35#ifndef _BLAZE_MATH_EXPRESSIONS_DMATDMATSCHUREXPR_H_
36#define _BLAZE_MATH_EXPRESSIONS_DMATDMATSCHUREXPR_H_
102template<
typename MT1
106 :
public SchurExpr< DenseMatrix< DMatDMatSchurExpr<MT1,MT2,SO>, SO > >
128 static constexpr bool returnExpr = ( !IsTemporary_v<RN1> && !IsTemporary_v<RN2> );
143 ( RequiresEvaluation_v<MT1> || RequiresEvaluation_v<MT2> || !
returnExpr );
147 template<
typename MT >
148 static constexpr bool UseAssign_v =
useAssign;
160 template<
typename MT >
161 static constexpr bool UseSMPAssign_v =
162 ( ( !MT1::smpAssignable || !MT2::smpAssignable ) &&
useAssign );
307 return (*
left_) * (*right_);
316 inline auto load() const noexcept {
445 ( MT1::simdEnabled && MT2::simdEnabled && HasSIMDMult_v<ET1,ET2> );
448 static constexpr bool smpAssignable = ( MT1::smpAssignable && MT2::smpAssignable );
494 if( i >=
lhs_.rows() ) {
497 if( j >=
lhs_.columns() ) {
516 return lhs_.load(i,j) *
rhs_.load(i,j);
547 inline size_t rows() const noexcept {
558 return lhs_.columns();
588 template<
typename T >
589 inline bool canAlias(
const T* alias )
const noexcept {
590 return ( IsExpression_v<MT1> && ( RequiresEvaluation_v<MT1> ?
lhs_.isAliased( alias ) :
lhs_.canAlias( alias ) ) ) ||
591 ( IsExpression_v<MT2> && ( RequiresEvaluation_v<MT2> ?
rhs_.isAliased( alias ) :
rhs_.canAlias( alias ) ) );
601 template<
typename T >
602 inline bool isAliased(
const T* alias )
const noexcept {
603 return (
lhs_.isAliased( alias ) ||
rhs_.isAliased( alias ) );
613 return lhs_.isAligned() &&
rhs_.isAligned();
623 return lhs_.canSMPAssign() ||
rhs_.canSMPAssign() ||
624 (
rows() *
columns() >= SMP_DMATDMATSCHUR_THRESHOLD );
649 template<
typename MT
659 if( !IsOperation_v<MT1> &&
isSame( *lhs, rhs.lhs_ ) ) {
660 schurAssign( *lhs, rhs.rhs_ );
665 assign( *lhs, A % B );
685 template<
typename MT
695 if( !IsOperation_v<MT1> &&
isSame( *lhs, rhs.lhs_ ) ) {
696 schurAssign( *lhs, rhs.rhs_ );
698 else if( !IsOperation_v<MT2> &&
isSame( *lhs, rhs.rhs_ ) ) {
699 schurAssign( *lhs, rhs.lhs_ );
701 else if( !RequiresEvaluation_v<MT2> ) {
702 assign ( *lhs, rhs.rhs_ );
703 schurAssign( *lhs, rhs.lhs_ );
706 assign ( *lhs, rhs.lhs_ );
707 schurAssign( *lhs, rhs.rhs_ );
727 template<
typename MT
729 friend inline auto assign( SparseMatrix<MT,SO2>& lhs,
const DMatDMatSchurExpr& rhs )
730 -> EnableIf_t< UseAssign_v<MT> >
734 using TmpType = If_t< SO == SO2, ResultType, OppositeType >;
746 const TmpType tmp(
serial( rhs ) );
766 template<
typename MT
768 friend inline auto addAssign( DenseMatrix<MT,SO2>& lhs,
const DMatDMatSchurExpr& rhs )
769 -> EnableIf_t< UseAssign_v<MT> >
781 addAssign( *lhs, tmp );
804 template<
typename MT
806 friend inline auto subAssign( DenseMatrix<MT,SO2>& lhs,
const DMatDMatSchurExpr& rhs )
807 -> EnableIf_t< UseAssign_v<MT> >
819 subAssign( *lhs, tmp );
843 template<
typename MT
845 friend inline auto schurAssign( DenseMatrix<MT,SO2>& lhs,
const DMatDMatSchurExpr& rhs )
846 -> EnableIf_t< UseAssign_v<MT> && !IsCommutative_v<MT1,MT2> >
858 schurAssign( *lhs, tmp );
878 template<
typename MT
880 friend inline auto schurAssign( DenseMatrix<MT,SO2>& lhs,
const DMatDMatSchurExpr& rhs )
881 -> EnableIf_t< UseAssign_v<MT> && IsCommutative_v<MT1,MT2> >
888 if( !RequiresEvaluation_v<MT2> ) {
889 schurAssign( *lhs, rhs.rhs_ );
890 schurAssign( *lhs, rhs.lhs_ );
893 schurAssign( *lhs, rhs.lhs_ );
894 schurAssign( *lhs, rhs.rhs_ );
927 template<
typename MT
930 -> EnableIf_t< UseSMPAssign_v<MT> && !IsCommutative_v<MT1,MT2> >
937 if( !IsOperation_v<MT1> &&
isSame( *lhs, rhs.lhs_ ) ) {
964 template<
typename MT
967 -> EnableIf_t< UseSMPAssign_v<MT> && IsCommutative_v<MT1,MT2> >
974 if( !IsOperation_v<MT1> &&
isSame( *lhs, rhs.lhs_ ) ) {
977 else if( !IsOperation_v<MT2> &&
isSame( *lhs, rhs.rhs_ ) ) {
980 else if( !RequiresEvaluation_v<MT2> ) {
1006 template<
typename MT
1009 -> EnableIf_t< UseSMPAssign_v<MT> >
1013 using TmpType = If_t< SO == SO2, ResultType, OppositeType >;
1025 const TmpType tmp( rhs );
1045 template<
typename MT
1048 -> EnableIf_t< UseAssign_v<MT> >
1084 template<
typename MT
1087 -> EnableIf_t< UseSMPAssign_v<MT> >
1123 template<
typename MT
1126 -> EnableIf_t< UseSMPAssign_v<MT> && !IsCommutative_v<MT1,MT2> >
1158 template<
typename MT
1161 -> EnableIf_t< UseSMPAssign_v<MT> && IsCommutative_v<MT1,MT2> >
1168 if( !RequiresEvaluation_v<MT2> ) {
1224template<
typename MT1
1227 ,
DisableIf_t< ( IsUniLower_v<MT1> && IsUniUpper_v<MT2> ) ||
1228 ( IsUniUpper_v<MT1> && IsUniLower_v<MT2> ) ||
1229 ( IsStrictlyLower_v<MT1> && IsUpper_v<MT2> ) ||
1230 ( IsStrictlyUpper_v<MT1> && IsLower_v<MT2> ) ||
1231 ( IsLower_v<MT1> && IsStrictlyUpper_v<MT2> ) ||
1232 ( IsUpper_v<MT1> && IsStrictlyLower_v<MT2> ) >* =
nullptr >
1233inline const DMatDMatSchurExpr<MT1,MT2,SO>
1234 dmatdmatschur(
const DenseMatrix<MT1,SO>& lhs,
const DenseMatrix<MT2,SO>& rhs )
1241 return DMatDMatSchurExpr<MT1,MT2,SO>( *lhs, *rhs );
1260template<
typename MT1
1263 ,
EnableIf_t< ( IsUniLower_v<MT1> && IsUniUpper_v<MT2> ) ||
1264 ( IsUniUpper_v<MT1> && IsUniLower_v<MT2> ) >* =
nullptr >
1265inline decltype(
auto)
1266 dmatdmatschur(
const DenseMatrix<MT1,SO>& lhs,
const DenseMatrix<MT2,SO>& rhs )
1275 using ReturnType =
const SchurTrait_t< ResultType_t<MT1>, ResultType_t<MT2> >;
1280 return ReturnType( (*lhs).rows() );
1299template<
typename MT1
1302 ,
EnableIf_t< ( IsStrictlyLower_v<MT1> && IsUpper_v<MT2> ) ||
1303 ( IsStrictlyUpper_v<MT1> && IsLower_v<MT2> ) ||
1304 ( IsLower_v<MT1> && IsStrictlyUpper_v<MT2> ) ||
1305 ( IsUpper_v<MT1> && IsStrictlyLower_v<MT2> ) >* =
nullptr >
1306inline decltype(
auto)
1307 dmatdmatschur(
const DenseMatrix<MT1,SO>& lhs,
const DenseMatrix<MT2,SO>& rhs )
1316 using ReturnType =
const SchurTrait_t< ResultType_t<MT1>, ResultType_t<MT2> >;
1321 return ReturnType( (*lhs).rows(), (*lhs).columns() );
1352template<
typename MT1
1355inline decltype(
auto)
1360 if( (*lhs).rows() != (*rhs).rows() || (*lhs).columns() != (*rhs).columns() ) {
1364 return dmatdmatschur( *lhs, *rhs );
1379template<
typename MT1,
typename MT2,
bool SO >
1380struct IsAligned< DMatDMatSchurExpr<MT1,MT2,SO> >
1381 :
public BoolConstant< IsAligned_v<MT1> && IsAligned_v<MT2> >
1397template<
typename MT1,
typename MT2,
bool SO >
1398struct IsPadded< DMatDMatSchurExpr<MT1,MT2,SO> >
1399 :
public BoolConstant< IsPadded_v<MT1> && IsPadded_v<MT2> >
Header file for auxiliary alias declarations.
typename T::CompositeType CompositeType_t
Alias declaration for nested CompositeType type definitions.
Definition: Aliases.h:110
typename T::ReturnType ReturnType_t
Alias declaration for nested ReturnType type definitions.
Definition: Aliases.h:470
typename T::ResultType ResultType_t
Alias declaration for nested ResultType type definitions.
Definition: Aliases.h:450
typename T::ElementType ElementType_t
Alias declaration for nested ElementType type definitions.
Definition: Aliases.h:190
typename T::OppositeType OppositeType_t
Alias declaration for nested OppositeType type definitions.
Definition: Aliases.h:310
typename T::ConstIterator ConstIterator_t
Alias declaration for nested ConstIterator type definitions.
Definition: Aliases.h:130
typename T::TransposeType TransposeType_t
Alias declaration for nested TransposeType type definitions.
Definition: Aliases.h:550
Header file for run time assertion macros.
Header file for the EnableIf class template.
Header file for the function trace functionality.
Header file for the HasSIMDMult type trait.
Macro for CUDA compatibility.
Constraint on the data type.
Header file for the If class template.
Header file for the IntegralConstant class template.
Header file for the IsAligned type trait.
Header file for the IsCommutative type trait.
Header file for the IsExpression type trait class.
Header file for the IsLower type trait.
Header file for the IsOperation type trait class.
Header file for the IsPadded type trait.
Header file for the IsStrictlyLower type trait.
Header file for the IsStrictlyUpper type trait.
Header file for the IsTemporary type trait class.
Header file for the IsUniLower type trait.
Header file for the IsUniUpper type trait.
Header file for the IsUpper type trait.
Header file for the MAYBE_UNUSED function template.
Header file for all SIMD functionality.
Header file for the Schur product trait.
Constraint on the data type.
Iterator over the elements of the dense matrix.
Definition: DMatDMatSchurExpr.h:196
BLAZE_DEVICE_CALLABLE bool operator<=(const ConstIterator &rhs) const
Less-than comparison between two ConstIterator objects.
Definition: DMatDMatSchurExpr.h:371
BLAZE_DEVICE_CALLABLE bool operator>(const ConstIterator &rhs) const
Greater-than comparison between two ConstIterator objects.
Definition: DMatDMatSchurExpr.h:360
BLAZE_DEVICE_CALLABLE DifferenceType operator-(const ConstIterator &rhs) const
Calculating the number of elements between two iterators.
Definition: DMatDMatSchurExpr.h:393
ReferenceType reference
Reference return type.
Definition: DMatDMatSchurExpr.h:209
ValueType value_type
Type of the underlying elements.
Definition: DMatDMatSchurExpr.h:207
DifferenceType difference_type
Difference between two iterators.
Definition: DMatDMatSchurExpr.h:210
ptrdiff_t DifferenceType
Difference between two iterators.
Definition: DMatDMatSchurExpr.h:203
BLAZE_DEVICE_CALLABLE ConstIterator & operator++()
Pre-increment operator.
Definition: DMatDMatSchurExpr.h:262
ConstIterator_t< MT1 > LeftIteratorType
ConstIterator type of the left-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:213
BLAZE_DEVICE_CALLABLE ConstIterator(LeftIteratorType left, RightIteratorType right)
Constructor for the ConstIterator class.
Definition: DMatDMatSchurExpr.h:225
BLAZE_DEVICE_CALLABLE ConstIterator & operator-=(size_t dec)
Subtraction assignment operator.
Definition: DMatDMatSchurExpr.h:250
ElementType & ReferenceType
Reference return type.
Definition: DMatDMatSchurExpr.h:202
std::random_access_iterator_tag IteratorCategory
The iterator category.
Definition: DMatDMatSchurExpr.h:199
ReturnType operator*() const
Direct access to the element at the current iterator position.
Definition: DMatDMatSchurExpr.h:306
friend const ConstIterator operator+(const ConstIterator &it, size_t inc)
Addition between a ConstIterator and an integral value.
Definition: DMatDMatSchurExpr.h:405
BLAZE_DEVICE_CALLABLE bool operator!=(const ConstIterator &rhs) const
Inequality comparison between two ConstIterator objects.
Definition: DMatDMatSchurExpr.h:338
BLAZE_DEVICE_CALLABLE bool operator<(const ConstIterator &rhs) const
Less-than comparison between two ConstIterator objects.
Definition: DMatDMatSchurExpr.h:349
PointerType pointer
Pointer return type.
Definition: DMatDMatSchurExpr.h:208
friend const ConstIterator operator+(size_t inc, const ConstIterator &it)
Addition between an integral value and a ConstIterator.
Definition: DMatDMatSchurExpr.h:417
BLAZE_DEVICE_CALLABLE bool operator>=(const ConstIterator &rhs) const
Greater-than comparison between two ConstIterator objects.
Definition: DMatDMatSchurExpr.h:382
LeftIteratorType left_
Iterator to the current left-hand side element.
Definition: DMatDMatSchurExpr.h:436
ElementType * PointerType
Pointer return type.
Definition: DMatDMatSchurExpr.h:201
auto load() const noexcept
Access to the SIMD elements of the matrix.
Definition: DMatDMatSchurExpr.h:316
ElementType ValueType
Type of the underlying elements.
Definition: DMatDMatSchurExpr.h:200
ConstIterator_t< MT2 > RightIteratorType
ConstIterator type of the right-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:216
RightIteratorType right_
Iterator to the current right-hand side element.
Definition: DMatDMatSchurExpr.h:437
BLAZE_DEVICE_CALLABLE ConstIterator & operator--()
Pre-decrement operator.
Definition: DMatDMatSchurExpr.h:284
IteratorCategory iterator_category
The iterator category.
Definition: DMatDMatSchurExpr.h:206
BLAZE_DEVICE_CALLABLE ConstIterator & operator+=(size_t inc)
Addition assignment operator.
Definition: DMatDMatSchurExpr.h:237
friend BLAZE_DEVICE_CALLABLE const ConstIterator operator-(const ConstIterator &it, size_t dec)
Subtraction between a ConstIterator and an integral value.
Definition: DMatDMatSchurExpr.h:429
BLAZE_DEVICE_CALLABLE const ConstIterator operator++(int)
Post-increment operator.
Definition: DMatDMatSchurExpr.h:274
BLAZE_DEVICE_CALLABLE bool operator==(const ConstIterator &rhs) const
Equality comparison between two ConstIterator objects.
Definition: DMatDMatSchurExpr.h:327
BLAZE_DEVICE_CALLABLE const ConstIterator operator--(int)
Post-decrement operator.
Definition: DMatDMatSchurExpr.h:296
Expression object for dense matrix-dense matrix Schur products.
Definition: DMatDMatSchurExpr.h:108
static constexpr size_t SIMDSIZE
The number of elements packed within a single SIMD element.
Definition: DMatDMatSchurExpr.h:453
CompositeType_t< MT2 > CT2
Composite type of the right-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:116
static constexpr bool returnExpr
Compilation switch for the selection of the subscript operator return type.
Definition: DMatDMatSchurExpr.h:128
ElementType_t< MT1 > ET1
Element type of the left-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:117
static constexpr bool smpAssignable
Compilation switch for the expression template assignment strategy.
Definition: DMatDMatSchurExpr.h:448
ReturnType at(size_t i, size_t j) const
Checked access to the matrix elements.
Definition: DMatDMatSchurExpr.h:493
static constexpr bool simdEnabled
Compilation switch for the expression template evaluation strategy.
Definition: DMatDMatSchurExpr.h:444
ReturnType operator()(size_t i, size_t j) const
2D-access to the matrix elements.
Definition: DMatDMatSchurExpr.h:478
LeftOperand lhs_
Left-hand side dense matrix of the Schur product expression.
Definition: DMatDMatSchurExpr.h:630
static constexpr bool useAssign
Compilation switch for the serial evaluation strategy of the Schur product expression.
Definition: DMatDMatSchurExpr.h:142
bool isAligned() const noexcept
Returns whether the operands of the expression are properly aligned in memory.
Definition: DMatDMatSchurExpr.h:612
DMatDMatSchurExpr(const MT1 &lhs, const MT2 &rhs) noexcept
Constructor for the DMatDMatSchurExpr class.
Definition: DMatDMatSchurExpr.h:462
ElementType_t< MT2 > ET2
Element type of the right-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:118
bool canSMPAssign() const noexcept
Returns whether the expression can be used in SMP assignments.
Definition: DMatDMatSchurExpr.h:622
ReturnType_t< MT1 > RN1
Return type of the left-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:113
bool isAliased(const T *alias) const noexcept
Returns whether the expression is aliased with the given address alias.
Definition: DMatDMatSchurExpr.h:602
OppositeType_t< ResultType > OppositeType
Result type with opposite storage order for expression template evaluations.
Definition: DMatDMatSchurExpr.h:175
LeftOperand leftOperand() const noexcept
Returns the left-hand side dense matrix operand.
Definition: DMatDMatSchurExpr.h:567
size_t rows() const noexcept
Returns the current number of rows of the matrix.
Definition: DMatDMatSchurExpr.h:547
ConstIterator begin(size_t i) const
Returns an iterator to the first non-zero element of row/column i.
Definition: DMatDMatSchurExpr.h:526
ElementType_t< ResultType > ElementType
Resulting element type.
Definition: DMatDMatSchurExpr.h:177
BLAZE_ALWAYS_INLINE auto load(size_t i, size_t j) const noexcept
Access to the SIMD elements of the matrix.
Definition: DMatDMatSchurExpr.h:511
size_t columns() const noexcept
Returns the current number of columns of the matrix.
Definition: DMatDMatSchurExpr.h:557
If_t< IsExpression_v< MT1 >, const MT1, const MT1 & > LeftOperand
Composite type of the left-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:186
const If_t< returnExpr, ExprReturnType, ElementType > ReturnType
Return type for expression template evaluations.
Definition: DMatDMatSchurExpr.h:180
RightOperand rightOperand() const noexcept
Returns the right-hand side dense matrix operand.
Definition: DMatDMatSchurExpr.h:577
SchurTrait_t< RT1, RT2 > ResultType
Result type for expression template evaluations.
Definition: DMatDMatSchurExpr.h:174
bool canAlias(const T *alias) const noexcept
Returns whether the expression can alias with the given address alias.
Definition: DMatDMatSchurExpr.h:589
ResultType_t< MT2 > RT2
Result type of the right-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:112
ConstIterator end(size_t i) const
Returns an iterator just past the last non-zero element of row/column i.
Definition: DMatDMatSchurExpr.h:537
TransposeType_t< ResultType > TransposeType
Transpose type for expression template evaluations.
Definition: DMatDMatSchurExpr.h:176
CompositeType_t< MT1 > CT1
Composite type of the left-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:115
If_t< useAssign, const ResultType, const DMatDMatSchurExpr & > CompositeType
Data type for composite expression templates.
Definition: DMatDMatSchurExpr.h:183
If_t< IsExpression_v< MT2 >, const MT2, const MT2 & > RightOperand
Composite type of the right-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:189
ResultType_t< MT1 > RT1
Result type of the left-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:111
decltype(std::declval< RN1 >() *std::declval< RN2 >()) ExprReturnType
Expression return type for the subscript operator.
Definition: DMatDMatSchurExpr.h:131
ReturnType_t< MT2 > RN2
Return type of the right-hand side dense matrix expression.
Definition: DMatDMatSchurExpr.h:114
RightOperand rhs_
Right-hand side dense matrix of the Schur product expression.
Definition: DMatDMatSchurExpr.h:631
Base class for dense matrices.
Definition: DenseMatrix.h:82
SIMD characteristics of data types.
Definition: SIMDTrait.h:297
Constraint on the data type.
Constraint on the data type.
Constraint on the data type.
Header file for the Computation base class.
Header file for the DenseMatrix base class.
Header file for the SchurExpr base class.
decltype(auto) serial(const DenseMatrix< MT, SO > &dm)
Forces the serial evaluation of the given dense matrix expression dm.
Definition: DMatSerialExpr.h:812
#define BLAZE_CONSTRAINT_MATRICES_MUST_HAVE_SAME_STORAGE_ORDER(T1, T2)
Constraint on the data type.
Definition: StorageOrder.h:84
#define BLAZE_CONSTRAINT_MUST_NOT_REQUIRE_EVALUATION(T)
Constraint on the data type.
Definition: RequiresEvaluation.h:81
#define BLAZE_CONSTRAINT_MUST_BE_DENSE_MATRIX_TYPE(T)
Constraint on the data type.
Definition: DenseMatrix.h:61
#define BLAZE_CONSTRAINT_MUST_BE_IDENTITY_MATRIX_TYPE(T)
Constraint on the data type.
Definition: Identity.h:60
#define BLAZE_CONSTRAINT_MUST_FORM_VALID_SCHUREXPR(T1, T2)
Constraint on the data type.
Definition: SchurExpr.h:103
#define BLAZE_CONSTRAINT_MUST_BE_ZERO_TYPE(T)
Constraint on the data type.
Definition: Zero.h:61
#define BLAZE_CONSTRAINT_MUST_BE_MATRIX_WITH_STORAGE_ORDER(T, SO)
Constraint on the data type.
Definition: StorageOrder.h:63
typename SchurTrait< T1, T2 >::Type SchurTrait_t
Auxiliary alias declaration for the SchurTrait class template.
Definition: SchurTrait.h:137
bool isSame(const Matrix< MT1, SO1 > &a, const Matrix< MT2, SO2 > &b) noexcept
Returns whether the two given matrices represent the same observable state.
Definition: Matrix.h:1424
#define BLAZE_INTERNAL_ASSERT(expr, msg)
Run time assertion macro for internal checks.
Definition: Assert.h:101
auto smpSubAssign(Matrix< MT1, SO1 > &lhs, const Matrix< MT2, SO2 > &rhs) -> EnableIf_t< IsDenseMatrix_v< MT1 > >
Default implementation of the SMP subtraction assignment of a matrix to dense matrix.
Definition: DenseMatrix.h:162
auto smpAssign(Matrix< MT1, SO1 > &lhs, const Matrix< MT2, SO2 > &rhs) -> EnableIf_t< IsDenseMatrix_v< MT1 > >
Default implementation of the SMP assignment of a matrix to a dense matrix.
Definition: DenseMatrix.h:100
auto smpSchurAssign(Matrix< MT1, SO1 > &lhs, const Matrix< MT2, SO2 > &rhs) -> EnableIf_t< IsDenseMatrix_v< MT1 > >
Default implementation of the SMP Schur product assignment of a matrix to dense matrix.
Definition: DenseMatrix.h:194
auto smpAddAssign(Matrix< MT1, SO1 > &lhs, const Matrix< MT2, SO2 > &rhs) -> EnableIf_t< IsDenseMatrix_v< MT1 > >
Default implementation of the SMP addition assignment of a matrix to a dense matrix.
Definition: DenseMatrix.h:131
#define BLAZE_ALWAYS_INLINE
Platform dependent setup of an enforced inline keyword.
Definition: Inline.h:85
#define BLAZE_DEVICE_CALLABLE
Conditional macro that sets host and device attributes when compiled with CUDA.
Definition: HostDevice.h:94
typename EnableIf< Condition, T >::Type EnableIf_t
Auxiliary type for the EnableIf class template.
Definition: EnableIf.h:138
constexpr void MAYBE_UNUSED(const Args &...)
Suppression of unused parameter warnings.
Definition: MaybeUnused.h:81
typename If< Condition >::template Type< T1, T2 > If_t
Auxiliary alias template for the If class template.
Definition: If.h:108
IntegralConstant< bool, B > BoolConstant
Generic wrapper for a compile time constant boolean value.
Definition: IntegralConstant.h:110
#define BLAZE_THROW_OUT_OF_RANGE(MESSAGE)
Macro for the emission of a std::out_of_range exception.
Definition: Exception.h:331
#define BLAZE_THROW_INVALID_ARGUMENT(MESSAGE)
Macro for the emission of a std::invalid_argument exception.
Definition: Exception.h:235
typename EnableIf<!Condition, T >::Type DisableIf_t
Auxiliary type for the EnableIf class template.
Definition: EnableIf.h:175
#define BLAZE_FUNCTION_TRACE
Function trace macro.
Definition: FunctionTrace.h:94
Header file for the exception macros of the math module.
Constraints on the storage order of matrix types.
Header file for all forward declarations for expression class templates.
Header file for all forward declarations for sparse vectors and matrices.
Header file for the serial shim.
Base class for all compute expression templates.
Definition: Computation.h:68
Base class for all Schur product expression templates.
Definition: SchurExpr.h:68
System settings for the inline keywords.
Header file for the thresholds for matrix/vector and matrix/matrix multiplications.
Header file for the RequiresEvaluation type trait.
Header file for basic type definitions.