Blaze 3.9
DVecSVecSubExpr.h
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1//=================================================================================================
33//=================================================================================================
34
35#ifndef _BLAZE_MATH_EXPRESSIONS_DVECSVECSUBEXPR_H_
36#define _BLAZE_MATH_EXPRESSIONS_DVECSVECSUBEXPR_H_
37
38
39//*************************************************************************************************
40// Includes
41//*************************************************************************************************
42
43#include <utility>
44#include <blaze/math/Aliases.h>
62#include <blaze/util/Assert.h>
63#include <blaze/util/EnableIf.h>
66#include <blaze/util/mpl/If.h>
67#include <blaze/util/Types.h>
69
70
71namespace blaze {
72
73//=================================================================================================
74//
75// CLASS DVECSVECSUBEXPR
76//
77//=================================================================================================
78
79//*************************************************************************************************
86template< typename VT1 // Type of the left-hand side dense vector
87 , typename VT2 // Type of the right-hand side sparse vector
88 , bool TF > // Transpose flag
90 : public VecVecSubExpr< DenseVector< DVecSVecSubExpr<VT1,VT2,TF>, TF > >
91 , private Computation
92{
93 private:
94 //**Type definitions****************************************************************************
103 //**********************************************************************************************
104
105 //**Return type evaluation**********************************************************************
107
112 static constexpr bool returnExpr = !IsTemporary_v<RN1> && !IsTemporary_v<RN2>;
113
115 using ExprReturnType = decltype( std::declval<RN1>() - std::declval<RN2>() );
116 //**********************************************************************************************
117
118 //**Parallel evaluation strategy****************************************************************
120
125 template< typename VT >
126 static constexpr bool UseSMPAssign_v = ( !VT1::smpAssignable || !VT2::smpAssignable );
128 //**********************************************************************************************
129
130 public:
131 //**Type definitions****************************************************************************
134
137
141
144
147
149 using LeftOperand = If_t< IsExpression_v<VT1>, const VT1, const VT1& >;
150
152 using RightOperand = If_t< IsExpression_v<VT2>, const VT2, const VT2& >;
153 //**********************************************************************************************
154
155 //**Compilation flags***************************************************************************
157 static constexpr bool simdEnabled = false;
158
160 static constexpr bool smpAssignable = false;
161 //**********************************************************************************************
162
163 //**Constructor*********************************************************************************
169 inline DVecSVecSubExpr( const VT1& lhs, const VT2& rhs ) noexcept
170 : lhs_( lhs ) // Left-hand side dense vector of the subtraction expression
171 , rhs_( rhs ) // Right-hand side sparse vector of the subtraction expression
172 {
173 BLAZE_INTERNAL_ASSERT( lhs.size() == rhs.size(), "Invalid vector sizes" );
174 }
175 //**********************************************************************************************
176
177 //**Subscript operator**************************************************************************
183 inline ReturnType operator[]( size_t index ) const {
184 BLAZE_INTERNAL_ASSERT( index < lhs_.size(), "Invalid vector access index" );
185 return lhs_[index] - rhs_[index];
186 }
187 //**********************************************************************************************
188
189 //**At function*********************************************************************************
196 inline ReturnType at( size_t index ) const {
197 if( index >= lhs_.size() ) {
198 BLAZE_THROW_OUT_OF_RANGE( "Invalid vector access index" );
199 }
200 return (*this)[index];
201 }
202 //**********************************************************************************************
203
204 //**Size function*******************************************************************************
209 inline size_t size() const noexcept {
210 return lhs_.size();
211 }
212 //**********************************************************************************************
213
214 //**Left operand access*************************************************************************
219 inline LeftOperand leftOperand() const noexcept {
220 return lhs_;
221 }
222 //**********************************************************************************************
223
224 //**Right operand access************************************************************************
229 inline RightOperand rightOperand() const noexcept {
230 return rhs_;
231 }
232 //**********************************************************************************************
233
234 //**********************************************************************************************
240 template< typename T >
241 inline bool canAlias( const T* alias ) const noexcept {
242 return ( IsExpression_v<VT1> && lhs_.canAlias( alias ) ) ||
243 ( rhs_.canAlias( alias ) );
244 }
245 //**********************************************************************************************
246
247 //**********************************************************************************************
253 template< typename T >
254 inline bool isAliased( const T* alias ) const noexcept {
255 return ( lhs_.isAliased( alias ) || rhs_.isAliased( alias ) );
256 }
257 //**********************************************************************************************
258
259 private:
260 //**Member variables****************************************************************************
263 //**********************************************************************************************
264
265 //**Assignment to dense vectors*****************************************************************
277 template< typename VT > // Type of the target dense vector
278 friend inline void assign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
279 {
281
282 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
283
284 if( !IsComputation_v<VT1> && isSame( *lhs, rhs.lhs_ ) ) {
285 subAssign( *lhs, rhs.rhs_ );
286 }
287 else {
288 assign ( *lhs, rhs.lhs_ );
289 subAssign( *lhs, rhs.rhs_ );
290 }
291 }
293 //**********************************************************************************************
294
295 //**Assignment to sparse vectors****************************************************************
307 template< typename VT > // Type of the target sparse vector
308 friend inline void assign( SparseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
309 {
311
315
316 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
317
318 const ResultType tmp( serial( rhs ) );
319 assign( *lhs, tmp );
320 }
322 //**********************************************************************************************
323
324 //**Addition assignment to dense vectors********************************************************
336 template< typename VT > // Type of the target dense vector
337 friend inline void addAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
338 {
340
341 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
342
343 addAssign( *lhs, rhs.lhs_ );
344 subAssign( *lhs, rhs.rhs_ );
345 }
347 //**********************************************************************************************
348
349 //**Addition assignment to sparse vectors*******************************************************
350 // No special implementation for the addition assignment to sparse vectors.
351 //**********************************************************************************************
352
353 //**Subtraction assignment to dense vectors*****************************************************
365 template< typename VT > // Type of the target dense vector
366 friend inline void subAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
367 {
369
370 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
371
372 subAssign( *lhs, rhs.lhs_ );
373 addAssign( *lhs, rhs.rhs_ );
374 }
376 //**********************************************************************************************
377
378 //**Subtraction assignment to sparse vectors****************************************************
379 // No special implementation for the subtraction assignment to sparse vectors.
380 //**********************************************************************************************
381
382 //**Multiplication assignment to dense vectors**************************************************
394 template< typename VT > // Type of the target dense vector
395 friend inline void multAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
396 {
398
402
403 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
404
405 const ResultType tmp( serial( rhs ) );
406 multAssign( *lhs, tmp );
407 }
409 //**********************************************************************************************
410
411 //**Multiplication assignment to sparse vectors*************************************************
412 // No special implementation for the multiplication assignment to sparse vectors.
413 //**********************************************************************************************
414
415 //**Division assignment to dense vectors********************************************************
427 template< typename VT > // Type of the target dense vector
428 friend inline void divAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
429 {
431
435
436 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
437
438 const ResultType tmp( serial( rhs ) );
439 divAssign( *lhs, tmp );
440 }
442 //**********************************************************************************************
443
444 //**Division assignment to sparse vectors*******************************************************
445 // No special implementation for the division assignment to sparse vectors.
446 //**********************************************************************************************
447
448 //**SMP assignment to dense vectors*************************************************************
462 template< typename VT > // Type of the target dense vector
463 friend inline auto smpAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
464 -> EnableIf_t< UseSMPAssign_v<VT> >
465 {
467
468 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
469
470 if( !IsComputation_v<VT1> && isSame( *lhs, rhs.lhs_ ) ) {
471 smpSubAssign( *lhs, rhs.rhs_ );
472 }
473 else {
474 smpAssign ( *lhs, rhs.lhs_ );
475 smpSubAssign( *lhs, rhs.rhs_ );
476 }
477 }
479 //**********************************************************************************************
480
481 //**SMP assignment to sparse vectors************************************************************
495 template< typename VT > // Type of the target sparse vector
496 friend inline auto smpAssign( SparseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
497 -> EnableIf_t< UseSMPAssign_v<VT> >
498 {
500
504
505 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
506
507 const ResultType tmp( rhs );
508 smpAssign( *lhs, tmp );
509 }
511 //**********************************************************************************************
512
513 //**SMP addition assignment to dense vectors****************************************************
527 template< typename VT > // Type of the target dense vector
528 friend inline auto smpAddAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
529 -> EnableIf_t< UseSMPAssign_v<VT> >
530 {
532
533 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
534
535 smpAddAssign( *lhs, rhs.lhs_ );
536 smpSubAssign( *lhs, rhs.rhs_ );
537 }
539 //**********************************************************************************************
540
541 //**SMP addition assignment to sparse vectors***************************************************
542 // No special implementation for the SMP addition assignment to sparse vectors.
543 //**********************************************************************************************
544
545 //**SMP subtraction assignment to dense vectors*************************************************
560 template< typename VT > // Type of the target dense vector
561 friend inline auto smpSubAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
562 -> EnableIf_t< UseSMPAssign_v<VT> >
563 {
565
566 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
567
568 smpSubAssign( *lhs, rhs.lhs_ );
569 smpAddAssign( *lhs, rhs.rhs_ );
570 }
572 //**********************************************************************************************
573
574 //**SMP subtraction assignment to sparse vectors************************************************
575 // No special implementation for the SMP subtraction assignment to sparse vectors.
576 //**********************************************************************************************
577
578 //**SMP multiplication assignment to dense vectors**********************************************
593 template< typename VT > // Type of the target dense vector
594 friend inline auto smpMultAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
595 -> EnableIf_t< UseSMPAssign_v<VT> >
596 {
598
602
603 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
604
605 const ResultType tmp( rhs );
606 smpMultAssign( *lhs, tmp );
607 }
609 //**********************************************************************************************
610
611 //**SMP multiplication assignment to sparse vectors*********************************************
612 // No special implementation for the SMP multiplication assignment to sparse vectors.
613 //**********************************************************************************************
614
615 //**SMP division assignment to dense vectors****************************************************
629 template< typename VT > // Type of the target dense vector
630 friend inline auto smpDivAssign( DenseVector<VT,TF>& lhs, const DVecSVecSubExpr& rhs )
631 -> EnableIf_t< UseSMPAssign_v<VT> >
632 {
634
638
639 BLAZE_INTERNAL_ASSERT( (*lhs).size() == rhs.size(), "Invalid vector sizes" );
640
641 const ResultType tmp( rhs );
642 smpDivAssign( *lhs, tmp );
643 }
645 //**********************************************************************************************
646
647 //**SMP division assignment to sparse vectors***************************************************
648 // No special implementation for the SMP divisor assignment to sparse vectors.
649 //**********************************************************************************************
650
651 //**Compile time checks*************************************************************************
659 //**********************************************************************************************
660};
661//*************************************************************************************************
662
663
664
665
666//=================================================================================================
667//
668// GLOBAL BINARY ARITHMETIC OPERATORS
669//
670//=================================================================================================
671
672//*************************************************************************************************
685template< typename VT1 // Type of the left-hand side dense vector
686 , typename VT2 // Type of the right-hand side sparse vector
687 , bool TF // Transpose flag
688 , DisableIf_t< IsZero_v<VT2> &&
689 IsSame_v< ElementType_t<VT1>, ElementType_t<VT2> > >* = nullptr >
690inline const DVecSVecSubExpr<VT1,VT2,TF>
691 dvecsvecsub( const DenseVector<VT1,TF>& lhs, const SparseVector<VT2,TF>& rhs )
692{
694
695 BLAZE_INTERNAL_ASSERT( (*lhs).size() == (*rhs).size(), "Invalid vector sizes" );
696
697 return DVecSVecSubExpr<VT1,VT2,TF>( *lhs, *rhs );
698}
700//*************************************************************************************************
701
702
703//*************************************************************************************************
716template< typename VT1 // Type of the left-hand side dense vector
717 , typename VT2 // Type of the right-hand side sparse vector
718 , bool TF // Transpose flag
719 , EnableIf_t< IsZero_v<VT2> &&
720 IsSame_v< ElementType_t<VT1>, ElementType_t<VT2> > >* = nullptr >
721inline const VT1&
722 dvecsvecsub( const DenseVector<VT1,TF>& lhs, const SparseVector<VT2,TF>& rhs )
723{
725
726 MAYBE_UNUSED( rhs );
727
728 BLAZE_INTERNAL_ASSERT( (*lhs).size() == (*rhs).size(), "Invalid vector sizes" );
729
730 return (*lhs);
731}
733//*************************************************************************************************
734
735
736//*************************************************************************************************
762template< typename VT1 // Type of the left-hand side dense vector
763 , typename VT2 // Type of the right-hand side sparse vector
764 , bool TF > // Transpose flag
765inline decltype(auto)
766 operator-( const DenseVector<VT1,TF>& lhs, const SparseVector<VT2,TF>& rhs )
767{
769
770 if( (*lhs).size() != (*rhs).size() ) {
771 BLAZE_THROW_INVALID_ARGUMENT( "Vector sizes do not match" );
772 }
773
774 return dvecsvecsub( *lhs, *rhs );
775}
776//*************************************************************************************************
777
778
779
780
781//=================================================================================================
782//
783// GLOBAL RESTRUCTURING BINARY ARITHMETIC OPERATORS
784//
785//=================================================================================================
786
787//*************************************************************************************************
800template< typename VT1 // Type of the dense vector of the left-hand side expression
801 , typename VT2 // Type of the sparse vector of the left-hand side expression
802 , bool TF // Transpose flag of the left-hand side expression
803 , typename VT3 > // Type of the right-hand side dense vector
804inline decltype(auto)
805 operator+( const DVecSVecSubExpr<VT1,VT2,TF>& lhs, const DenseVector<VT3,TF>& rhs )
806{
808
809 return ( lhs.leftOperand() + (*rhs) ) - lhs.rightOperand();
810}
812//*************************************************************************************************
813
814
815//*************************************************************************************************
828template< typename VT1 // Type of the dense vector of the left-hand side expression
829 , typename VT2 // Type of the sparse vector of the left-hand side expression
830 , bool TF // Transpose flag of the left-hand side expression
831 , typename VT3 > // Type of the right-hand side dense vector
832inline decltype(auto)
833 operator-( const DVecSVecSubExpr<VT1,VT2,TF>& lhs, const DenseVector<VT3,TF>& rhs )
834{
836
837 return ( lhs.leftOperand() - (*rhs) ) - lhs.rightOperand();
838}
840//*************************************************************************************************
841
842} // namespace blaze
843
844#endif
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::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 If class template.
Header file for the IsComputation type trait class.
Header file for the IsExpression type trait class.
Header file for the IsSame and IsStrictlySame type traits.
Header file for the IsTemporary type trait class.
Deactivation of problematic macros.
Header file for the MAYBE_UNUSED function template.
Header file for the subtraction trait.
Expression object for dense vector-sparse vector subtractions.
Definition: DVecSVecSubExpr.h:92
decltype(std::declval< RN1 >() - std::declval< RN2 >()) ExprReturnType
Expression return type for the subscript operator.
Definition: DVecSVecSubExpr.h:115
const If_t< returnExpr, ExprReturnType, ElementType > ReturnType
Return type for expression template evaluations.
Definition: DVecSVecSubExpr.h:143
If_t< IsExpression_v< VT2 >, const VT2, const VT2 & > RightOperand
Composite type of the right-hand side sparse vector expression.
Definition: DVecSVecSubExpr.h:152
LeftOperand lhs_
Left-hand side dense vector of the subtraction expression.
Definition: DVecSVecSubExpr.h:261
TransposeType_t< VT2 > TT2
Transpose type of the right-hand side sparse vector expression.
Definition: DVecSVecSubExpr.h:102
ReturnType_t< VT1 > RN1
Return type of the left-hand side dense vector expression.
Definition: DVecSVecSubExpr.h:97
ResultType_t< VT1 > RT1
Result type of the left-hand side dense vector expression.
Definition: DVecSVecSubExpr.h:95
ElementType_t< ResultType > ElementType
Resulting element type.
Definition: DVecSVecSubExpr.h:140
static constexpr bool returnExpr
Compilation switch for the selection of the subscript operator return type.
Definition: DVecSVecSubExpr.h:112
CompositeType_t< VT1 > CT1
Composite type of the left-hand side dense vector expression.
Definition: DVecSVecSubExpr.h:99
ReturnType operator[](size_t index) const
Subscript operator for the direct access to the vector elements.
Definition: DVecSVecSubExpr.h:183
RightOperand rightOperand() const noexcept
Returns the right-hand side sparse vector operand.
Definition: DVecSVecSubExpr.h:229
static constexpr bool simdEnabled
Compilation switch for the expression template evaluation strategy.
Definition: DVecSVecSubExpr.h:157
bool isAliased(const T *alias) const noexcept
Returns whether the expression is aliased with the given address alias.
Definition: DVecSVecSubExpr.h:254
size_t size() const noexcept
Returns the current size/dimension of the vector.
Definition: DVecSVecSubExpr.h:209
TransposeType_t< ResultType > TransposeType
Transpose type for expression template evaluations.
Definition: DVecSVecSubExpr.h:139
static constexpr bool smpAssignable
Compilation switch for the expression template assignment strategy.
Definition: DVecSVecSubExpr.h:160
TransposeType_t< VT1 > TT1
Transpose type of the left-hand side dense vector expression.
Definition: DVecSVecSubExpr.h:101
bool canAlias(const T *alias) const noexcept
Returns whether the expression can alias with the given address alias.
Definition: DVecSVecSubExpr.h:241
LeftOperand leftOperand() const noexcept
Returns the left-hand side dense vector operand.
Definition: DVecSVecSubExpr.h:219
RightOperand rhs_
Right-hand side sparse vector of the subtraction expression.
Definition: DVecSVecSubExpr.h:262
ReturnType_t< VT2 > RN2
Return type of the right-hand side sparse vector expression.
Definition: DVecSVecSubExpr.h:98
ResultType_t< VT2 > RT2
Result type of the right-hand side sparse vector expression.
Definition: DVecSVecSubExpr.h:96
CompositeType_t< VT2 > CT2
Composite type of the right-hand side sparse vector expression.
Definition: DVecSVecSubExpr.h:100
If_t< IsExpression_v< VT1 >, const VT1, const VT1 & > LeftOperand
Composite type of the left-hand side dense vector expression.
Definition: DVecSVecSubExpr.h:149
SubTrait_t< RT1, RT2 > ResultType
Result type for expression template evaluations.
Definition: DVecSVecSubExpr.h:138
ReturnType at(size_t index) const
Checked access to the vector elements.
Definition: DVecSVecSubExpr.h:196
DVecSVecSubExpr(const VT1 &lhs, const VT2 &rhs) noexcept
Constructor for the DVecSVecSubExpr class.
Definition: DVecSVecSubExpr.h:169
const ResultType CompositeType
Data type for composite expression templates.
Definition: DVecSVecSubExpr.h:146
Base class for N-dimensional dense vectors.
Definition: DenseVector.h:77
Base class for sparse vectors.
Definition: SparseVector.h:72
Constraint on the data type.
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 DenseVector base class.
Header file for the VecVecSubExpr 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_MUST_NOT_REQUIRE_EVALUATION(T)
Constraint on the data type.
Definition: RequiresEvaluation.h:81
#define BLAZE_CONSTRAINT_MUST_BE_VECTOR_WITH_TRANSPOSE_FLAG(T, TF)
Constraint on the data type.
Definition: TransposeFlag.h:63
#define BLAZE_CONSTRAINT_MUST_FORM_VALID_VECVECSUBEXPR(T1, T2)
Constraint on the data type.
Definition: VecVecSubExpr.h:104
#define BLAZE_CONSTRAINT_MUST_BE_SPARSE_VECTOR_TYPE(T)
Constraint on the data type.
Definition: SparseVector.h:61
#define BLAZE_CONSTRAINT_MUST_BE_DENSE_VECTOR_TYPE(T)
Constraint on the data type.
Definition: DenseVector.h:61
typename SubTrait< T1, T2 >::Type SubTrait_t
Auxiliary alias declaration for the SubTrait class template.
Definition: SubTrait.h:163
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 smpDivAssign(Vector< VT1, TF1 > &lhs, const Vector< VT2, TF2 > &rhs) -> EnableIf_t< IsDenseVector_v< VT1 > >
Default implementation of the SMP division assignment of a vector to a dense vector.
Definition: DenseVector.h:221
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 smpMultAssign(Vector< VT1, TF1 > &lhs, const Vector< VT2, TF2 > &rhs) -> EnableIf_t< IsDenseVector_v< VT1 > >
Default implementation of the SMP multiplication assignment of a vector to a dense vector.
Definition: DenseVector.h:192
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
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
#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
#define BLAZE_FUNCTION_TRACE
Function trace macro.
Definition: FunctionTrace.h:94
Header file for the exception macros of the math module.
Constraint on the data type.
Header file for all forward declarations for expression class templates.
Header file for the serial shim.
Base class for all compute expression templates.
Definition: Computation.h:68
Base class for all vector/vector subtraction expression templates.
Definition: VecVecSubExpr.h:68
Header file for the IsZero type trait.
Header file for basic type definitions.