35#ifndef _BLAZE_MATH_EXPRESSIONS_DMATMAPEXPR_H_
36#define _BLAZE_MATH_EXPRESSIONS_DMATMAPEXPR_H_
105 :
public MatMapExpr< DenseMatrix< DMatMapExpr<MT,OP,SO>, SO > >
124 static constexpr bool useAssign = ( IsComputation_v<MT> && RequiresEvaluation_v<MT> );
128 template<
typename MT2 >
129 static constexpr bool UseAssign_v =
useAssign;
141 template<
typename MT2 >
142 static constexpr bool UseSMPAssign_v =
143 ( ( !MT2::smpAssignable || !MT::smpAssignable ) &&
useAssign );
161 using ReturnType =
decltype( std::declval<OP>()( std::declval<RN>() ) );
205 ,
op_( std::move(op) )
290 inline auto load() const noexcept {
291 return op_.load(
it_.load() );
439 ,
op_( std::move(op) )
466 if( i >=
dm_.rows() ) {
469 if( j >=
dm_.columns() ) {
488 return op_.load(
dm_.load(i,j) );
519 inline size_t rows() const noexcept {
530 return dm_.columns();
560 template<
typename T >
561 inline bool canAlias(
const T* alias )
const noexcept {
562 return IsExpression_v<MT> &&
dm_.canAlias( alias );
572 template<
typename T >
573 inline bool isAliased(
const T* alias )
const noexcept {
574 return dm_.isAliased( alias );
584 return dm_.isAligned();
594 return dm_.canSMPAssign();
619 template<
typename MT2
630 assign( *lhs, rhs.dm_ );
631 assign( *lhs,
map( *lhs, rhs.op_ ) );
651 template<
typename MT2
667 assign( *lhs,
map( tmp, rhs.op_ ) );
686 template<
typename MT2
688 friend inline auto assign( SparseMatrix<MT2,SO2>& lhs,
const DMatMapExpr& rhs )
689 -> EnableIf_t< UseAssign_v<MT2> >
693 using TmpType = If_t< SO == SO2, RT, OT >;
705 const TmpType tmp(
serial( rhs.dm_ ) );
706 assign( *lhs,
map( tmp, rhs.op_ ) );
725 template<
typename MT2
727 friend inline auto addAssign( DenseMatrix<MT2,SO2>& lhs,
const DMatMapExpr& rhs )
728 -> EnableIf_t< UseAssign_v<MT2> >
740 addAssign( *lhs,
map( tmp, rhs.op_ ) );
763 template<
typename MT2
765 friend inline auto subAssign( DenseMatrix<MT2,SO2>& lhs,
const DMatMapExpr& rhs )
766 -> EnableIf_t< UseAssign_v<MT2> >
778 subAssign( *lhs,
map( tmp, rhs.op_ ) );
801 template<
typename MT2
803 friend inline auto schurAssign( DenseMatrix<MT2,SO2>& lhs,
const DMatMapExpr& rhs )
804 -> EnableIf_t< UseAssign_v<MT2> >
816 schurAssign( *lhs,
map( tmp, rhs.op_ ) );
848 template<
typename MT2
851 -> EnableIf_t< UseSMPAssign_v<MT2> &&
852 IsSame_v< UnderlyingScalar_t<MT>, UnderlyingScalar_t<MT2> > >
880 template<
typename MT2
883 -> EnableIf_t< UseSMPAssign_v<MT2> &&
884 !IsSame_v< UnderlyingScalar_t<MT>, UnderlyingScalar_t<MT2> > >
895 const RT tmp( rhs.dm_ );
915 template<
typename MT2
918 -> EnableIf_t< UseSMPAssign_v<MT2> >
922 using TmpType = If_t< SO == SO2, RT, OT >;
934 const TmpType tmp( rhs.dm_ );
954 template<
typename MT2
957 -> EnableIf_t< UseSMPAssign_v<MT2> >
968 const RT tmp( rhs.dm_ );
992 template<
typename MT2
995 -> EnableIf_t< UseSMPAssign_v<MT2> >
1006 const RT tmp( rhs.dm_ );
1030 template<
typename MT2
1033 -> EnableIf_t< UseSMPAssign_v<MT2> >
1044 const RT tmp( rhs.dm_ );
1098template<
typename MT
1106 return ReturnType( *dm, std::move(op) );
1129template<
typename MT
1136 return map( *dm, std::move(op) );
1160template<
typename MT
1163 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
1194template<
typename ST
1197 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
1228template<
typename MT
1231 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
1262template<
typename ST
1265 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
1294template<
typename MT
1300 return map( *dm,
Abs() );
1322template<
typename MT
1350template<
typename MT
1378template<
typename MT
1406template<
typename MT
1434template<
typename MT
1462template<
typename MT
1499template<
typename MT
1527template<
typename MT
1555template<
typename MT
1583template<
typename MT
1589 return map( *dm,
Arg() );
1614template<
typename MT
1645template<
typename MT
1676template<
typename MT
1707template<
typename MT
1737template<
typename MT
1767template<
typename MT
1770 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
1799template<
typename MT
1805 return map( *dm,
Exp() );
1827template<
typename MT
1855template<
typename MT
1886template<
typename MT
1892 return map( *dm,
Log() );
1917template<
typename MT
1948template<
typename MT
1981template<
typename MT
2014template<
typename MT
2042template<
typename MT
2048 return map( *dm,
Sin() );
2073template<
typename MT
2101template<
typename MT
2129template<
typename MT
2157template<
typename MT
2163 return map( *dm,
Cos() );
2188template<
typename MT
2216template<
typename MT
2247template<
typename MT
2275template<
typename MT
2281 return map( *dm,
Tan() );
2303template<
typename MT
2334template<
typename MT
2365template<
typename MT
2393template<
typename MT
2399 return map( *dm,
Erf() );
2421template<
typename MT
2451template<
typename MT
2453inline decltype(
auto)
abs(
const DMatMapExpr<MT,Abs,SO>& dm )
2474template<
typename MT
2476inline decltype(
auto)
sign(
const DMatMapExpr<MT,Sign,SO>& dm )
2497template<
typename MT
2499inline decltype(
auto)
floor(
const DMatMapExpr<MT,Floor,SO>& dm )
2520template<
typename MT
2522inline decltype(
auto)
ceil(
const DMatMapExpr<MT,Ceil,SO>& dm )
2543template<
typename MT
2545inline decltype(
auto)
trunc(
const DMatMapExpr<MT,Trunc,SO>& dm )
2566template<
typename MT
2568inline decltype(
auto)
round(
const DMatMapExpr<MT,Round,SO>& dm )
2596template<
typename MT
2598inline decltype(
auto)
conj(
const DMatMapExpr<MT,Conj,SO>& dm )
2602 return dm.operand();
2626template<
typename MT
2628inline decltype(
auto)
conj(
const DMatTransExpr<DMatMapExpr<MT,Conj,SO>,!SO>& dm )
2632 return trans( dm.operand().operand() );
2649template<
typename MT
2651inline decltype(
auto)
real(
const DMatMapExpr<MT,Real,SO>& dm )
2690template<
typename MT
2693 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
2726template<
typename ST
2729 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
2763template<
typename MT
2766 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
2800template<
typename ST
2803 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
2836template<
typename ST
2839 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
2867template<
typename MT
2894template<
typename MT
2921template<
typename MT
2924 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
2950template<
typename MT
2953 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
2979template<
typename MT
2982 , EnableIf_t< IsScalar_v<ST> >* =
nullptr >
3015template<
typename MT
3021 return map( *mat,
Not{} );
3036template<
typename MT,
typename OP,
bool SO >
3037struct IsAligned< DMatMapExpr<MT,OP,SO> >
3038 :
public IsAligned<MT>
3054template<
typename MT,
typename OP,
bool SO >
3055struct IsPadded< DMatMapExpr<MT,OP,SO> >
3056 :
public BoolConstant< IsPadded_v<MT> && IsPaddingEnabled_v<OP> >
Header file for the addition trait.
Header file for auxiliary alias declarations.
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 division trait.
Header file for the EnableIf class template.
Header file for the function trace functionality.
Header file for all functors.
Header file for the HasLoad type trait.
Header file for the HasMember type traits.
Macro for CUDA compatibility.
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 IsBuiltin type trait.
Header file for the IsComputation type trait class.
Header file for the IsExpression type trait class.
Header file for the IsNumeric type trait.
Header file for the IsPadded type trait.
Header file for the IsPaddingEnabled type trait.
Header file for the IsSIMDEnabled type trait.
Header file for the IsSame and IsStrictlySame type traits.
Header file for the IsScalar type trait.
Header file for the map trait.
Header file for the multiplication trait.
Header file for all SIMD functionality.
Header file for the subtraction trait.
Header file for the UnderlyingScalar type trait.
Iterator over the elements of the dense matrix map expression.
Definition: DMatMapExpr.h:177
BLAZE_DEVICE_CALLABLE const ConstIterator operator++(int)
Post-increment operator.
Definition: DMatMapExpr.h:249
BLAZE_DEVICE_CALLABLE bool operator<=(const ConstIterator &rhs) const
Less-than comparison between two ConstIterator objects.
Definition: DMatMapExpr.h:345
PointerType pointer
Pointer return type.
Definition: DMatMapExpr.h:189
BLAZE_DEVICE_CALLABLE ConstIterator & operator-=(size_t dec)
Subtraction assignment operator.
Definition: DMatMapExpr.h:227
ConstIterator_t< MT > IteratorType
ConstIterator type of the dense matrix expression.
Definition: DMatMapExpr.h:194
ElementType & ReferenceType
Reference return type.
Definition: DMatMapExpr.h:183
friend BLAZE_DEVICE_CALLABLE const ConstIterator operator+(const ConstIterator &it, size_t inc)
Addition between a ConstIterator and an integral value.
Definition: DMatMapExpr.h:379
auto load() const noexcept
Access to the SIMD elements of the matrix.
Definition: DMatMapExpr.h:290
ElementType ValueType
Type of the underlying elements.
Definition: DMatMapExpr.h:181
BLAZE_DEVICE_CALLABLE ConstIterator & operator++()
Pre-increment operator.
Definition: DMatMapExpr.h:238
BLAZE_DEVICE_CALLABLE bool operator==(const ConstIterator &rhs) const
Equality comparison between two ConstIterator objects.
Definition: DMatMapExpr.h:301
BLAZE_DEVICE_CALLABLE bool operator>=(const ConstIterator &rhs) const
Greater-than comparison between two ConstIterator objects.
Definition: DMatMapExpr.h:356
IteratorType it_
Iterator to the current matrix element.
Definition: DMatMapExpr.h:410
DifferenceType difference_type
Difference between two iterators.
Definition: DMatMapExpr.h:191
BLAZE_DEVICE_CALLABLE bool operator>(const ConstIterator &rhs) const
Greater-than comparison between two ConstIterator objects.
Definition: DMatMapExpr.h:334
std::random_access_iterator_tag IteratorCategory
The iterator category.
Definition: DMatMapExpr.h:180
BLAZE_DEVICE_CALLABLE ConstIterator & operator--()
Pre-decrement operator.
Definition: DMatMapExpr.h:259
ptrdiff_t DifferenceType
Difference between two iterators.
Definition: DMatMapExpr.h:184
BLAZE_DEVICE_CALLABLE bool operator!=(const ConstIterator &rhs) const
Inequality comparison between two ConstIterator objects.
Definition: DMatMapExpr.h:312
OP op_
The custom unary operation.
Definition: DMatMapExpr.h:411
friend BLAZE_DEVICE_CALLABLE const ConstIterator operator+(size_t inc, const ConstIterator &it)
Addition between an integral value and a ConstIterator.
Definition: DMatMapExpr.h:391
ElementType * PointerType
Pointer return type.
Definition: DMatMapExpr.h:182
ReferenceType reference
Reference return type.
Definition: DMatMapExpr.h:190
BLAZE_DEVICE_CALLABLE ReturnType operator*() const
Direct access to the element at the current iterator position.
Definition: DMatMapExpr.h:280
BLAZE_DEVICE_CALLABLE ConstIterator & operator+=(size_t inc)
Addition assignment operator.
Definition: DMatMapExpr.h:215
ValueType value_type
Type of the underlying elements.
Definition: DMatMapExpr.h:188
IteratorCategory iterator_category
The iterator category.
Definition: DMatMapExpr.h:187
BLAZE_DEVICE_CALLABLE DifferenceType operator-(const ConstIterator &rhs) const
Calculating the number of elements between two iterators.
Definition: DMatMapExpr.h:367
BLAZE_DEVICE_CALLABLE bool operator<(const ConstIterator &rhs) const
Less-than comparison between two ConstIterator objects.
Definition: DMatMapExpr.h:323
BLAZE_DEVICE_CALLABLE ConstIterator(IteratorType it, OP op)
Constructor for the ConstIterator class.
Definition: DMatMapExpr.h:203
friend BLAZE_DEVICE_CALLABLE const ConstIterator operator-(const ConstIterator &it, size_t dec)
Subtraction between a ConstIterator and an integral value.
Definition: DMatMapExpr.h:403
BLAZE_DEVICE_CALLABLE const ConstIterator operator--(int)
Post-decrement operator.
Definition: DMatMapExpr.h:270
Expression object for the dense matrix map() function.
Definition: DMatMapExpr.h:107
ElementType_t< ResultType > ElementType
Resulting element type.
Definition: DMatMapExpr.h:158
ConstIterator begin(size_t i) const
Returns an iterator to the first non-zero element of row/column i.
Definition: DMatMapExpr.h:498
MapTrait_t< RT, OP > ResultType
Result type for expression template evaluations.
Definition: DMatMapExpr.h:155
bool canSMPAssign() const noexcept
Returns whether the expression can be used in SMP assignments.
Definition: DMatMapExpr.h:593
ElementType_t< MT > ET
Element type of the dense matrix expression.
Definition: DMatMapExpr.h:112
Operation operation() const
Returns a copy of the custom operation.
Definition: DMatMapExpr.h:549
ReturnType operator()(size_t i, size_t j) const noexcept
2D-access to the matrix elements.
Definition: DMatMapExpr.h:450
static constexpr bool smpAssignable
Compilation switch for the expression template assignment strategy.
Definition: DMatMapExpr.h:423
bool canAlias(const T *alias) const noexcept
Returns whether the expression can alias with the given address alias.
Definition: DMatMapExpr.h:561
static constexpr bool useAssign
Compilation switch for the serial evaluation strategy of the map expression.
Definition: DMatMapExpr.h:124
size_t rows() const noexcept
Returns the current number of rows of the matrix.
Definition: DMatMapExpr.h:519
Operand operand() const noexcept
Returns the dense matrix operand.
Definition: DMatMapExpr.h:539
bool isAliased(const T *alias) const noexcept
Returns whether the expression is aliased with the given address alias.
Definition: DMatMapExpr.h:573
decltype(std::declval< OP >()(std::declval< RN >())) ReturnType
Return type for expression template evaluations.
Definition: DMatMapExpr.h:161
OP Operation
Data type of the custom unary operation.
Definition: DMatMapExpr.h:170
bool isAligned() const noexcept
Returns whether the operands of the expression are properly aligned in memory.
Definition: DMatMapExpr.h:583
OppositeType_t< MT > OT
Opposite type of the dense matrix expression.
Definition: DMatMapExpr.h:111
Operation op_
The custom unary operation.
Definition: DMatMapExpr.h:601
If_t< IsExpression_v< MT >, const MT, const MT & > Operand
Composite data type of the dense matrix expression.
Definition: DMatMapExpr.h:167
OppositeType_t< ResultType > OppositeType
Result type with opposite storage order for expression template evaluations.
Definition: DMatMapExpr.h:156
ConstIterator end(size_t i) const
Returns an iterator just past the last non-zero element of row/column i.
Definition: DMatMapExpr.h:509
ReturnType_t< MT > RN
Return type of the dense matrix expression.
Definition: DMatMapExpr.h:113
BLAZE_ALWAYS_INLINE auto load(size_t i, size_t j) const noexcept
Access to the SIMD elements of the matrix.
Definition: DMatMapExpr.h:483
Operand dm_
Dense matrix of the map expression.
Definition: DMatMapExpr.h:600
If_t< useAssign, const ResultType, const DMatMapExpr & > CompositeType
Data type for composite expression templates.
Definition: DMatMapExpr.h:164
TransposeType_t< ResultType > TransposeType
Transpose type for expression template evaluations.
Definition: DMatMapExpr.h:157
static constexpr bool simdEnabled
Compilation switch for the expression template evaluation strategy.
Definition: DMatMapExpr.h:418
static constexpr size_t SIMDSIZE
The number of elements packed within a single SIMD element.
Definition: DMatMapExpr.h:428
size_t columns() const noexcept
Returns the current number of columns of the matrix.
Definition: DMatMapExpr.h:529
DMatMapExpr(const MT &dm, OP op) noexcept
Constructor for the DMatMapExpr class.
Definition: DMatMapExpr.h:437
ReturnType at(size_t i, size_t j) const
Checked access to the matrix elements.
Definition: DMatMapExpr.h:465
ResultType_t< MT > RT
Result type of the dense matrix expression.
Definition: DMatMapExpr.h:110
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.
Header file for the Computation base class.
Header file for the DenseMatrix base class.
Header file for the MatMapExpr base class.
decltype(auto) exp(const DenseMatrix< MT, SO > &dm)
Computes for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1801
decltype(auto) trunc(const DenseMatrix< MT, SO > &dm)
Applies the trunc() function to each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1408
decltype(auto) pow(const DenseMatrix< MT, SO > &dm, ST exp)
Computes the exponential value for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1771
decltype(auto) floor(const DenseMatrix< MT, SO > &dm)
Applies the floor() function to each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1352
decltype(auto) exp2(const DenseMatrix< MT, SO > &dm)
Computes for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1829
decltype(auto) sin(const DenseMatrix< MT, SO > &dm)
Computes the sine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2044
decltype(auto) cbrt(const DenseMatrix< MT, SO > &dm)
Computes the cubic root of each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1678
decltype(auto) log1p(const DenseMatrix< MT, SO > &dm)
Computes the natural logarithm of x+1 for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1983
decltype(auto) invsqrt(const DenseMatrix< MT, SO > &dm)
Computes the inverse square root of each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1647
decltype(auto) asinh(const DenseMatrix< MT, SO > &dm)
Computes the inverse hyperbolic sine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2131
decltype(auto) acosh(const DenseMatrix< MT, SO > &dm)
Computes the inverse hyperbolic cosine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2249
decltype(auto) log(const DenseMatrix< MT, SO > &dm)
Computes the natural logarithm for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1888
decltype(auto) invcbrt(const DenseMatrix< MT, SO > &dm)
Computes the inverse cubic root of each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1709
decltype(auto) real(const DenseMatrix< MT, SO > &dm)
Returns a matrix containing the real part of each single element of dm.
Definition: DMatMapExpr.h:1529
decltype(auto) conj(const DenseMatrix< MT, SO > &dm)
Returns a matrix containing the complex conjugate of each single element of dm.
Definition: DMatMapExpr.h:1464
decltype(auto) sinh(const DenseMatrix< MT, SO > &dm)
Computes the hyperbolic sine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2103
decltype(auto) acos(const DenseMatrix< MT, SO > &dm)
Computes the inverse cosine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2190
decltype(auto) exp10(const DenseMatrix< MT, SO > &dm)
Computes for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1857
decltype(auto) ctrans(const DenseMatrix< MT, SO > &dm)
Returns the conjugate transpose matrix of dm.
Definition: DMatMapExpr.h:1501
decltype(auto) max(ST scalar, const DenseMatrix< MT, SO > &dm)
Computes the componentwise maximum of a scalar and a dense matrix dm.
Definition: DMatMapExpr.h:1266
decltype(auto) atan(const DenseMatrix< MT, SO > &dm)
Computes the inverse tangent for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2305
decltype(auto) tanh(const DenseMatrix< MT, SO > &dm)
Computes the hyperbolic tangent for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2336
decltype(auto) cosh(const DenseMatrix< MT, SO > &dm)
Computes the hyperbolic cosine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2218
decltype(auto) arg(const DenseMatrix< MT, SO > &dm)
Returns a matrix containing the phase angle of each single element of dm.
Definition: DMatMapExpr.h:1585
decltype(auto) log2(const DenseMatrix< MT, SO > &dm)
Computes the binary logarithm for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1919
decltype(auto) forEach(const DenseMatrix< MT, SO > &dm, OP op)
Evaluates the given custom operation on each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1132
decltype(auto) abs(const DenseMatrix< MT, SO > &dm)
Applies the abs() function to each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1296
decltype(auto) ceil(const DenseMatrix< MT, SO > &dm)
Applies the ceil() function to each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1380
decltype(auto) clamp(const DenseMatrix< MT, SO > &dm, const DT &min, const DT &max)
Restricts each single element of the dense matrix dm to the range .
Definition: DMatMapExpr.h:1740
decltype(auto) asin(const DenseMatrix< MT, SO > &dm)
Computes the inverse sine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2075
decltype(auto) trans(const DenseMatrix< MT, SO > &dm)
Calculation of the transpose of the given dense matrix.
Definition: DMatTransExpr.h:766
decltype(auto) sign(const DenseMatrix< MT, SO > &dm)
Applies the sign() function to each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1324
decltype(auto) erfc(const DenseMatrix< MT, SO > &dm)
Computes the complementary error function for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2423
decltype(auto) log10(const DenseMatrix< MT, SO > &dm)
Computes the common logarithm for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1950
decltype(auto) serial(const DenseMatrix< MT, SO > &dm)
Forces the serial evaluation of the given dense matrix expression dm.
Definition: DMatSerialExpr.h:812
decltype(auto) map(const DenseMatrix< MT, SO > &dm, OP op)
Evaluates the given custom operation on each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1101
decltype(auto) round(const DenseMatrix< MT, SO > &dm)
Applies the round() function to each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1436
decltype(auto) atanh(const DenseMatrix< MT, SO > &dm)
Computes the inverse hyperbolic tangent for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2367
decltype(auto) cos(const DenseMatrix< MT, SO > &dm)
Computes the cosine for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2159
decltype(auto) erf(const DenseMatrix< MT, SO > &dm)
Computes the error function for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2395
decltype(auto) lgamma(const DenseMatrix< MT, SO > &dm)
Computes the natural logarithm of the absolute value of the gamma function for each single element of...
Definition: DMatMapExpr.h:2016
decltype(auto) imag(const DenseMatrix< MT, SO > &dm)
Returns a matrix containing the imaginary part of each single element of dm.
Definition: DMatMapExpr.h:1557
decltype(auto) tan(const DenseMatrix< MT, SO > &dm)
Computes the tangent for each single element of the dense matrix dm.
Definition: DMatMapExpr.h:2277
decltype(auto) sqrt(const DenseMatrix< MT, SO > &dm)
Computes the square root of each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1616
decltype(auto) min(ST scalar, const DenseMatrix< MT, SO > &dm)
Computes the componentwise minimum of a scalar and a dense matrix dm.
Definition: DMatMapExpr.h:1198
constexpr Bind1st< OP, A1 > bind1st(const OP &op, const A1 &a1)
Binds the given object/value to the 1st parameter of the given operation.
Definition: Bind1st.h:153
constexpr Bind3rd< OP, A3 > bind3rd(const OP &op, const A3 &a3)
Binds the given object/value to the 3rd parameter of the given operation.
Definition: Bind3rd.h:157
constexpr Bind2nd< OP, A2 > bind2nd(const OP &op, const A2 &a2)
Binds the given object/value to the 2nd parameter of the given operation.
Definition: Bind2nd.h:155
#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_MATRIX_WITH_STORAGE_ORDER(T, SO)
Constraint on the data type.
Definition: StorageOrder.h:63
typename DivTrait< T1, T2 >::Type DivTrait_t
Auxiliary alias declaration for the DivTrait class template.
Definition: DivTrait.h:164
typename MapTrait< Args... >::Type MapTrait_t
Auxiliary alias declaration for the MapTrait class template.
Definition: MapTrait.h:131
typename AddTrait< T1, T2 >::Type AddTrait_t
Auxiliary alias declaration for the AddTrait class template.
Definition: AddTrait.h:163
typename SubTrait< T1, T2 >::Type SubTrait_t
Auxiliary alias declaration for the SubTrait class template.
Definition: SubTrait.h:163
typename MultTrait< T1, T2 >::Type MultTrait_t
Auxiliary alias declaration for the MultTrait class template.
Definition: MultTrait.h:165
typename UnderlyingScalar< T >::Type UnderlyingScalar_t
Auxiliary alias declaration for the UnderlyingScalar type trait.
Definition: UnderlyingScalar.h:116
#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
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_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 the serial shim.
Generic wrapper for the abs() function.
Definition: Abs.h:85
Generic wrapper for the acos() function.
Definition: Acos.h:71
Generic wrapper for the acosh() function.
Definition: Acosh.h:71
Generic wrapper for the addition operator.
Definition: Add.h:85
Generic wrapper for the arg() function.
Definition: Arg.h:77
Generic wrapper for the asin() function.
Definition: Asin.h:81
Generic wrapper for the asinh() function.
Definition: Asinh.h:81
Generic wrapper for the atan() function.
Definition: Atan.h:81
Generic wrapper for the atanh() function.
Definition: Atanh.h:81
Generic wrapper for the bitwise AND ('&') operator.
Definition: Bitand.h:82
Generic wrapper for the bitwise OR ('|') operator.
Definition: Bitor.h:82
Generic wrapper for the bitwise XOR ('^') operator.
Definition: Bitxor.h:68
Generic wrapper for the cbrt() function.
Definition: Cbrt.h:83
Generic wrapper for the ceil() function.
Definition: Ceil.h:83
Generic wrapper for the clamp() function.
Definition: Clamp.h:68
Base class for all compute expression templates.
Definition: Computation.h:68
Generic wrapper for the conj() function.
Definition: Conj.h:85
Generic wrapper for the cos() function.
Definition: Cos.h:71
Generic wrapper for the cosh() function.
Definition: Cosh.h:71
Generic wrapper for the division operator.
Definition: Div.h:81
Generic wrapper for the erf() function.
Definition: Erf.h:79
Generic wrapper for the erfc() function.
Definition: Erfc.h:69
Generic wrapper for the exp10() function.
Definition: Exp10.h:69
Generic wrapper for the exp2() function.
Definition: Exp2.h:69
Generic wrapper for the exp() function.
Definition: Exp.h:71
Generic wrapper for the floor() function.
Definition: Floor.h:83
Generic wrapper for the imag() function.
Definition: Imag.h:76
Generic wrapper for the invcbrt() function.
Definition: InvCbrt.h:69
Generic wrapper for the invsqrt() function.
Definition: InvSqrt.h:71
Generic wrapper for the lgamma() function.
Definition: LGamma.h:71
Generic wrapper for the log10() function.
Definition: Log10.h:71
Generic wrapper for the log1p() function.
Definition: Log1p.h:71
Generic wrapper for the log2() function.
Definition: Log2.h:69
Generic wrapper for the log() function.
Definition: Log.h:71
Base class for all unary matrix map expression templates.
Definition: MatMapExpr.h:68
Generic wrapper for the max() function.
Definition: Max.h:82
Generic wrapper for the min() function.
Definition: Min.h:82
Generic wrapper for the logical NOT operator.
Definition: Not.h:60
Generic wrapper for the pow() function.
Definition: Pow.h:65
Generic wrapper for the real() function.
Definition: Real.h:82
Generic wrapper for the round() function.
Definition: Round.h:83
Generic wrapper for the uniform left-shift operation.
Definition: ShiftLI.h:78
Generic wrapper for the uniform right-shift operation.
Definition: ShiftRI.h:77
Generic wrapper for the sign() function.
Definition: Sign.h:83
Generic wrapper for the sin() function.
Definition: Sin.h:81
Generic wrapper for the sinh() function.
Definition: Sinh.h:81
Generic wrapper for the sqrt() function.
Definition: Sqrt.h:85
Generic wrapper for the subtraction operator.
Definition: Sub.h:85
Generic wrapper for the tan() function.
Definition: Tan.h:81
Generic wrapper for the tanh() function.
Definition: Tanh.h:81
Generic wrapper for the trunc() function.
Definition: Trunc.h:83
System settings for the inline keywords.
Header file for the RequiresEvaluation type trait.
Header file for basic type definitions.