dsp::SIMDRegister< Type > Struct Template Reference

A wrapper around the platform's native SIMD register type. More...

Classes
struct	ElementAccess

Public Types
using	ElementType = Type
	The type that represents the individual constituents of the SIMD Register. More...
using	value_type = ElementType
	STL compatible value_type definition (same as ElementType). More...
using	MaskType = typename SIMDInternal::MaskTypeFor< ElementType >::type
	The corresponding primitive integer type, for example, this will be int32_t if type is a float. More...
using	PrimitiveType = typename SIMDInternal::PrimitiveType< ElementType >::type
	The native primitive type (used internally). More...
using	NativeOps = SIMDNativeOps< PrimitiveType >
	The native operations for this platform and type combination (used internally) More...
using	vSIMDType = typename NativeOps::vSIMDType
	The native type (used internally). More...
using	vMaskType = SIMDRegister< MaskType >
	The corresponding integer SIMDRegister type (used internally). More...
using	vMaskSIMDType = typename vMaskType::vSIMDType
	The internal native type for the corresponding mask type (used internally). More...
using	CmplxOps = CmplxSIMDOps< ElementType >
	Wrapper for operations which need to be handled differently for complex and scalar types (used internally). More...

Public Member Functions
	SIMDRegister () noexcept=default
	Default constructor. More...
	SIMDRegister (vSIMDType a) noexcept
	Constructs an object from the native SIMD type. More...
	SIMDRegister (Type s) noexcept
	Constructs an object from a scalar type by broadcasting it to all elements. More...
	~SIMDRegister () noexcept=default
	Destructor. More...
void JUCE_VECTOR_CALLTYPE	copyToRawArray (ElementType *a) const noexcept
	Copies the elements of the SIMDRegister to a scalar array in memory. More...
ElementType JUCE_VECTOR_CALLTYPE	get (size_t idx) const noexcept
	Returns the idx-th element of the receiver. More...
void JUCE_VECTOR_CALLTYPE	set (size_t idx, ElementType v) noexcept
	Sets the idx-th element of the receiver. More...
ElementType JUCE_VECTOR_CALLTYPE	operator[] (size_t idx) const noexcept
	Returns the idx-th element of the receiver. More...
ElementAccess JUCE_VECTOR_CALLTYPE	operator[] (size_t idx) noexcept
	Returns the idx-th element of the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator+= (SIMDRegister v) noexcept
	Adds another SIMDRegister to the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator-= (SIMDRegister v) noexcept
	Subtracts another SIMDRegister to the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator*= (SIMDRegister v) noexcept
	Multiplies another SIMDRegister to the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator= (ElementType s) noexcept
	Broadcasts the scalar to all elements of the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator+= (ElementType s) noexcept
	Adds a scalar to the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator-= (ElementType s) noexcept
	Subtracts a scalar to the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator*= (ElementType s) noexcept
	Multiplies a scalar to the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator &= (vMaskType v) noexcept
	Bit-and the receiver with SIMDRegister v and store the result in the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator|= (vMaskType v) noexcept
	Bit-or the receiver with SIMDRegister v and store the result in the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator^= (vMaskType v) noexcept
	Bit-xor the receiver with SIMDRegister v and store the result in the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator &= (MaskType s) noexcept
	Bit-and each element of the receiver with the scalar s and store the result in the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator|= (MaskType s) noexcept
	Bit-or each element of the receiver with the scalar s and store the result in the receiver. More...
SIMDRegister &JUCE_VECTOR_CALLTYPE	operator^= (MaskType s) noexcept
	Bit-xor each element of the receiver with the scalar s and store the result in the receiver. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator+ (SIMDRegister v) const noexcept
	Returns the sum of the receiver and v. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator- (SIMDRegister v) const noexcept
	Returns the difference of the receiver and v. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator* (SIMDRegister v) const noexcept
	Returns the product of the receiver and v. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator+ (ElementType s) const noexcept
	Returns a vector where each element is the sum of the corresponding element in the receiver and the scalar s. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator- (ElementType s) const noexcept
	Returns a vector where each element is the difference of the corresponding element in the receiver and the scalar s. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator* (ElementType s) const noexcept
	Returns a vector where each element is the product of the corresponding element in the receiver and the scalar s. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator & (vMaskType v) const noexcept
	Returns the bit-and of the receiver and v. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator| (vMaskType v) const noexcept
	Returns the bit-or of the receiver and v. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator^ (vMaskType v) const noexcept
	Returns the bit-xor of the receiver and v. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator~ () const noexcept
	Returns a vector where each element is the bit-inverted value of the corresponding element in the receiver. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator & (MaskType s) const noexcept
	Returns a vector where each element is the bit-and'd value of the corresponding element in the receiver and the scalar s. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator| (MaskType s) const noexcept
	Returns a vector where each element is the bit-or'd value of the corresponding element in the receiver and the scalar s. More...
SIMDRegister JUCE_VECTOR_CALLTYPE	operator^ (MaskType s) const noexcept
	Returns a vector where each element is the bit-xor'd value of the corresponding element in the receiver and the scalar s. More...
bool JUCE_VECTOR_CALLTYPE	operator== (SIMDRegister other) const noexcept
	Returns true if all element-wise comparisons return true. More...
bool JUCE_VECTOR_CALLTYPE	operator!= (SIMDRegister other) const noexcept
	Returns true if any element-wise comparisons return false. More...
bool JUCE_VECTOR_CALLTYPE	operator== (Type s) const noexcept
	Returns true if all elements are equal to the scalar. More...
bool JUCE_VECTOR_CALLTYPE	operator!= (Type s) const noexcept
	Returns true if any elements are not equal to the scalar. More...
ElementType	sum () const noexcept
	Returns a scalar which is the sum of all elements of the receiver. More...

Static Public Member Functions
static constexpr size_t	size () noexcept
	Returns the number of elements in this vector. More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	expand (ElementType s) noexcept
	Creates a new SIMDRegister from the corresponding scalar primitive. More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	fromNative (vSIMDType a) noexcept
	Creates a new SIMDRegister from the internal SIMD type (for example __mm128 for single-precision floating point on SSE architectures). More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	fromRawArray (const ElementType *a) noexcept
	Creates a new SIMDRegister from the first SIMDNumElements of a scalar array. More...
static vMaskType JUCE_VECTOR_CALLTYPE	equal (SIMDRegister a, SIMDRegister b) noexcept
	Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is equal to the corresponding element of b, or zero otherwise. More...
static vMaskType JUCE_VECTOR_CALLTYPE	notEqual (SIMDRegister a, SIMDRegister b) noexcept
	Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is not equal to the corresponding element of b, or zero otherwise. More...
static vMaskType JUCE_VECTOR_CALLTYPE	lessThan (SIMDRegister a, SIMDRegister b) noexcept
	Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is less than to the corresponding element of b, or zero otherwise. More...
static vMaskType JUCE_VECTOR_CALLTYPE	lessThanOrEqual (SIMDRegister a, SIMDRegister b) noexcept
	Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is than or equal to the corresponding element of b, or zero otherwise. More...
static vMaskType JUCE_VECTOR_CALLTYPE	greaterThan (SIMDRegister a, SIMDRegister b) noexcept
	Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is greater than to the corresponding element of b, or zero otherwise. More...
static vMaskType JUCE_VECTOR_CALLTYPE	greaterThanOrEqual (SIMDRegister a, SIMDRegister b) noexcept
	Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is greater than or equal to the corresponding element of b, or zero otherwise. More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	min (SIMDRegister a, SIMDRegister b) noexcept
	Returns a new vector where each element is the minimum of the corresponding element of a and b. More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	max (SIMDRegister a, SIMDRegister b) noexcept
	Returns a new vector where each element is the maximum of the corresponding element of a and b. More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	multiplyAdd (SIMDRegister a, const SIMDRegister b, SIMDRegister c) noexcept
	Multiplies b and c and adds the result to a. More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	truncate (SIMDRegister a) noexcept
	Truncates each element to its integer part. More...
static SIMDRegister JUCE_VECTOR_CALLTYPE	abs (SIMDRegister a) noexcept
	Returns the absolute value of each element. More...
static bool	isSIMDAligned (const ElementType *ptr) noexcept
	Checks if the given pointer is sufficiently aligned for using SIMD operations. More...
static ElementType *	getNextSIMDAlignedPtr (ElementType *ptr) noexcept
	Returns the next position in memory where isSIMDAligned returns true. More...

Public Attributes
vSIMDType	value

Static Public Attributes
static constexpr size_t	SIMDRegisterSize = sizeof (vSIMDType)
	The size in bytes of this register. More...
static constexpr size_t	SIMDNumElements = SIMDRegisterSize / sizeof (ElementType)
	The number of elements that this vector can hold. More...

Detailed Description

template<typename Type>
struct dsp::SIMDRegister< Type >

A wrapper around the platform's native SIMD register type.

This class is only available on SIMD machines. Use JUCE_USE_SIMD to query if SIMD is available for your system.

SIMDRegister<Type> is a templated class representing the native vectorized version of FloatingType. SIMDRegister supports all numerical primitive types and std:complex<float> and std::complex<double> supports and most operations of the corresponding primitive type. Additionally, SIMDRegister can be accessed like an array to extract the individual elements.

If you are using SIMDRegister as a pointer, then you must ensure that the memory is sufficiently aligned for SIMD vector operations. Failing to do so will result in crashes or very slow code. Use SIMDRegister::isSIMDAligned to query if a pointer is sufficiently aligned for SIMD vector operations.

Note that using SIMDRegister without enabling optimizations will result in code with very poor performance.

Member Typedef Documentation

ElementType

template<typename Type>

using dsp::SIMDRegister< Type >::ElementType = Type

The type that represents the individual constituents of the SIMD Register.

value_type

template<typename Type>

using dsp::SIMDRegister< Type >::value_type = ElementType

STL compatible value_type definition (same as ElementType).

MaskType

template<typename Type>

using dsp::SIMDRegister< Type >::MaskType = typename SIMDInternal::MaskTypeFor<ElementType>::type

The corresponding primitive integer type, for example, this will be int32_t if type is a float.

PrimitiveType

template<typename Type>

using dsp::SIMDRegister< Type >::PrimitiveType = typename SIMDInternal::PrimitiveType<ElementType>::type

The native primitive type (used internally).

NativeOps

template<typename Type>

using dsp::SIMDRegister< Type >::NativeOps = SIMDNativeOps<PrimitiveType>

The native operations for this platform and type combination (used internally)

vSIMDType

template<typename Type>

using dsp::SIMDRegister< Type >::vSIMDType = typename NativeOps::vSIMDType

The native type (used internally).

vMaskType

template<typename Type>

using dsp::SIMDRegister< Type >::vMaskType = SIMDRegister<MaskType>

The corresponding integer SIMDRegister type (used internally).

vMaskSIMDType

template<typename Type>

using dsp::SIMDRegister< Type >::vMaskSIMDType = typename vMaskType::vSIMDType

The internal native type for the corresponding mask type (used internally).

CmplxOps

template<typename Type>

using dsp::SIMDRegister< Type >::CmplxOps = CmplxSIMDOps<ElementType>

Wrapper for operations which need to be handled differently for complex and scalar types (used internally).

Constructor & Destructor Documentation

SIMDRegister() [1/3]

template<typename Type>

dsp::SIMDRegister< Type >::SIMDRegister ( )

defaultnoexcept

Default constructor.

SIMDRegister() [2/3]

template<typename Type>

dsp::SIMDRegister< Type >::SIMDRegister ( vSIMDType  a )

noexcept

Constructs an object from the native SIMD type.

SIMDRegister() [3/3]

template<typename Type>

dsp::SIMDRegister< Type >::SIMDRegister ( Type  s )

noexcept

Constructs an object from a scalar type by broadcasting it to all elements.

References dsp::SIMDRegister< Type >::~SIMDRegister().

~SIMDRegister()

template<typename Type>

dsp::SIMDRegister< Type >::~SIMDRegister ( )

defaultnoexcept

Destructor.

Referenced by dsp::SIMDRegister< Type >::SIMDRegister().

Member Function Documentation

size()

template<typename Type>

static constexpr size_t dsp::SIMDRegister< Type >::size ( )

staticnoexcept

Returns the number of elements in this vector.

References dsp::SIMDRegister< Type >::SIMDNumElements.

expand()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::expand ( ElementType  s )

staticnoexcept

Creates a new SIMDRegister from the corresponding scalar primitive.

The scalar is extended to all elements of the vector.

Referenced by dsp::SIMDRegister< Type >::abs(), and dsp::SIMDRegister< Type >::operator==().

fromNative()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::fromNative ( vSIMDType  a )

staticnoexcept

Creates a new SIMDRegister from the internal SIMD type (for example __mm128 for single-precision floating point on SSE architectures).

Referenced by dsp::SIMDRegister< Type >::getNextSIMDAlignedPtr().

fromRawArray()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::fromRawArray ( const ElementType *  a )

staticnoexcept

Creates a new SIMDRegister from the first SIMDNumElements of a scalar array.

References dsp::SIMDRegister< Type >::isSIMDAligned(), and jassert.

copyToRawArray()

template<typename Type>

void JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::copyToRawArray ( ElementType *  a ) const

noexcept

Copies the elements of the SIMDRegister to a scalar array in memory.

References dsp::SIMDRegister< Type >::isSIMDAligned(), and jassert.

get()

template<typename Type>

ElementType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::get ( size_t  idx ) const

noexcept

Returns the idx-th element of the receiver.

Note that this does not check if idx is larger than the native register size.

References dsp::get(), and jassert.

set()

template<typename Type>

void JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::set ( size_t  idx, ElementType  v  )

noexcept

Sets the idx-th element of the receiver.

Note that this does not check if idx is larger than the native register size.

References jassert.

Referenced by dsp::SIMDRegister< Type >::ElementAccess::operator=().

operator[]() [1/2]

template<typename Type>

ElementType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator[] ( size_t  idx ) const

noexcept

Returns the idx-th element of the receiver.

Note that this does not check if idx is larger than the native register size.

operator[]() [2/2]

template<typename Type>

ElementAccess JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator[] ( size_t  idx )

noexcept

Returns the idx-th element of the receiver.

Note that this does not check if idx is larger than the native register size.

References jassert.

operator+=() [1/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator+= ( SIMDRegister< Type >  v )

noexcept

Adds another SIMDRegister to the receiver.

operator-=() [1/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator-= ( SIMDRegister< Type >  v )

noexcept

Subtracts another SIMDRegister to the receiver.

operator*=() [1/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator*= ( SIMDRegister< Type >  v )

noexcept

Multiplies another SIMDRegister to the receiver.

operator=()

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator= ( ElementType  s )

noexcept

Broadcasts the scalar to all elements of the receiver.

Referenced by dsp::SIMDRegister< Type >::ElementAccess::operator=().

operator+=() [2/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator+= ( ElementType  s )

noexcept

Adds a scalar to the receiver.

operator-=() [2/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator-= ( ElementType  s )

noexcept

Subtracts a scalar to the receiver.

operator*=() [2/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator*= ( ElementType  s )

noexcept

Multiplies a scalar to the receiver.

operator &=() [1/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator&= ( vMaskType  v )

noexcept

Bit-and the receiver with SIMDRegister v and store the result in the receiver.

operator|=() [1/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator|= ( vMaskType  v )

noexcept

Bit-or the receiver with SIMDRegister v and store the result in the receiver.

operator^=() [1/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator^= ( vMaskType  v )

noexcept

Bit-xor the receiver with SIMDRegister v and store the result in the receiver.

operator &=() [2/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator&= ( MaskType  s )

noexcept

Bit-and each element of the receiver with the scalar s and store the result in the receiver.

operator|=() [2/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator|= ( MaskType  s )

noexcept

Bit-or each element of the receiver with the scalar s and store the result in the receiver.

operator^=() [2/2]

template<typename Type>

SIMDRegister& JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator^= ( MaskType  s )

noexcept

Bit-xor each element of the receiver with the scalar s and store the result in the receiver.

operator+() [1/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator+ ( SIMDRegister< Type >  v ) const

noexcept

Returns the sum of the receiver and v.

operator-() [1/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator- ( SIMDRegister< Type >  v ) const

noexcept

Returns the difference of the receiver and v.

operator*() [1/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator* ( SIMDRegister< Type >  v ) const

noexcept

Returns the product of the receiver and v.

operator+() [2/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator+ ( ElementType  s ) const

noexcept

Returns a vector where each element is the sum of the corresponding element in the receiver and the scalar s.

operator-() [2/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator- ( ElementType  s ) const

noexcept

Returns a vector where each element is the difference of the corresponding element in the receiver and the scalar s.

operator*() [2/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator* ( ElementType  s ) const

noexcept

Returns a vector where each element is the product of the corresponding element in the receiver and the scalar s.

operator &() [1/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator& ( vMaskType  v ) const

noexcept

Returns the bit-and of the receiver and v.

operator|() [1/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator| ( vMaskType  v ) const

noexcept

Returns the bit-or of the receiver and v.

operator^() [1/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator^ ( vMaskType  v ) const

noexcept

Returns the bit-xor of the receiver and v.

operator~()

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator~ ( ) const

noexcept

Returns a vector where each element is the bit-inverted value of the corresponding element in the receiver.

operator &() [2/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator& ( MaskType  s ) const

noexcept

Returns a vector where each element is the bit-and'd value of the corresponding element in the receiver and the scalar s.

operator|() [2/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator| ( MaskType  s ) const

noexcept

Returns a vector where each element is the bit-or'd value of the corresponding element in the receiver and the scalar s.

operator^() [2/2]

template<typename Type>

SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator^ ( MaskType  s ) const

noexcept

Returns a vector where each element is the bit-xor'd value of the corresponding element in the receiver and the scalar s.

operator==() [1/2]

template<typename Type>

bool JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator== ( SIMDRegister< Type >  other ) const

noexcept

Returns true if all element-wise comparisons return true.

operator!=() [1/2]

template<typename Type>

bool JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator!= ( SIMDRegister< Type >  other ) const

noexcept

Returns true if any element-wise comparisons return false.

operator==() [2/2]

template<typename Type>

bool JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator== ( Type  s ) const

noexcept

Returns true if all elements are equal to the scalar.

References dsp::SIMDRegister< Type >::expand().

operator!=() [2/2]

template<typename Type>

bool JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::operator!= ( Type  s ) const

noexcept

Returns true if any elements are not equal to the scalar.

equal()

template<typename Type>

static vMaskType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::equal ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is equal to the corresponding element of b, or zero otherwise.

The result can then be used in bit operations defined above to avoid branches in vector SIMD code.

notEqual()

template<typename Type>

static vMaskType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::notEqual ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is not equal to the corresponding element of b, or zero otherwise.

The result can then be used in bit operations defined above to avoid branches in vector SIMD code.

lessThan()

template<typename Type>

static vMaskType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::lessThan ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is less than to the corresponding element of b, or zero otherwise.

The result can then be used in bit operations defined above to avoid branches in vector SIMD code.

Referenced by dsp::SIMDRegister< Type >::abs().

lessThanOrEqual()

template<typename Type>

static vMaskType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::lessThanOrEqual ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is than or equal to the corresponding element of b, or zero otherwise.

The result can then be used in bit operations defined above to avoid branches in vector SIMD code.

greaterThan()

template<typename Type>

static vMaskType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::greaterThan ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is greater than to the corresponding element of b, or zero otherwise.

The result can then be used in bit operations defined above to avoid branches in vector SIMD code.

greaterThanOrEqual()

template<typename Type>

static vMaskType JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::greaterThanOrEqual ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a SIMDRegister of the corresponding integral type where each element has each bit set if the corresponding element of a is greater than or equal to the corresponding element of b, or zero otherwise.

The result can then be used in bit operations defined above to avoid branches in vector SIMD code.

min()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::min ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a new vector where each element is the minimum of the corresponding element of a and b.

References min().

Referenced by jmin().

max()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::max ( SIMDRegister< Type >  a, SIMDRegister< Type >  b  )

staticnoexcept

Returns a new vector where each element is the maximum of the corresponding element of a and b.

References max().

Referenced by jmax().

multiplyAdd()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::multiplyAdd ( SIMDRegister< Type >  a, const SIMDRegister< Type >  b, SIMDRegister< Type >  c  )

staticnoexcept

Multiplies b and c and adds the result to a.

sum()

template<typename Type>

ElementType dsp::SIMDRegister< Type >::sum ( ) const

noexcept

Returns a scalar which is the sum of all elements of the receiver.

truncate()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::truncate ( SIMDRegister< Type >  a )

staticnoexcept

Truncates each element to its integer part.

Effectively discards the fractional part of each element. A.k.a. round to zero.

abs()

template<typename Type>

static SIMDRegister JUCE_VECTOR_CALLTYPE dsp::SIMDRegister< Type >::abs ( SIMDRegister< Type >  a )

staticnoexcept

Returns the absolute value of each element.

References dsp::SIMDRegister< Type >::expand(), and dsp::SIMDRegister< Type >::lessThan().

isSIMDAligned()

template<typename Type>

static bool dsp::SIMDRegister< Type >::isSIMDAligned ( const ElementType *  ptr )

staticnoexcept

Checks if the given pointer is sufficiently aligned for using SIMD operations.

Referenced by dsp::SIMDRegister< Type >::copyToRawArray(), and dsp::SIMDRegister< Type >::fromRawArray().

getNextSIMDAlignedPtr()

template<typename Type>

static ElementType* dsp::SIMDRegister< Type >::getNextSIMDAlignedPtr ( ElementType *  ptr )

staticnoexcept

Returns the next position in memory where isSIMDAligned returns true.

If the current position in memory is already aligned then this method will simply return the pointer.

References dsp::SIMDRegister< Type >::fromNative(), and snapPointerToAlignment().

Member Data Documentation

SIMDRegisterSize

template<typename Type>

constexpr size_t dsp::SIMDRegister< Type >::SIMDRegisterSize = sizeof (vSIMDType)

static

The size in bytes of this register.

SIMDNumElements

template<typename Type>

constexpr size_t dsp::SIMDRegister< Type >::SIMDNumElements = SIMDRegisterSize / sizeof (ElementType)

static

The number of elements that this vector can hold.

Referenced by dsp::SIMDRegister< Type >::size().

value

template<typename Type>

vSIMDType dsp::SIMDRegister< Type >::value

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

• juce_SIMDRegister.h