ComplexNDArray Class Reference

#include "CNDArray.h"

Inheritance diagram for ComplexNDArray:

Public Member Functions
	ComplexNDArray ()
template<typename U >
	ComplexNDArray (const Array< U > &a)
	ComplexNDArray (const charNDArray &)
	ComplexNDArray (const ComplexNDArray &a)
	ComplexNDArray (const dim_vector &dv)
	ComplexNDArray (const dim_vector &dv, const Complex &val)
template<typename U >
	ComplexNDArray (const MArray< U > &a)
	~ComplexNDArray ()=default
NDArray	abs () const
boolNDArray	all (int dim=-1) const
bool	all_elements_are_real () const
bool	all_integers (double &max_val, double &min_val) const
boolNDArray	any (int dim=-1) const
bool	any_element_is_inf_or_nan () const
bool	any_element_is_nan () const
ComplexNDArray &	changesign ()
ComplexNDArray	concat (const ComplexNDArray &rb, const Array< octave_idx_type > &ra_idx)
ComplexNDArray	concat (const NDArray &rb, const Array< octave_idx_type > &ra_idx)
ComplexNDArray	cummax (Array< octave_idx_type > &index, int dim=-1) const
ComplexNDArray	cummax (int dim=-1) const
ComplexNDArray	cummin (Array< octave_idx_type > &index, int dim=-1) const
ComplexNDArray	cummin (int dim=-1) const
ComplexNDArray	cumprod (int dim=-1) const
ComplexNDArray	cumsum (int dim=-1) const
ComplexNDArray	diag (octave_idx_type k=0) const
ComplexNDArray	diag (octave_idx_type m, octave_idx_type n) const
ComplexNDArray	diff (octave_idx_type order=1, int dim=-1) const
ComplexNDArray	fourier (int dim=1) const
ComplexNDArray	fourier2d () const
ComplexNDArray	fourierNd () const
ComplexNDArray	ifourier (int dim=1) const
ComplexNDArray	ifourier2d () const
ComplexNDArray	ifourierNd () const
ComplexNDArray &	insert (const ComplexNDArray &a, const Array< octave_idx_type > &ra_idx)
ComplexNDArray &	insert (const ComplexNDArray &a, octave_idx_type r, octave_idx_type c)
ComplexNDArray &	insert (const NDArray &a, octave_idx_type r, octave_idx_type c)
boolNDArray	isfinite () const
boolNDArray	isinf () const
boolNDArray	isnan () const
ComplexNDArray	max (Array< octave_idx_type > &index, int dim=-1) const
ComplexNDArray	max (int dim=-1) const
ComplexNDArray	min (Array< octave_idx_type > &index, int dim=-1) const
ComplexNDArray	min (int dim=-1) const
boolNDArray	operator! () const
ComplexNDArray &	operator= (const ComplexNDArray &a)
ComplexNDArray	prod (int dim=-1) const
ComplexNDArray	squeeze () const
ComplexNDArray	sum (int dim=-1) const
ComplexNDArray	sumsq (int dim=-1) const
bool	too_large_for_float () const
ComplexNDArray	xsum (int dim=-1) const
Public Member Functions inherited from MArray< Complex >
	MArray ()
	MArray (const Array< U > &a)
	MArray (const dim_vector &dv)
	MArray (const dim_vector &dv, const Complex &val)
	MArray (const MArray< Complex > &a)
	~MArray ()=default
void	changesign ()
MArray< Complex >	hermitian (Complex(*fcn)(const Complex &)=nullptr) const
void	idx_add (const octave::idx_vector &idx, Complex val)
	Performs indexed accumulative addition.
void	idx_add (const octave::idx_vector &idx, const MArray< Complex > &vals)
void	idx_add_nd (const octave::idx_vector &idx, const MArray< Complex > &vals, int dim=-1)
void	idx_max (const octave::idx_vector &idx, const MArray< Complex > &vals)
void	idx_min (const octave::idx_vector &idx, const MArray< Complex > &vals)
MArray< Complex >	ipermute (const Array< octave_idx_type > &vec) const
MArray< Complex > &	operator= (const MArray< Complex > &a)
MArray< Complex >	permute (const Array< octave_idx_type > &vec, bool inv=false) const
MArray< Complex >	reshape (const dim_vector &new_dims) const
MArray	squeeze () const
MArray< Complex >	transpose () const
Public Member Functions inherited from Array< T, Alloc >
	Array ()
	Empty ctor (0 by 0).
	Array (Array< T, Alloc > &&a)
	Array (const Array< T, Alloc > &a)
	No type conversion case.
	Array (const Array< T, Alloc > &a, const dim_vector &dv)
	Reshape constructor.
template<typename U , typename A = Alloc>
	Array (const Array< U, A > &a)
	Type conversion case.
template<template< typename... > class Container>
	Array (const Container< T > &a, const dim_vector &dv)
	Constructor from standard library sequence containers.
	Array (const dim_vector &dv)
	nD uninitialized ctor.
	Array (const dim_vector &dv, const T &val)
	nD initialized ctor.
	Array (T *ptr, const dim_vector &dv, const Alloc &xallocator=Alloc())
virtual	~Array ()
Array< T, Alloc >	as_column () const
	Return the array as a column vector.
Array< T, Alloc >	as_matrix () const
	Return the array as a matrix.
Array< T, Alloc >	as_row () const
	Return the array as a row vector.
void	clear ()
void	clear (const dim_vector &dv)
void	clear (octave_idx_type r, octave_idx_type c)
void	fill (const T &val)
Array< octave_idx_type >	find (octave_idx_type, bool) const
Array< octave_idx_type >	find (octave_idx_type, bool) const
sortmode	is_sorted_rows (sortmode) const
sortmode	is_sorted_rows (sortmode) const
sortmode	issorted (sortmode) const
sortmode	issorted (sortmode) const
Array< octave_idx_type >	lookup (const Array< octave::cdef_object > &, sortmode) const
Array< octave_idx_type >	lookup (const Array< octave::idx_vector > &, sortmode) const
octave_idx_type	lookup (octave::cdef_object const &, sortmode) const
octave_idx_type	lookup (octave::idx_vector const &, sortmode) const
void	make_unique ()
octave_idx_type	nnz () const
octave_idx_type	nnz () const
Array< octave::cdef_object >	nth_element (const octave::idx_vector &, int) const
Array< octave::idx_vector >	nth_element (const octave::idx_vector &, int) const
octave_idx_type	numel () const
	Number of elements in the array.
Array< T, Alloc > &	operator= (Array< T, Alloc > &&a)
Array< T, Alloc > &	operator= (const Array< T, Alloc > &a)
Array< octave::cdef_object >	sort (Array< octave_idx_type > &sidx, int, sortmode) const
Array< octave::idx_vector >	sort (Array< octave_idx_type > &sidx, int, sortmode) const
Array< octave::cdef_object >	sort (int, sortmode) const
Array< octave::idx_vector >	sort (int, sortmode) const
Array< octave_idx_type >	sort_rows_idx (sortmode) const
Array< octave_idx_type >	sort_rows_idx (sortmode) const
octave_idx_type	dim1 () const
octave_idx_type	rows () const
octave_idx_type	dim2 () const
octave_idx_type	cols () const
octave_idx_type	columns () const
octave_idx_type	dim3 () const
	Size of the specified dimension.
octave_idx_type	pages () const
	Size of the specified dimension.
size_type	size (const size_type d) const
	Size of the specified dimension.
std::size_t	byte_size () const
	Size of the specified dimension.
const dim_vector &	dims () const
	Return a const-reference so that dims ()(i) works efficiently.
Array< T, Alloc >	squeeze () const
	Chop off leading singleton dimensions.
octave_idx_type	compute_index (octave_idx_type i, octave_idx_type j) const
	Size of the specified dimension.
octave_idx_type	compute_index (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
	Size of the specified dimension.
octave_idx_type	compute_index (const Array< octave_idx_type > &ra_idx) const
	Size of the specified dimension.
octave_idx_type	compute_index_unchecked (const Array< octave_idx_type > &ra_idx) const
	Size of the specified dimension.
T &	xelem (octave_idx_type n)
	Size of the specified dimension.
crefT	xelem (octave_idx_type n) const
	Size of the specified dimension.
T &	xelem (octave_idx_type i, octave_idx_type j)
	Size of the specified dimension.
crefT	xelem (octave_idx_type i, octave_idx_type j) const
	Size of the specified dimension.
T &	xelem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
	Size of the specified dimension.
crefT	xelem (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
	Size of the specified dimension.
T &	xelem (const Array< octave_idx_type > &ra_idx)
	Size of the specified dimension.
crefT	xelem (const Array< octave_idx_type > &ra_idx) const
	Size of the specified dimension.
T &	checkelem (octave_idx_type n)
	Size of the specified dimension.
T &	checkelem (octave_idx_type i, octave_idx_type j)
	Size of the specified dimension.
T &	checkelem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
	Size of the specified dimension.
T &	checkelem (const Array< octave_idx_type > &ra_idx)
	Size of the specified dimension.
T &	elem (octave_idx_type n)
	Size of the specified dimension.
T &	elem (octave_idx_type i, octave_idx_type j)
	Size of the specified dimension.
T &	elem (octave_idx_type i, octave_idx_type j, octave_idx_type k)
	Size of the specified dimension.
T &	elem (const Array< octave_idx_type > &ra_idx)
	Size of the specified dimension.
T &	operator() (octave_idx_type n)
	Size of the specified dimension.
T &	operator() (octave_idx_type i, octave_idx_type j)
	Size of the specified dimension.
T &	operator() (octave_idx_type i, octave_idx_type j, octave_idx_type k)
	Size of the specified dimension.
T &	operator() (const Array< octave_idx_type > &ra_idx)
	Size of the specified dimension.
crefT	checkelem (octave_idx_type n) const
	Size of the specified dimension.
crefT	checkelem (octave_idx_type i, octave_idx_type j) const
	Size of the specified dimension.
crefT	checkelem (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
	Size of the specified dimension.
crefT	checkelem (const Array< octave_idx_type > &ra_idx) const
	Size of the specified dimension.
crefT	elem (octave_idx_type n) const
	Size of the specified dimension.
crefT	elem (octave_idx_type i, octave_idx_type j) const
	Size of the specified dimension.
crefT	elem (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
	Size of the specified dimension.
crefT	elem (const Array< octave_idx_type > &ra_idx) const
	Size of the specified dimension.
crefT	operator() (octave_idx_type n) const
	Size of the specified dimension.
crefT	operator() (octave_idx_type i, octave_idx_type j) const
	Size of the specified dimension.
crefT	operator() (octave_idx_type i, octave_idx_type j, octave_idx_type k) const
	Size of the specified dimension.
crefT	operator() (const Array< octave_idx_type > &ra_idx) const
	Size of the specified dimension.
Array< T, Alloc >	column (octave_idx_type k) const
	Extract column: A(:,k+1).
Array< T, Alloc >	page (octave_idx_type k) const
	Extract page: A(:,:,k+1).
Array< T, 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).
Array< T, Alloc >	reshape (octave_idx_type nr, octave_idx_type nc) const
	Size of the specified dimension.
Array< T, Alloc >	reshape (const dim_vector &new_dims) const
	Size of the specified dimension.
Array< T, Alloc >	permute (const Array< octave_idx_type > &vec, bool inv=false) const
	Size of the specified dimension.
Array< T, Alloc >	ipermute (const Array< octave_idx_type > &vec) const
	Size of the specified dimension.
bool	issquare () const
	Size of the specified dimension.
bool	isempty () const
	Size of the specified dimension.
bool	isvector () const
	Size of the specified dimension.
bool	is_nd_vector () const
	Size of the specified dimension.
Array< T, Alloc >	transpose () const
	Size of the specified dimension.
Array< T, Alloc >	hermitian (T(*fcn)(const T &)=nullptr) const
	Size of the specified dimension.
const T *	data () const
	Size of the specified dimension.
T *	rwdata ()
	Size of the specified dimension.
T *	fortran_vec ()
	Size of the specified dimension.
bool	is_shared () const
	Size of the specified dimension.
int	ndims () const
	Size of the specified dimension.
Array< T, Alloc >	index (const octave::idx_vector &i) const
	Indexing without resizing.
Array< T, Alloc >	index (const octave::idx_vector &i, const octave::idx_vector &j) const
	Size of the specified dimension.
Array< T, Alloc >	index (const Array< octave::idx_vector > &ia) const
	Size of the specified dimension.
virtual T	resize_fill_value () const
	Size of the specified dimension.
void	resize2 (octave_idx_type nr, octave_idx_type nc, const T &rfv)
	Resizing (with fill).
void	resize2 (octave_idx_type nr, octave_idx_type nc)
	Size of the specified dimension.
void	resize1 (octave_idx_type n, const T &rfv)
	Size of the specified dimension.
void	resize1 (octave_idx_type n)
	Size of the specified dimension.
void	resize (const dim_vector &dv, const T &rfv)
	Size of the specified dimension.
void	resize (const dim_vector &dv)
	Size of the specified dimension.
Array< T, Alloc >	index (const octave::idx_vector &i, bool resize_ok, const T &rfv) const
	Indexing with possible resizing and fill.
Array< T, Alloc >	index (const octave::idx_vector &i, bool resize_ok) const
	Size of the specified dimension.
Array< T, Alloc >	index (const octave::idx_vector &i, const octave::idx_vector &j, bool resize_ok, const T &rfv) const
	Size of the specified dimension.
Array< T, Alloc >	index (const octave::idx_vector &i, const octave::idx_vector &j, bool resize_ok) const
	Size of the specified dimension.
Array< T, Alloc >	index (const Array< octave::idx_vector > &ia, bool resize_ok, const T &rfv) const
	Size of the specified dimension.
Array< T, Alloc >	index (const Array< octave::idx_vector > &ia, bool resize_ok) const
	Size of the specified dimension.
void	assign (const octave::idx_vector &i, const Array< T, Alloc > &rhs, const T &rfv)
	Indexed assignment (always with resize & fill).
void	assign (const octave::idx_vector &i, const Array< T, Alloc > &rhs)
	Size of the specified dimension.
void	assign (const octave::idx_vector &i, const octave::idx_vector &j, const Array< T, Alloc > &rhs, const T &rfv)
	Size of the specified dimension.
void	assign (const octave::idx_vector &i, const octave::idx_vector &j, const Array< T, Alloc > &rhs)
	Size of the specified dimension.
void	assign (const Array< octave::idx_vector > &ia, const Array< T, Alloc > &rhs, const T &rfv)
	Size of the specified dimension.
void	assign (const Array< octave::idx_vector > &ia, const Array< T, Alloc > &rhs)
	Size of the specified dimension.
void	delete_elements (const octave::idx_vector &i)
	Deleting elements.
void	delete_elements (int dim, const octave::idx_vector &i)
	A(:,...,I,...,:) = [] (>= 2 subscripts, one of them is non-colon)
void	delete_elements (const Array< octave::idx_vector > &ia)
	Dispatcher to the above two.
Array< T, Alloc > &	insert (const Array< T, Alloc > &a, const Array< octave_idx_type > &idx)
	Insert an array into another at a specified position.
Array< T, Alloc > &	insert (const Array< T, Alloc > &a, octave_idx_type r, octave_idx_type c)
	This is just a special case for idx = [r c 0 ...].
void	maybe_economize ()
	Size of the specified dimension.
void	print_info (std::ostream &os, const std::string &prefix) const
	Size of the specified dimension.
Array< T, Alloc >	sort (int dim=0, sortmode mode=ASCENDING) const
	Size of the specified dimension.
Array< T, Alloc >	sort (Array< octave_idx_type > &sidx, int dim=0, sortmode mode=ASCENDING) const
	Size of the specified dimension.
sortmode	issorted (sortmode mode=UNSORTED) const
	Ordering is auto-detected or can be specified.
Array< octave_idx_type >	sort_rows_idx (sortmode mode=ASCENDING) const
	Sort by rows returns only indices.
sortmode	is_sorted_rows (sortmode mode=UNSORTED) const
	Ordering is auto-detected or can be specified.
octave_idx_type	lookup (const T &value, sortmode mode=UNSORTED) const
	Do a binary lookup in a sorted array.
Array< octave_idx_type >	lookup (const Array< T, Alloc > &values, sortmode mode=UNSORTED) const
	Ditto, but for an array of values, specializing on the case when values are sorted.
octave_idx_type	nnz () const
	Count nonzero elements.
Array< octave_idx_type >	find (octave_idx_type n=-1, bool backward=false) const
	Find indices of (at most n) nonzero elements.
Array< T, 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.
Array< T, Alloc >	diag (octave_idx_type k=0) const
	Get the kth super or subdiagonal.
Array< T, Alloc >	diag (octave_idx_type m, octave_idx_type n) const
	Size of the specified dimension.
template<typename U , typename F , typename A = std::allocator<U>>
Array< U, A >	map (F fcn) const
	Apply function fcn to each element of the Array<T, Alloc>.
template<typename U , typename A = std::allocator<U>>
Array< U, A >	map (U(&fcn)(T)) const
	Overloads for function references.
template<typename U , typename A = std::allocator<U>>
Array< U, A >	map (U(&fcn)(const T &)) const
	Size of the specified dimension.
template<typename F , bool zero>
bool	test (F fcn) const
	Generic any/all test functionality with arbitrary predicate.
template<typename F >
bool	test_any (F fcn) const
	Simpler calls.
template<typename F >
bool	test_all (F fcn) const
	Size of the specified dimension.
bool	test_any (bool(&fcn)(T)) const
	Overloads for function references.
bool	test_any (bool(&fcn)(const T &)) const
	Size of the specified dimension.
bool	test_all (bool(&fcn)(T)) const
	Size of the specified dimension.
bool	test_all (bool(&fcn)(const T &)) const
	Size of the specified dimension.
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.

Static Public Member Functions
static octave_idx_type	compute_index (Array< octave_idx_type > &ra_idx, const dim_vector &dimensions)
static void	increment_index (Array< octave_idx_type > &ra_idx, const dim_vector &dimensions, int start_dimension=0)
Static Public Member Functions inherited from Array< T, Alloc >
static Array< T, Alloc >	cat (int dim, octave_idx_type n, const Array< T, Alloc > *array_list)
	Concatenation along a specified (0-based) dimension, equivalent to cat().

Friends
ComplexNDArray	conj (const ComplexNDArray &a)
std::ostream &	operator<< (std::ostream &os, const ComplexNDArray &a)
std::istream &	operator>> (std::istream &is, ComplexNDArray &a)

Additional Inherited Members
Public Types inherited from Array< T, Alloc >
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)
typedef T	value_type
Protected Member Functions inherited from Array< T, Alloc >
	Array (const Array< T, Alloc > &a, const dim_vector &dv, octave_idx_type l, octave_idx_type u)
	slice constructor
Protected Attributes inherited from Array< T, Alloc >
dim_vector	m_dimensions
Array< T, Alloc >::ArrayRep *	m_rep
T *	m_slice_data
octave_idx_type	m_slice_len

Detailed Description

Definition at line 36 of file CNDArray.h.

Constructor & Destructor Documentation

ComplexNDArray() [1/7]

ComplexNDArray::ComplexNDArray ( )

inline

Definition at line 40 of file CNDArray.h.

Referenced by fourier(), fourier2d(), ifourier(), and ifourier2d().

ComplexNDArray() [2/7]

ComplexNDArray::ComplexNDArray ( const dim_vector &  dv )

inline

Definition at line 42 of file CNDArray.h.

ComplexNDArray() [3/7]

ComplexNDArray::ComplexNDArray ( const dim_vector &  dv, const Complex &  val  )

inline

Definition at line 44 of file CNDArray.h.

ComplexNDArray() [4/7]

ComplexNDArray::ComplexNDArray ( const ComplexNDArray &  a )

inline

Definition at line 47 of file CNDArray.h.

ComplexNDArray() [5/7]

template<typename U >

ComplexNDArray::ComplexNDArray ( const MArray< U > &  a )

inline

Definition at line 50 of file CNDArray.h.

ComplexNDArray() [6/7]

template<typename U >

ComplexNDArray::ComplexNDArray ( const Array< U > &  a )

inline

Definition at line 53 of file CNDArray.h.

ComplexNDArray() [7/7]

ComplexNDArray::ComplexNDArray

(

const charNDArray &

a

)

Definition at line 47 of file CNDArray.cc.

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

~ComplexNDArray()

ComplexNDArray::~ComplexNDArray ( )

default

References abs().

Member Function Documentation

abs()

NDArray ComplexNDArray::abs

(

)

const

Definition at line 478 of file CNDArray.cc.

Referenced by ComplexMatrix::abs().

all()

boolNDArray ComplexNDArray::all

(

int

dim = -1

)

const

Definition at line 346 of file CNDArray.cc.

References mx_inline_all().

Referenced by ComplexMatrix::all().

all_elements_are_real()

bool ComplexNDArray::all_elements_are_real

(

)

const

Definition at line 279 of file CNDArray.cc.

References mx_inline_all_real().

Referenced by octave_complex_matrix::bool_array_value(), and octave_complex_matrix::try_narrowing_conversion().

all_integers()

bool ComplexNDArray::all_integers	(	double &	max_val,
		double &	min_val
	)		const

Definition at line 289 of file CNDArray.cc.

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

Referenced by octave_complex_diag_matrix::save_binary(), octave_complex_matrix::save_binary(), and octave_complex_matrix::save_hdf5().

any()

boolNDArray ComplexNDArray::any

(

int

dim = -1

)

const

Definition at line 352 of file CNDArray.cc.

References mx_inline_any().

Referenced by ComplexMatrix::any().

any_element_is_inf_or_nan()

bool ComplexNDArray::any_element_is_inf_or_nan

(

)

const

Definition at line 271 of file CNDArray.cc.

References mx_inline_all_finite().

Referenced by Fgsvd(), and Fsvd().

any_element_is_nan()

bool ComplexNDArray::any_element_is_nan

(

)

const

Definition at line 265 of file CNDArray.cc.

References mx_inline_any_nan().

Referenced by octave_complex_matrix::bool_array_value(), and operator!().

changesign()

ComplexNDArray & ComplexNDArray::changesign ( )

inline

Definition at line 156 of file CNDArray.h.

References MArray< T >::changesign().

compute_index()

octave_idx_type ComplexNDArray::compute_index ( Array< octave_idx_type > &  ra_idx, const dim_vector &  dimensions  )

static

Definition at line 578 of file CNDArray.cc.

References ra_idx.

concat() [1/2]

ComplexNDArray ComplexNDArray::concat	(	const ComplexNDArray &	rb,
		const Array< octave_idx_type > &	ra_idx
	)

Definition at line 400 of file CNDArray.cc.

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

concat() [2/2]

ComplexNDArray ComplexNDArray::concat	(	const NDArray &	rb,
		const Array< octave_idx_type > &	ra_idx
	)

Definition at line 409 of file CNDArray.cc.

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

cummax() [1/2]

ComplexNDArray ComplexNDArray::cummax	(	Array< octave_idx_type > &	index,
		int	dim = -1
	)		const

Definition at line 460 of file CNDArray.cc.

References mx_inline_cummax().

cummax() [2/2]

ComplexNDArray ComplexNDArray::cummax

(

int

dim = -1

)

const

Definition at line 454 of file CNDArray.cc.

References mx_inline_cummax().

cummin() [1/2]

ComplexNDArray ComplexNDArray::cummin	(	Array< octave_idx_type > &	index,
		int	dim = -1
	)		const

Definition at line 472 of file CNDArray.cc.

References mx_inline_cummin().

cummin() [2/2]

ComplexNDArray ComplexNDArray::cummin

(

int

dim = -1

)

const

Definition at line 466 of file CNDArray.cc.

References mx_inline_cummin().

cumprod()

ComplexNDArray ComplexNDArray::cumprod

(

int

dim = -1

)

const

Definition at line 358 of file CNDArray.cc.

References mx_inline_cumprod().

Referenced by ComplexMatrix::cumprod().

cumsum()

ComplexNDArray ComplexNDArray::cumsum

(

int

dim = -1

)

const

Definition at line 364 of file CNDArray.cc.

References mx_inline_cumsum().

Referenced by ComplexMatrix::cumsum(), and Fcumsum().

diag() [1/2]

ComplexNDArray ComplexNDArray::diag

(

octave_idx_type

k = 0

)

const

Definition at line 585 of file CNDArray.cc.

References Array< T >::diag().

Referenced by ComplexMatrix::diag().

diag() [2/2]

ComplexNDArray ComplexNDArray::diag	(	octave_idx_type	m,
		octave_idx_type	n
	)		const

Definition at line 591 of file CNDArray.cc.

References Array< T >::diag().

diff()

ComplexNDArray ComplexNDArray::diff	(	octave_idx_type	order = 1,
		int	dim = -1
	)		const

Definition at line 394 of file CNDArray.cc.

References mx_inline_diff().

fourier()

ComplexNDArray ComplexNDArray::fourier

(

int

dim = 1

)

const

Definition at line 58 of file CNDArray.cc.

References ComplexNDArray(), Array< T, Alloc >::data(), Array< T, Alloc >::dims(), dim_vector::ndims(), Array< T, Alloc >::numel(), and Array< T, Alloc >::rwdata().

fourier2d()

ComplexNDArray ComplexNDArray::fourier2d

(

)

const

Definition at line 120 of file CNDArray.cc.

References ComplexNDArray(), Array< T, Alloc >::data(), Array< T, Alloc >::dims(), dim_vector::ndims(), Array< T, Alloc >::numel(), and Array< T, Alloc >::rwdata().

fourierNd()

ComplexNDArray ComplexNDArray::fourierNd

(

)

const

Definition at line 160 of file CNDArray.cc.

References Array< T, Alloc >::data(), Array< T, Alloc >::dims(), dim_vector::ndims(), and Array< T, Alloc >::rwdata().

ifourier()

ComplexNDArray ComplexNDArray::ifourier

(

int

dim = 1

)

const

Definition at line 89 of file CNDArray.cc.

References ComplexNDArray(), Array< T, Alloc >::data(), Array< T, Alloc >::dims(), dim_vector::ndims(), Array< T, Alloc >::numel(), and Array< T, Alloc >::rwdata().

ifourier2d()

ComplexNDArray ComplexNDArray::ifourier2d

(

)

const

Definition at line 140 of file CNDArray.cc.

References ComplexNDArray(), Array< T, Alloc >::data(), Array< T, Alloc >::dims(), dim_vector::ndims(), Array< T, Alloc >::numel(), and Array< T, Alloc >::rwdata().

ifourierNd()

ComplexNDArray ComplexNDArray::ifourierNd

(

)

const

Definition at line 175 of file CNDArray.cc.

References Array< T, Alloc >::data(), Array< T, Alloc >::dims(), dim_vector::ndims(), and Array< T, Alloc >::rwdata().

increment_index()

void ComplexNDArray::increment_index ( Array< octave_idx_type > &  ra_idx, const dim_vector &  dimensions, int  start_dimension = 0  )

static

Definition at line 570 of file CNDArray.cc.

References increment_index(), and ra_idx.

Referenced by increment_index(), and insert().

insert() [1/3]

ComplexNDArray & ComplexNDArray::insert	(	const ComplexNDArray &	a,
		const Array< octave_idx_type > &	ra_idx
	)

Definition at line 562 of file CNDArray.cc.

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

insert() [2/3]

ComplexNDArray & ComplexNDArray::insert	(	const ComplexNDArray &	a,
		octave_idx_type	r,
		octave_idx_type	c
	)

Definition at line 554 of file CNDArray.cc.

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

insert() [3/3]

ComplexNDArray & ComplexNDArray::insert	(	const NDArray &	a,
		octave_idx_type	r,
		octave_idx_type	c
	)

Definition at line 508 of file CNDArray.cc.

References Array< T, Alloc >::dims(), Array< T, Alloc >::elem(), increment_index(), dim_vector::ndims(), Array< T, Alloc >::numel(), and ra_idx.

Referenced by concat(), NDArray::concat(), concat(), concat(), and ComplexMatrix::insert().

isfinite()

boolNDArray ComplexNDArray::isfinite

(

)

const

Definition at line 496 of file CNDArray.cc.

isinf()

boolNDArray ComplexNDArray::isinf

(

)

const

Definition at line 490 of file CNDArray.cc.

isnan()

boolNDArray ComplexNDArray::isnan

(

)

const

Definition at line 484 of file CNDArray.cc.

max() [1/2]

ComplexNDArray ComplexNDArray::max	(	Array< octave_idx_type > &	index,
		int	dim = -1
	)		const

Definition at line 436 of file CNDArray.cc.

References mx_inline_max().

max() [2/2]

ComplexNDArray ComplexNDArray::max

(

int

dim = -1

)

const

Definition at line 430 of file CNDArray.cc.

References mx_inline_max().

min() [1/2]

ComplexNDArray ComplexNDArray::min	(	Array< octave_idx_type > &	index,
		int	dim = -1
	)		const

Definition at line 448 of file CNDArray.cc.

References mx_inline_min().

min() [2/2]

ComplexNDArray ComplexNDArray::min

(

int

dim = -1

)

const

Definition at line 442 of file CNDArray.cc.

References mx_inline_min().

operator!()

boolNDArray ComplexNDArray::operator!

(

)

const

Definition at line 254 of file CNDArray.cc.

References any_element_is_nan(), and mx_inline_not().

operator=()

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

inline

Definition at line 57 of file CNDArray.h.

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

prod()

ComplexNDArray ComplexNDArray::prod

(

int

dim = -1

)

const

Definition at line 370 of file CNDArray.cc.

References mx_inline_prod().

Referenced by Fprod(), and ComplexMatrix::prod().

squeeze()

ComplexNDArray ComplexNDArray::squeeze ( ) const

inline

Definition at line 131 of file CNDArray.h.

References MArray< T >::squeeze().

sum()

ComplexNDArray ComplexNDArray::sum

(

int

dim = -1

)

const

Definition at line 376 of file CNDArray.cc.

References mx_inline_sum().

Referenced by Fsum(), and ComplexMatrix::sum().

sumsq()

ComplexNDArray ComplexNDArray::sumsq

(

int

dim = -1

)

const

Definition at line 388 of file CNDArray.cc.

References mx_inline_sumsq().

Referenced by ComplexMatrix::sumsq().

too_large_for_float()

bool ComplexNDArray::too_large_for_float

(

)

const

Definition at line 340 of file CNDArray.cc.

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

Referenced by octave_complex_diag_matrix::save_binary(), octave_complex_matrix::save_binary(), and octave_complex_matrix::save_hdf5().

xsum()

ComplexNDArray ComplexNDArray::xsum

(

int

dim = -1

)

const

Definition at line 382 of file CNDArray.cc.

References mx_inline_xsum().

Referenced by Fsum().

Friends And Related Symbol Documentation

conj

ComplexNDArray conj ( const ComplexNDArray &  a )

friend

Definition at line 502 of file CNDArray.cc.

operator<<

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

friend

Definition at line 597 of file CNDArray.cc.

operator>>

std::istream & operator>> ( std::istream &  is, ComplexNDArray &  a  )

friend

Definition at line 612 of file CNDArray.cc.

---

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

• liboctave/array/CNDArray.h
• liboctave/array/CNDArray.cc