xbroadcast — xtensor documentation (original) (raw)

xtensor

Defined in xtensor/views/xbroadcast.hpp

template<class CT, class X>
class xbroadcast : public xt::xsharable_expression<xbroadcast<CT, X>>, public xt::xconst_iterable<xbroadcast<CT, X>>, public xt::xconst_accessible<xbroadcast<CT, X>>, public extension::xbroadcast_base_t<CT, X>

Broadcasted xexpression to a specified shape.

The xbroadcast class implements the broadcasting of an xexpression to a specified shape. xbroadcast is not meant to be used directly, but only with the broadcast helper functions.

Template Parameters:

Constructor

template<class CTA, class S>
inline xbroadcast(CTA &&e, const S &s)

Constructs an xbroadcast expression broadcasting the specified xexpression to the given shape.

Parameters:

template<class CTA>
inline xbroadcast(CTA &&e, shape_type &&s)

Constructs an xbroadcast expression broadcasting the specified xexpression to the given shape.

Parameters:

Size and shape

inline const inner_shape_type &shape() const noexcept

Returns the shape of the expression.

inline layout_type layout() const noexcept

Returns the layout_type of the expression.

Data

inline const xexpression_type &expression() const noexcept

Returns a constant reference to the underlying expression of the broadcast expression.

template<class ...Args>
inline auto operator()(Args... args) const -> const_reference

Returns a constant reference to the element at the specified position in the expression.

Parameters:

args – a list of indices specifying the position in the function. Indices must be unsigned integers, the number of indices should be equal or greater than the number of dimensions of the expression.

template<class ...Args>
inline auto unchecked(Args... args) const -> const_reference

Returns a constant reference to the element at the specified position in the expression.

Warning

This method is meant for performance, for expressions with a dynamic number of dimensions (i.e. not known at compile time). Since it may have undefined behavior (see parameters), operator() should be preferred whenever it is possible.

Warning

This method is NOT compatible with broadcasting, meaning the following code has undefined behavior:

xt::xarray a = {{0, 1}, {2, 3}}; xt::xarray b = {0, 1}; auto fd = a + b; double res = fd.uncheked(0, 1);

Parameters:

args – a list of indices specifying the position in the expression. Indices must be unsigned integers, the number of indices must be equal to the number of dimensions of the expression, else the behavior is undefined.

template<class It>
inline auto element(It, It last) const -> const_reference

Returns a constant reference to the element at the specified position in the expression.

Parameters:

Broadcasting

template<class S>
inline bool broadcast_shape(S &shape, bool reuse_cache = false) const

Broadcast the shape of the function to the specified parameter.

Parameters:

Returns:

a boolean indicating whether the broadcasting is trivial

template<class S>
inline bool has_linear_assign(const S &strides) const noexcept

Checks whether the xbroadcast can be linearly assigned to an expression with the specified strides.

Returns:

a boolean indicating whether a linear assign is possible

Public Functions

inline size_type size() const noexcept(noexcept(derived_cast().shape()))

Returns the size of the expression.

inline size_type shape(size_type index) const

Returns the i-th dimension of the expression.

template<class E, class S>
inline auto xt::broadcast(E &&e, const S &s)

Returns an xexpression broadcasting the given expression to a specified shape.

The returned expression either hold a const reference to e or a copy depending on whether e is an lvalue or an rvalue.

Template Parameters: