simdpp::uint16< 8, void > Class Template Reference

Class representing 8x 16-bit unsigned integer vector. More...

Inheritance diagram for simdpp::uint16< 8, void >:

Public Types
using	element_type = uint16_t
using	base_vector_type = uint16< 8, void >
using	expr_type = void
using	native_type = detail::array< uint16_t, 8 >
Public Types inherited from simdpp::any_int16< 8, uint16< 8, void > >
using	uint_element_type = uint16_t
using	int_vector_type = int16< N >
using	uint_vector_type = uint16< N >
using	mask_vector_type = mask_int16< N >

Public Member Functions
	uint16 ()=default
	uint16 (const uint16< 8 > &)=default
uint16< 8 > &	operator= (const uint16< 8 > &)=default
template<class E >
	uint16 (const uint16< 8, E > &d)
template<class E >
	uint16 (const int16< 8, E > &d)
template<class V >
	uint16 (const any_vec< 16, V > &d)
template<class V >
uint16< 8 > &	operator= (const any_vec< 16, V > &d)
	operator native_type () const
	Convert to the underlying vector type. More...
uint16< 8 >	eval () const
	uint16 (const native_type &d)
uint16< 8 > &	operator= (const native_type &d)
const uint16< 8 > &	operator[] (unsigned) const
uint16< 8 > &	operator[] (unsigned)

Static Public Member Functions
static uint16< 8 >	zero ()
static uint16< 8 >	ones ()

Static Public Attributes
static const unsigned	type_tag = SIMDPP_TAG_UINT
Static Public Attributes inherited from simdpp::any_int16< 8, uint16< 8, void > >
static const unsigned	length
static const unsigned	vec_length
static const unsigned	num_bits
static const uint_element_type	all_bits
Static Public Attributes inherited from simdpp::any_vec16< N, uint16< 8, void > >
static const unsigned	size_tag
Static Public Attributes inherited from simdpp::any_vec< N *2, uint16< 8, void > >
static const unsigned	length_bytes

Detailed Description

template<>
class simdpp::uint16< 8, void >

Class representing 8x 16-bit unsigned integer vector.

Member Typedef Documentation

using simdpp::uint16< 8, void >::base_vector_type = uint16<8,void>

using simdpp::uint16< 8, void >::element_type = uint16_t

using simdpp::uint16< 8, void >::expr_type = void

using simdpp::uint16< 8, void >::native_type = detail::array<uint16_t, 8>

Constructor & Destructor Documentation

simdpp::uint16< 8, void >::uint16 ( )

default

simdpp::uint16< 8, void >::uint16 ( const uint16< 8 > &  )

default

template<class E >

simdpp::uint16< 8, void >::uint16 ( const uint16< 8, E > &  d)

inline

template<class E >

simdpp::uint16< 8, void >::uint16 ( const int16< 8, E > &  d)

inline

template<class V >

simdpp::uint16< 8, void >::uint16 ( const any_vec< 16, V > &  d)

inlineexplicit

simdpp::uint16< 8, void >::uint16 ( const native_type &  d)

inline

Construct from the underlying vector type

Member Function Documentation

uint16<8> simdpp::uint16< 8, void >::eval ( ) const

inline

static uint16<8> simdpp::uint16< 8, void >::ones ( )

inlinestatic

simdpp::uint16< 8, void >::operator native_type ( ) const

inline

Convert to the underlying vector type.

uint16<8>& simdpp::uint16< 8, void >::operator= ( const uint16< 8 > &  )

default

template<class V >

uint16<8>& simdpp::uint16< 8, void >::operator= ( const any_vec< 16, V > &  d)

inline

uint16<8>& simdpp::uint16< 8, void >::operator= ( const native_type &  d)

inline

Construct from the underlying vector type

const uint16<8>& simdpp::uint16< 8, void >::operator[] ( unsigned  ) const

inline

Access base vectors

uint16<8>& simdpp::uint16< 8, void >::operator[] ( unsigned  )

inline

Access base vectors

static uint16<8> simdpp::uint16< 8, void >::zero ( )

inlinestatic

Member Data Documentation

const unsigned simdpp::uint16< 8, void >::type_tag = SIMDPP_TAG_UINT

static

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

• types/int16x8.h