Blaze 3.9
Public Types | Public Member Functions | Static Public Attributes | Private Types | Private Attributes | Static Private Attributes | List of all members
blaze::SVecSVecCrossExpr< VT1, VT2, TF > Class Template Reference

Expression object for sparse vector-sparse vector cross products. More...

#include <SVecSVecCrossExpr.h>

Inherits blaze::CrossExpr< DenseVector< SVecSVecCrossExpr< VT1, VT2, TF >, TF > >, and blaze::Computation.

Public Types

using This = SVecSVecCrossExpr< VT1, VT2, TF >
 Type of this SVecSVecCrossExpr instance.
 
using BaseType = CrossExpr< DenseVector< This, TF > >
 Base type of this SVecSVecCrossExpr instance.
 
using ResultType = CrossTrait_t< RT1, RT2 >
 Result type for expression template evaluations.
 
using TransposeType = TransposeType_t< ResultType >
 Transpose type for expression template evaluations.
 
using ElementType = ElementType_t< ResultType >
 Resulting element type.
 
using ReturnType = const If_t< returnExpr, ExprReturnType, ElementType >
 Return type for expression template evaluations.
 
using CompositeType = const ResultType
 Data type for composite expression templates.
 
using LeftOperand = If_t< IsExpression_v< VT1 >, const VT1, const VT1 & >
 Composite type of the left-hand side sparse vector expression.
 
using RightOperand = If_t< IsExpression_v< VT2 >, const VT2, const VT2 & >
 Composite type of the right-hand side sparse vector expression.
 
using LT = const StaticVector< ET1, 3UL, TF >
 Composite type of the left-hand side sparse vector expression.
 
using RT = const StaticVector< ET2, 3UL, TF >
 Composite type of the right-hand side sparse vector expression.
 
using VectorType = SVecSVecCrossExpr< VT1, VT2, TF >
 Type of the vector.
 

Public Member Functions

 SVecSVecCrossExpr (const VT1 &lhs, const VT2 &rhs) noexcept
 Constructor for the SVecSVecCrossExpr class. More...
 
ReturnType operator[] (size_t index) const
 Subscript operator for the direct access to the vector elements. More...
 
ReturnType at (size_t index) const
 Checked access to the vector elements. More...
 
constexpr size_t size () const noexcept
 Returns the current size/dimension of the vector. More...
 
LeftOperand leftOperand () const noexcept
 Returns the left-hand side sparse vector operand. More...
 
RightOperand rightOperand () const noexcept
 Returns the right-hand side sparse vector operand. More...
 
template<typename T >
bool canAlias (const T *alias) const noexcept
 Returns whether the expression can alias with the given address alias. More...
 
template<typename T >
bool isAliased (const T *alias) const noexcept
 Returns whether the expression is aliased with the given address alias. More...
 
Conversion operators
BLAZE_ALWAYS_INLINE constexpr SVecSVecCrossExpr< VT1, VT2, TF > & operator~ () noexcept
 CRTP-based conversion operation for non-constant vectors. More...
 
BLAZE_ALWAYS_INLINE constexpr const SVecSVecCrossExpr< VT1, VT2, TF > & operator~ () const noexcept
 CRTP-based conversion operation for constant vectors. More...
 
constexpr SVecSVecCrossExpr< VT1, VT2, TF > & operator* () noexcept
 CRTP-based conversion operation for non-constant vectors. More...
 
constexpr const SVecSVecCrossExpr< VT1, VT2, TF > & operator* () const noexcept
 CRTP-based conversion operation for constant vectors. More...
 

Static Public Attributes

static constexpr bool simdEnabled = false
 Compilation switch for the expression template evaluation strategy.
 
static constexpr bool smpAssignable = false
 Compilation switch for the expression template assignment strategy.
 
static constexpr bool transposeFlag
 Transpose flag of the vector.
 

Private Types

using RT1 = ResultType_t< VT1 >
 Result type of the left-hand side sparse vector expression.
 
using RT2 = ResultType_t< VT2 >
 Result type of the right-hand side sparse vector expression.
 
using RN1 = ReturnType_t< VT1 >
 Return type of the left-hand side sparse vector expression.
 
using RN2 = ReturnType_t< VT2 >
 Return type of the right-hand side sparse vector expression.
 
using CT1 = CompositeType_t< VT1 >
 Composite type of the left-hand side sparse vector expression.
 
using CT2 = CompositeType_t< VT2 >
 Composite type of the right-hand side sparse vector expression.
 
using ET1 = ElementType_t< VT1 >
 Element type of the left-hand side sparse vector expression.
 
using ET2 = ElementType_t< VT2 >
 Element type of the right-hand side sparse vector expression.
 
using ExprReturnType = decltype((std::declval< RN1 >() *std::declval< RN2 >()) -(std::declval< RN1 >() *std::declval< RN2 >()))
 Expression return type for the subscript operator.
 

Private Attributes

LeftOperand lhs_
 Left-hand side sparse vector of the cross product expression.
 
RightOperand rhs_
 Right-hand side sparse vector of the cross product expression.
 

Static Private Attributes

static constexpr bool returnExpr = ( !IsTemporary_v<RN1> && !IsTemporary_v<RN2> )
 Compilation switch for the selection of the subscript operator return type. More...
 

Detailed Description

template<typename VT1, typename VT2, bool TF>
class blaze::SVecSVecCrossExpr< VT1, VT2, TF >

Expression object for sparse vector-sparse vector cross products.

The SVecSVecCrossExpr class represents the compile time expression for cross products between sparse vectors.

Constructor & Destructor Documentation

◆ SVecSVecCrossExpr()

template<typename VT1 , typename VT2 , bool TF>
blaze::SVecSVecCrossExpr< VT1, VT2, TF >::SVecSVecCrossExpr ( const VT1 &  lhs,
const VT2 &  rhs 
)
inlinenoexcept

Constructor for the SVecSVecCrossExpr class.

Parameters
lhsThe left-hand side operand of the cross product expression.
rhsThe right-hand side operand of the cross product expression.

Member Function Documentation

◆ at()

template<typename VT1 , typename VT2 , bool TF>
ReturnType blaze::SVecSVecCrossExpr< VT1, VT2, TF >::at ( size_t  index) const
inline

Checked access to the vector elements.

Parameters
indexAccess index. The index has to be in the range $[0..N-1]$.
Returns
The resulting value.
Exceptions
std::out_of_rangeInvalid vector access index.

◆ canAlias()

template<typename VT1 , typename VT2 , bool TF>
template<typename T >
bool blaze::SVecSVecCrossExpr< VT1, VT2, TF >::canAlias ( const T *  alias) const
inlinenoexcept

Returns whether the expression can alias with the given address alias.

Parameters
aliasThe alias to be checked.
Returns
true in case the expression can alias, false otherwise.

◆ isAliased()

template<typename VT1 , typename VT2 , bool TF>
template<typename T >
bool blaze::SVecSVecCrossExpr< VT1, VT2, TF >::isAliased ( const T *  alias) const
inlinenoexcept

Returns whether the expression is aliased with the given address alias.

Parameters
aliasThe alias to be checked.
Returns
true in case an alias effect is detected, false otherwise.

◆ leftOperand()

template<typename VT1 , typename VT2 , bool TF>
LeftOperand blaze::SVecSVecCrossExpr< VT1, VT2, TF >::leftOperand ( ) const
inlinenoexcept

Returns the left-hand side sparse vector operand.

Returns
The left-hand side sparse vector operand.

◆ operator*() [1/2]

BLAZE_ALWAYS_INLINE constexpr const SVecSVecCrossExpr< VT1, VT2, TF > & blaze::Vector< SVecSVecCrossExpr< VT1, VT2, TF > , TF >::operator*
constexprnoexceptinherited

CRTP-based conversion operation for constant vectors.

Returns
Const reference of the actual type of the vector.

This operator performs the CRTP-based type-safe downcast to the actual type VT of the vector. It will return a constant reference to the actual type VT.

◆ operator*() [2/2]

BLAZE_ALWAYS_INLINE constexpr SVecSVecCrossExpr< VT1, VT2, TF > & blaze::Vector< SVecSVecCrossExpr< VT1, VT2, TF > , TF >::operator*
constexprnoexceptinherited

CRTP-based conversion operation for non-constant vectors.

Returns
Mutable reference of the actual type of the vector.

This operator performs the CRTP-based type-safe downcast to the actual type VT of the vector. It will return a mutable reference to the actual type VT.

◆ operator[]()

template<typename VT1 , typename VT2 , bool TF>
ReturnType blaze::SVecSVecCrossExpr< VT1, VT2, TF >::operator[] ( size_t  index) const
inline

Subscript operator for the direct access to the vector elements.

Parameters
indexAccess index. The index has to be in the range $[0..2]$.
Returns
The resulting value.

◆ operator~() [1/2]

BLAZE_ALWAYS_INLINE constexpr const SVecSVecCrossExpr< VT1, VT2, TF > & blaze::Vector< SVecSVecCrossExpr< VT1, VT2, TF > , TF >::operator~
constexprnoexceptinherited

CRTP-based conversion operation for constant vectors.

Returns
Constant reference of the actual type of the vector.

This operator performs the CRTP-based type-safe downcast to the actual type VT of the vector. It will return a constant reference to the actual type VT.

◆ operator~() [2/2]

BLAZE_ALWAYS_INLINE constexpr SVecSVecCrossExpr< VT1, VT2, TF > & blaze::Vector< SVecSVecCrossExpr< VT1, VT2, TF > , TF >::operator~
constexprnoexceptinherited

CRTP-based conversion operation for non-constant vectors.

Returns
Mutable reference of the actual type of the vector.

This operator performs the CRTP-based type-safe downcast to the actual type VT of the vector. It will return a mutable reference to the actual type VT.

◆ rightOperand()

template<typename VT1 , typename VT2 , bool TF>
RightOperand blaze::SVecSVecCrossExpr< VT1, VT2, TF >::rightOperand ( ) const
inlinenoexcept

Returns the right-hand side sparse vector operand.

Returns
The right-hand side sparse vector operand.

◆ size()

template<typename VT1 , typename VT2 , bool TF>
constexpr size_t blaze::SVecSVecCrossExpr< VT1, VT2, TF >::size ( ) const
inlineconstexprnoexcept

Returns the current size/dimension of the vector.

Returns
The size of the vector.

Member Data Documentation

◆ returnExpr

template<typename VT1 , typename VT2 , bool TF>
constexpr bool blaze::SVecSVecCrossExpr< VT1, VT2, TF >::returnExpr = ( !IsTemporary_v<RN1> && !IsTemporary_v<RN2> )
staticconstexprprivate

Compilation switch for the selection of the subscript operator return type.

The returnExpr compile time constant expression is a compilation switch for the selection of the ReturnType. If either vector operand returns a temporary vector or matrix, returnExpr will be set to false and the subscript operator will return it's result by value. Otherwise returnExpr will be set to true and the subscript operator may return it's result as an expression.


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