inlineinherited

Definition at line 456 of file Array.h.

◆ dim3()

octave_idx_type Array< Complex , Alloc >::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 465 of file Array.h.

◆ dims()

const dim_vector & Array< Complex , Alloc >::dims ( void ) const

inlineinherited

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

Definition at line 487 of file Array.h.

◆ elem() [1/8]

Complex & Array< Complex , Alloc >::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 545 of file Array.h.

◆ elem() [2/8]

crefT Array< Complex , Alloc >::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 572 of file Array.h.

◆ elem() [3/8]

Complex & Array< Complex , Alloc >::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 540 of file Array.h.

◆ elem() [4/8]

crefT Array< Complex , Alloc >::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 566 of file Array.h.

◆ elem() [5/8]

Complex & Array< Complex , Alloc >::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 542 of file Array.h.

◆ elem() [6/8]

crefT Array< Complex , Alloc >::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 569 of file Array.h.

◆ elem() [7/8]

Complex & Array< Complex , Alloc >::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 534 of file Array.h.

◆ elem() [8/8]

crefT Array< Complex , Alloc >::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 564 of file Array.h.

◆ extract()

ComplexColumnVector ComplexColumnVector::extract	(	octave_idx_type	r1,
		octave_idx_type	r2
	)		const

Definition at line 225 of file CColVector.cc.

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

◆ extract_n()

ComplexColumnVector ComplexColumnVector::extract_n	(	octave_idx_type	r1,
		octave_idx_type	n
	)		const

Definition at line 240 of file CColVector.cc.

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

◆ fill() [1/5]

void Array< Complex , Alloc >::fill ( const Complex & val )

inherited

Definition at line 402 of file Array.cc.

◆ fill() [2/5]

ComplexColumnVector & ComplexColumnVector::fill ( const Complex & val )

Definition at line 118 of file CColVector.cc.

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

◆ fill() [3/5]

ComplexColumnVector & ComplexColumnVector::fill	(	const Complex &	val,
		octave_idx_type	r1,
		octave_idx_type	r2
	)

Definition at line 155 of file CColVector.cc.

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

◆ fill() [4/5]

ComplexColumnVector & ComplexColumnVector::fill ( double val )

Definition at line 102 of file CColVector.cc.

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

◆ fill() [5/5]

ComplexColumnVector & ComplexColumnVector::fill	(	double	val,
		octave_idx_type	r1,
		octave_idx_type	r2
	)

Definition at line 134 of file CColVector.cc.

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

◆ find() [1/2]

Array< octave_idx_type > Array< Complex , Alloc >::find	(	octave_idx_type	n = `-1`,
		bool	backward = `false`
	)		const

inherited

Find indices of (at most n) nonzero elements.

If n is specified, backward specifies search from backward.

Definition at line 769 of file Array.cc.

◆ find() [2/2]

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

inherited

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

◆ fortran_vec()

Complex * Array< Complex , Alloc >::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 623 of file Array.cc.

◆ hermitian() [1/2]

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

inlineinherited

Definition at line 102 of file MArray.h.

◆ hermitian() [2/2]

ComplexRowVector ComplexColumnVector::hermitian ( void ) const

Definition at line 199 of file CColVector.cc.

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

◆ idx_add() [1/2]

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

inherited

Performs indexed accumulative addition.

Definition at line 107 of file MArray.cc.

◆ idx_add() [2/2]

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

inherited

Definition at line 109 of file MArray.cc.

◆ idx_add_nd()

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

inherited

Definition at line 119 of file MArray.cc.

◆ idx_max()

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

inherited

Definition at line 116 of file MArray.cc.

◆ idx_min()

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

inherited

Definition at line 113 of file MArray.cc.

◆ index() [1/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index ( const Array< octave::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 635 of file Array.cc.

◆ index() [2/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index	(	const Array< octave::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 678 of file Array.h.

◆ index() [3/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index	(	const Array< octave::idx_vector > &	ia,
		bool	resize_ok,
		const Complex &	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 676 of file Array.cc.

◆ index() [4/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index ( const octave::idx_vector & i ) const

inherited

Indexing without resizing.

Definition at line 631 of file Array.cc.

◆ index() [5/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index	(	const octave::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 662 of file Array.h.

◆ index() [6/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index	(	const octave::idx_vector &	i,
		bool	resize_ok,
		const Complex &	rfv
	)		const

inherited

Indexing with possible resizing and fill.

Definition at line 661 of file Array.cc.

◆ index() [7/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index	(	const octave::idx_vector &	i,
		const octave::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 633 of file Array.cc.

◆ index() [8/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index	(	const octave::idx_vector &	i,
		const octave::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 670 of file Array.h.

◆ index() [9/9]

Array< Complex , Alloc > Array< Complex , Alloc >::index	(	const octave::idx_vector &	i,
		const octave::idx_vector &	j,
		bool	resize_ok,
		const Complex &	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 667 of file Array.cc.

◆ insert() [1/4]

Array< Complex , Alloc > & Array< Complex , Alloc >::insert	(	const Array< Complex , Alloc > &	a,
		const Array< octave_idx_type > &	idx
	)

inherited

Insert an array into another at a specified position.

If size (a) is [d1 d2 ... dN] and idx is [i1 i2 ... iN], this method is equivalent to x(i1:i1+d1-1, i2:i2+d2-1, ... , iN:iN+dN-1) = a.

Definition at line 724 of file Array.cc.

◆ insert() [2/4]

Array< Complex , Alloc > & Array< Complex , Alloc >::insert	(	const Array< Complex , Alloc > &	a,
		octave_idx_type	r,
		octave_idx_type	c
	)

inherited

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

Definition at line 727 of file Array.cc.

◆ insert() [3/4]

ComplexColumnVector & ComplexColumnVector::insert	(	const ColumnVector &	a,
		octave_idx_type	r
	)

Definition at line 64 of file CColVector.cc.

References Array< T, Alloc >::elem(), Array< Complex >::make_unique(), Array< Complex >::numel(), Array< T, Alloc >::numel(), and Array< Complex >::xelem().

Referenced by stack().

◆ insert() [4/4]

ComplexColumnVector & ComplexColumnVector::insert	(	const ComplexColumnVector &	a,
		octave_idx_type	r
	)

Definition at line 83 of file CColVector.cc.

References Array< T, Alloc >::elem(), Array< Complex >::make_unique(), Array< Complex >::numel(), Array< T, Alloc >::numel(), and Array< Complex >::xelem().

◆ instantiation_guard() [1/9]

OCTAVE_API void MArray< int >::instantiation_guard ( )

privateinherited

Definition at line 37 of file MArray-i.cc.

◆ instantiation_guard() [2/9]

OCTAVE_API void MArray< octave_int8 >::instantiation_guard ( )

privateinherited

Definition at line 47 of file MArray-i.cc.

◆ instantiation_guard() [3/9]

OCTAVE_API void MArray< octave_int16 >::instantiation_guard ( )

privateinherited

Definition at line 48 of file MArray-i.cc.

◆ instantiation_guard() [4/9]

OCTAVE_API void MArray< octave_int32 >::instantiation_guard ( )

privateinherited

Definition at line 49 of file MArray-i.cc.

◆ instantiation_guard() [5/9]

OCTAVE_API void MArray< octave_int64 >::instantiation_guard ( )

privateinherited

Definition at line 50 of file MArray-i.cc.

◆ instantiation_guard() [6/9]

OCTAVE_API void MArray< octave_uint16 >::instantiation_guard ( )

privateinherited

Definition at line 58 of file MArray-i.cc.

◆ instantiation_guard() [7/9]

OCTAVE_API void MArray< octave_uint32 >::instantiation_guard ( )

privateinherited

Definition at line 59 of file MArray-i.cc.

◆ instantiation_guard() [8/9]

OCTAVE_API void MArray< short >::instantiation_guard ( )

privateinherited

Definition at line 35 of file MArray-s.cc.

◆ instantiation_guard() [9/9]

void MArray< Complex >::instantiation_guard

staticprivateinherited

Definition at line 125 of file MArray.cc.

◆ ipermute()

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

inlineinherited

Definition at line 94 of file MArray.h.

◆ is_nd_vector()

bool Array< Complex , Alloc >::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 611 of file Array.h.

◆ is_shared()

bool Array< Complex , Alloc >::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 625 of file Array.h.

◆ is_sorted_rows() [1/2]

sortmode Array< Complex , Alloc >::is_sorted_rows ( sortmode mode = UNSORTED ) const

inherited

Ordering is auto-detected or can be specified.

Definition at line 753 of file Array.cc.

◆ is_sorted_rows() [2/2]

OCTAVE_API sortmode Array< octave::idx_vector >::is_sorted_rows ( sortmode ) const

inherited

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

◆ isempty()

bool Array< Complex , Alloc >::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 607 of file Array.h.

◆ issorted() [1/2]

sortmode Array< Complex , Alloc >::issorted ( sortmode mode = UNSORTED ) const

inherited

Ordering is auto-detected or can be specified.

Definition at line 747 of file Array.cc.

◆ issorted() [2/2]

OCTAVE_API sortmode Array< octave::idx_vector >::issorted ( sortmode ) const

inherited

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

◆ issquare()

bool Array< Complex , Alloc >::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 605 of file Array.h.

◆ isvector()

bool Array< Complex , Alloc >::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 609 of file Array.h.

◆ linear_slice()

Array< Complex , Alloc > Array< Complex , Alloc >::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 593 of file Array.cc.

◆ lookup() [1/4]

Array< octave_idx_type > Array< Complex , Alloc >::lookup	(	const Array< Complex , Alloc > &	values,
		sortmode	mode = `UNSORTED`
	)		const

inherited

Ditto, but for an array of values, specializing on the case when values are sorted.

NaNs get the value N.

Definition at line 761 of file Array.cc.

◆ lookup() [2/4]

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

inherited

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

◆ lookup() [3/4]

octave_idx_type Array< Complex , Alloc >::lookup	(	const Complex &	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 757 of file Array.cc.

◆ lookup() [4/4]

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

inherited

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

◆ make_unique()

void Array< Complex , Alloc >::make_unique ( void )

inlineinherited

Definition at line 215 of file Array.h.

◆ map() [1/3]

Array< U, A > Array< Complex , Alloc >::map ( F fcn ) const

inlineinherited

Apply function fcn to each element of the Array<T, Alloc>.

This function is optimized with a manually unrolled loop.

Definition at line 799 of file Array.h.

◆ map() [2/3]

Array< U, A > Array< Complex , Alloc >::map ( U(&)(Complex ) fcn ) const

inlineinherited

Overloads for function references.

Definition at line 835 of file Array.h.

◆ map() [3/3]

Array< U, A > Array< Complex , Alloc >::map ( U(&)(const Complex &) 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 844 of file Array.h.

◆ max()

Complex ComplexColumnVector::max ( void ) const

Definition at line 443 of file CColVector.cc.

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

◆ maybe_economize()

void Array< Complex , Alloc >::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 729 of file Array.h.

◆ min()

Complex ComplexColumnVector::min ( void ) const

Definition at line 423 of file CColVector.cc.

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

◆ ndims()

int Array< Complex , Alloc >::ndims ( 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 627 of file Array.h.

◆ nil_rep()

Array< Complex , Alloc >::ArrayRep * Array< Complex , Alloc >::nil_rep ( void )

staticprivateinherited

Definition at line 269 of file Array.cc.

◆ nnz() [1/2]

OCTAVE_API octave_idx_type Array< octave::idx_vector >::nnz ( void ) const

inherited

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

◆ nnz() [2/2]

octave_idx_type Array< Complex , Alloc >::nnz ( void ) const

inherited

Count nonzero elements.

Definition at line 765 of file Array.cc.

◆ nth_element() [1/2]

OCTAVE_API Array< octave::idx_vector > Array< octave::idx_vector >::nth_element	(	const octave::idx_vector &	,
		int
	)		const

inherited

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

◆ nth_element() [2/2]

Array< Complex , Alloc > Array< Complex , Alloc >::nth_element	(	const octave::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 775 of file Array.cc.

◆ numel()

octave_idx_type Array< Complex , Alloc >::numel ( void ) const

inlineinherited

Number of elements in the array.

Definition at line 411 of file Array.h.

◆ operator!=()

bool ComplexColumnVector::operator!= ( const ComplexColumnVector & a ) const

Definition at line 56 of file CColVector.cc.

◆ operator()() [1/8]

Complex & Array< Complex , Alloc >::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 552 of file Array.h.

◆ operator()() [2/8]

crefT Array< Complex , Alloc >::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 581 of file Array.h.

◆ operator()() [3/8]

Complex & Array< Complex , Alloc >::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 549 of file Array.h.

◆ operator()() [4/8]

crefT Array< Complex , Alloc >::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 576 of file Array.h.

◆ operator()() [5/8]

Complex & Array< Complex , Alloc >::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 550 of file Array.h.

◆ operator()() [6/8]

crefT Array< Complex , Alloc >::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 578 of file Array.h.

◆ operator()() [7/8]

Complex & Array< Complex , Alloc >::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 548 of file Array.h.

◆ operator()() [8/8]

crefT Array< Complex , Alloc >::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 575 of file Array.h.

◆ operator+=()

ComplexColumnVector & ComplexColumnVector::operator+= ( const ColumnVector & a )

Definition at line 253 of file CColVector.cc.

References d, Array< T, Alloc >::data(), octave::err_nonconformant(), Array< Complex >::fortran_vec(), len, mx_inline_add2(), Array< T, Alloc >::numel(), and Array< Complex >::numel().

◆ operator-=()

ComplexColumnVector & ComplexColumnVector::operator-= ( const ColumnVector & a )

Definition at line 272 of file CColVector.cc.

References d, Array< T, Alloc >::data(), octave::err_nonconformant(), Array< Complex >::fortran_vec(), len, mx_inline_sub2(), Array< T, Alloc >::numel(), and Array< Complex >::numel().

◆ operator=()

ComplexColumnVector & ComplexColumnVector::operator= ( const ComplexColumnVector & a )

inline

Definition at line 64 of file CColVector.h.

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

◆ operator==()

bool ComplexColumnVector::operator== ( const ComplexColumnVector & a ) const

Definition at line 47 of file CColVector.cc.

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

◆ optimize_dimensions()

bool Array< Complex , Alloc >::optimize_dimensions ( const dim_vector & dv )

inherited

Returns true if this->dims () == dv, and if so, replaces this->m_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 886 of file Array.cc.

◆ page()

Array< Complex , Alloc > Array< Complex , Alloc >::page ( octave_idx_type k ) const

inherited

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

Definition at line 589 of file Array.cc.

◆ pages()

octave_idx_type Array< Complex , Alloc >::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 466 of file Array.h.

◆ permute()

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

inlineinherited

Definition at line 90 of file MArray.h.

◆ print_info()

void Array< Complex , Alloc >::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 740 of file Array.cc.

◆ reshape() [1/2]

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

inlineinherited

Definition at line 87 of file MArray.h.

◆ reshape() [2/2]

Array< Complex , Alloc > Array< Complex , Alloc >::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 595 of file Array.h.

◆ resize() [1/3]

void Array< Complex , Alloc >::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 652 of file Array.h.

◆ resize() [2/3]

void Array< Complex , Alloc >::resize	(	const dim_vector &	dv,
		const Complex &	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 651 of file Array.cc.

◆ resize() [3/3]

void ComplexColumnVector::resize	(	octave_idx_type	n,
		const Complex &	rfv = `Complex (0)`
	)

inline

Definition at line 146 of file CColVector.h.

References Array< T, Alloc >::resize().

Referenced by EigsComplexNonSymmetricFunc(), EigsComplexNonSymmetricMatrix(), EigsComplexNonSymmetricMatrixShift(), EigsRealNonSymmetricFunc(), EigsRealNonSymmetricMatrix(), EigsRealNonSymmetricMatrixShift(), EIG::init(), ComplexMatrix::lssolve(), ComplexMatrix::row_max(), and ComplexMatrix::row_min().

◆ resize1() [1/2]

void Array< Complex , Alloc >::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 649 of file Array.h.

◆ resize1() [2/2]

void Array< Complex , Alloc >::resize1	(	octave_idx_type	n,
		const Complex &	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 648 of file Array.cc.

◆ resize2() [1/2]

void Array< Complex , Alloc >::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 643 of file Array.h.

◆ resize2() [2/2]

void Array< Complex , Alloc >::resize2	(	octave_idx_type	nr,
		octave_idx_type	nc,
		const Complex &	rfv
	)

inherited

Resizing (with fill).

Definition at line 642 of file Array.cc.

◆ resize_fill_value()

Complex Array< Complex , Alloc >::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)'

Definition at line 638 of file Array.cc.

◆ rows()

octave_idx_type Array< Complex , Alloc >::rows ( void ) const

inlineinherited

Definition at line 449 of file Array.h.

◆ size()

size_type Array< Complex , Alloc >::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 476 of file Array.h.

◆ sort() [1/4]

Array< Complex , Alloc > Array< Complex , Alloc >::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 743 of file Array.cc.

◆ sort() [2/4]

OCTAVE_API Array< octave::idx_vector > Array< octave::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]

Array< Complex , Alloc > Array< Complex , Alloc >::sort	(	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 742 of file Array.cc.

◆ sort() [4/4]

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

inherited

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

◆ sort_rows_idx() [1/2]

Array< octave_idx_type > Array< Complex , Alloc >::sort_rows_idx ( sortmode mode = ASCENDING ) const

inherited

Sort by rows returns only indices.

Definition at line 750 of file Array.cc.

◆ sort_rows_idx() [2/2]

OCTAVE_API Array< octave_idx_type > Array< octave::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 97 of file MArray.h.

◆ stack() [1/2]

ComplexColumnVector ComplexColumnVector::stack ( const ColumnVector & a ) const

Definition at line 177 of file CColVector.cc.

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

◆ stack() [2/2]

ComplexColumnVector ComplexColumnVector::stack ( const ComplexColumnVector & a ) const

Definition at line 188 of file CColVector.cc.

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

◆ test()

bool Array< Complex , Alloc >::test ( F fcn ) const

inlineinherited

Generic any/all test functionality with arbitrary predicate.

Definition at line 850 of file Array.h.

◆ test_all() [1/3]

bool Array< Complex , Alloc >::test_all ( bool(&)(Complex ) 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 874 of file Array.h.

◆ test_all() [2/3]

bool Array< Complex , Alloc >::test_all ( bool(&)(const Complex &) 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 877 of file Array.h.

◆ test_all() [3/3]

bool Array< Complex , Alloc >::test_all ( F 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 862 of file Array.h.

◆ test_any() [1/3]

bool Array< Complex , Alloc >::test_any ( bool(&)(Complex ) fcn ) const

inlineinherited

Overloads for function references.

Definition at line 868 of file Array.h.

◆ test_any() [2/3]

bool Array< Complex , Alloc >::test_any ( bool(&)(const Complex &) 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 871 of file Array.h.

◆ test_any() [3/3]

bool Array< Complex , Alloc >::test_any ( F fcn ) const

inlineinherited

Simpler calls.

Definition at line 858 of file Array.h.

◆ transpose()

ComplexRowVector ComplexColumnVector::transpose ( void ) const

Definition at line 205 of file CColVector.cc.

References MArray< T >::transpose().

◆ xelem() [1/8]

Complex & Array< Complex , Alloc >::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 517 of file Array.h.

◆ xelem() [2/8]

crefT Array< Complex , Alloc >::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 520 of file Array.h.

◆ xelem() [3/8]

Complex & Array< Complex , Alloc >::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 507 of file Array.h.

◆ xelem() [4/8]

crefT Array< Complex , Alloc >::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 509 of file Array.h.

◆ xelem() [5/8]

Complex & Array< Complex , Alloc >::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 512 of file Array.h.

◆ xelem() [6/8]

crefT Array< Complex , Alloc >::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 514 of file Array.h.

◆ xelem() [7/8]

Complex & Array< Complex , Alloc >::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 504 of file Array.h.

◆ xelem() [8/8]

crefT Array< Complex , Alloc >::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 505 of file Array.h.

Friends And Related Function Documentation

◆ ComplexMatrix

friend class ComplexMatrix

friend

Definition at line 38 of file CColVector.h.

◆ ComplexRowVector

friend class ComplexRowVector

friend

Definition at line 39 of file CColVector.h.

◆ conj

OCTAVE_API ComplexColumnVector conj ( const ComplexColumnVector & a )

friend

Definition at line 217 of file CColVector.cc.

◆ operator* [1/6]

OCTAVE_API ComplexColumnVector operator*	(	const ComplexDiagMatrix &	a,
		const ColumnVector &	b
	)

friend

Definition at line 371 of file CColVector.cc.

◆ operator* [2/6]

OCTAVE_API ComplexColumnVector operator*	(	const ComplexDiagMatrix &	a,
		const ComplexColumnVector &	b
	)

friend

Definition at line 396 of file CColVector.cc.

◆ operator* [3/6]

OCTAVE_API ComplexColumnVector operator*	(	const ComplexMatrix &	a,
		const ColumnVector &	b
	)

friend

Definition at line 293 of file CColVector.cc.

◆ operator* [4/6]

OCTAVE_API ComplexColumnVector operator*	(	const ComplexMatrix &	a,
		const ComplexColumnVector &	b
	)

friend

Definition at line 300 of file CColVector.cc.

◆ operator* [5/6]

OCTAVE_API ComplexColumnVector operator*	(	const DiagMatrix &	a,
		const ComplexColumnVector &	b
	)

friend

Definition at line 346 of file CColVector.cc.

◆ operator* [6/6]

OCTAVE_API ComplexColumnVector operator*	(	const Matrix &	a,
		const ComplexColumnVector &	b
	)

friend

Definition at line 337 of file CColVector.cc.

◆ operator<<

OCTAVE_API std::ostream & operator<<	(	std::ostream &	os,
		const ComplexColumnVector &	a
	)

friend

Definition at line 464 of file CColVector.cc.

◆ operator>>

OCTAVE_API std::istream & operator>>	(	std::istream &	is,
		ComplexColumnVector &	a
	)

friend

Definition at line 474 of file CColVector.cc.

Member Data Documentation

◆ m_dimensions

dim_vector Array< Complex , Alloc >::m_dimensions

protectedinherited

Definition at line 244 of file Array.h.

◆ m_rep

Array<Complex ,Alloc>::ArrayRep* Array< Complex , Alloc >::m_rep

protectedinherited

Definition at line 246 of file Array.h.

◆ m_slice_data

Complex * Array< Complex , Alloc >::m_slice_data

protectedinherited

Definition at line 255 of file Array.h.

◆ m_slice_len

octave_idx_type Array< Complex , Alloc >::m_slice_len

protectedinherited

Definition at line 256 of file Array.h.

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

liboctave/array/CColVector.h
liboctave/array/CColVector.cc

Public Types

Public Member Functions

Protected Attributes

Private Member Functions

Static Private Member Functions

Friends

Third dimension

Detailed Description

Member Typedef Documentation

◆ compare_fcn_type

◆ crefT

◆ element_type

◆ size_type

◆ value_type

Constructor & Destructor Documentation

◆ ComplexColumnVector() [1/8]

◆ ComplexColumnVector() [2/8]

◆ ComplexColumnVector() [3/8]

◆ ComplexColumnVector() [4/8]

◆ ComplexColumnVector() [5/8]

◆ ComplexColumnVector() [6/8]

◆ ComplexColumnVector() [7/8]

◆ ComplexColumnVector() [8/8]

Member Function Documentation

◆ abs()

◆ as_column()

◆ as_matrix()

◆ as_row()

◆ assign() [1/6]

◆ assign() [2/6]

◆ assign() [3/6]

◆ assign() [4/6]

◆ assign() [5/6]

◆ assign() [6/6]

◆ byte_size()

◆ cat()

◆ changesign()

◆ checkelem() [1/8]

◆ checkelem() [2/8]

◆ checkelem() [3/8]

◆ checkelem() [4/8]

◆ checkelem() [5/8]

◆ checkelem() [6/8]

◆ checkelem() [7/8]

◆ checkelem() [8/8]

◆ clear() [1/4]

◆ clear() [2/4]

◆ clear() [3/4]

◆ clear() [4/4]

◆ cols()

◆ column()

◆ columns()

◆ compute_index() [1/3]

◆ compute_index() [2/3]

◆ compute_index() [3/3]

◆ compute_index_unchecked()

◆ data()

◆ delete_elements() [1/3]

◆ delete_elements() [2/3]

◆ delete_elements() [3/3]

◆ diag() [1/2]

◆ diag() [2/2]

◆ dim1()

◆ dim2()

◆ dim3()

◆ dims()

◆ elem() [1/8]

◆ elem() [2/8]

◆ elem() [3/8]

◆ elem() [4/8]

◆ elem() [5/8]

◆ elem() [6/8]

◆ elem() [7/8]

◆ elem() [8/8]

◆ extract()

◆ extract_n()

◆ fill() [1/5]

◆ fill() [2/5]

◆ fill() [3/5]

◆ fill() [4/5]