xt::xfunctor_adaptor< F, CT > Member List

This is the complete list of members for xt::xfunctor_adaptor< F, CT >, including all inherited members.

assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
assign_temporary(temporary_type &&)	xt::xcontainer_semantic< xfunctor_adaptor< F, CT > >	inline
at(Args... args) -> reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
at(Args... args) const -> const_reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
back()	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
back() const	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
backstrides() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
base_type typedef (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
begin() noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
begin() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
begin(const S &shape) noexcept -> broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
begin(const S &shape) const noexcept -> const_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
bit_and_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
bit_and_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
bit_or_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
bit_or_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
bit_xor_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
bit_xor_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
broadcast_shape(S &shape, bool reuse_cache=false) const	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
cbegin() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
cbegin(const S &shape) const noexcept -> const_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
cend() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
cend(const S &shape) const noexcept -> const_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
crbegin() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
crbegin(const S &) const noexcept -> const_reverse_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
crend() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
crend(const S &shape) const noexcept -> const_reverse_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
divides_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
divides_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
element(IT first, IT last) -> reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
element(IT first, IT last) const -> const_reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
end() noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
end() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
end(const S &shape) noexcept -> broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
end(const S &shape) const noexcept -> const_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
expression() noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
expression() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
front()	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
front() const	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
has_linear_assign(const S &strides) const	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
layout() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
minus_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
minus_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
modulus_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
modulus_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
multiplies_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
multiplies_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator%=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator%=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator%=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator%=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator&=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator&=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator&=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator&=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator()(Args... args) -> reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
operator()(Args... args) const -> const_reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
operator*=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator*=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator*=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator*=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator+=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator+=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator+=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator+=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator-=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator-=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator-=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator-=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator/=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator/=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator/=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator/=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator=(const xexpression< E > &e) (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
operator=(const E &e) (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
operator=(const xexpression< E > &e) -> self_type &	xt::xfunctor_adaptor< F, CT >	inline
operator=(const xsemantic_base &)=default (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >	protected
operator=(xsemantic_base &&)=default (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >	protected
operator^=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator^=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator^=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator^=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
operator|=(const E &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator|=(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
operator|=(const E &e) -> disable_xexpression< E, derived_type & >	xt::xsemantic_base< D >	inline
operator|=(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
periodic(Args... args) -> reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
periodic(Args... args) const -> const_reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
plus_assign(const xexpression< E > &) (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >
plus_assign(const xexpression< E > &e) -> derived_type &	xt::xsemantic_base< D >	inline
rbegin() noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
rbegin() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
rbegin(const S &shape) noexcept -> reverse_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
rbegin(const S &shape) const noexcept -> const_reverse_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
rend() noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
rend() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
rend(const S &shape) noexcept -> reverse_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
rend(const S &) const noexcept -> const_reverse_broadcast_iterator< S, L >	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
reshape(S &&shape, layout_type layout=base_type::static_layout) & (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
resize(S &&shape, bool force=false) (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
resize(S &&shape, layout_type l) (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
resize(S &&shape, const strides_type &strides) (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
self_type typedef (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
semantic_base typedef (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
shape() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
shape_type typedef (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
size() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
strides() const noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
strides_type typedef (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
unchecked(Args... args) -> reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
unchecked(Args... args) const -> const_reference	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
xaccessible< self_type > (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >	friend
xcontainer_semantic< self_type > (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >	friend
xexpression_type typedef (defined in xt::xfunctor_adaptor< F, CT >)	xt::xfunctor_adaptor< F, CT >
xfunctor_applier_base(undecay_expression) noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inlineexplicit
xfunctor_applier_base(Func &&, E &&) noexcept	xt::xfunctor_applier_base< xfunctor_adaptor< F, CT > >	inline
xsemantic_base()=default (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >	protected
xsemantic_base(const xsemantic_base &)=default (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >	protected
xsemantic_base(xsemantic_base &&)=default (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >	protected
~xsemantic_base()=default (defined in xt::xsemantic_base< D >)	xt::xsemantic_base< D >	protected