35 #ifndef _BLAZE_MATH_EXPRESSIONS_SVECNORMEXPR_H_ 36 #define _BLAZE_MATH_EXPRESSIONS_SVECNORMEXPR_H_ 101 template<
typename VT
106 decltype(
auto) norm_backend( const SparseVector<VT,TF>& sv, Abs
abs, Power power, Root root )
108 using CT = CompositeType_<VT>;
109 using ET = ElementType_<VT>;
110 using RT = decltype(
evaluate( root( std::declval<ET>() ) ) );
111 using Iterator = ConstIterator_< RemoveReference_<CT> >;
113 if( (~sv).
size() == 0UL )
return RT();
120 if( element ==
end )
return RT();
122 ET
norm( power(
abs( element->value() ) ) );
125 for( ; element!=
end; ++element ) {
126 norm += power(
abs( element->value() ) );
150 template<
typename VT
176 template<
typename VT
202 template<
typename VT
208 return norm_backend( ~sv, Abs(),
Noop(),
Noop() );
228 template<
typename VT
254 template<
typename VT
260 return norm_backend( ~sv, Abs(),
Pow3(),
Cbrt() );
280 template<
typename VT
311 template<
typename VT
353 using Norm =
typename TypeAt< Norms,
min( P-1UL, 4UL ) >::Type;
355 return Norm()( ~sv );
375 template<
typename VT
decltype(auto) sqrNorm(const DenseMatrix< MT, SO > &dm)
Computes the squared L2 norm for the given dense matrix.
Definition: DMatNormExpr.h:504
Header file for the Sqrt functor.
Header file for auxiliary alias declarations.
#define BLAZE_USER_ASSERT(expr, msg)
Run time assertion macro for user checks.In case of an invalid run time expression, the program execution is terminated. The BLAZE_USER_ASSERT macro can be disabled by setting the BLAZE_USER_ASSERT flag to zero or by defining NDEBUG during the compilation.
Definition: Assert.h:117
Generic wrapper for the cbrt() function.
Definition: Cbrt.h:62
Header file for the Pow4 functor.
Header file for the SparseVector base class.
decltype(auto) l3Norm(const DenseMatrix< MT, SO > &dm)
Computes the L3 norm for the given dense matrix.
Definition: DMatNormExpr.h:582
Header file for the Pow2 functor.
decltype(auto) l2Norm(const DenseMatrix< MT, SO > &dm)
Computes the L2 norm for the given dense matrix.
Definition: DMatNormExpr.h:556
decltype(auto) l4Norm(const DenseMatrix< MT, SO > &dm)
Computes the L4 norm for the given dense matrix.
Definition: DMatNormExpr.h:608
BLAZE_ALWAYS_INLINE size_t size(const Vector< VT, TF > &vector) noexcept
Returns the current size/dimension of the vector.
Definition: Vector.h:265
const ElementType_< MT > min(const DenseMatrix< MT, SO > &dm)
Returns the smallest element of the dense matrix.
Definition: DenseMatrix.h:1903
Generic wrapper for the pow() function with fixed exponent.
Definition: Forward.h:119
decltype(auto) lpNorm(const DenseMatrix< MT, SO > &dm, ST p)
Computes the Lp norm for the given dense matrix.
Definition: DMatNormExpr.h:640
Header file for the invert shim.
typename MultTrait< T1, T2 >::Type MultTrait_
Auxiliary alias declaration for the MultTrait class template.The MultTrait_ alias declaration provide...
Definition: MultTrait.h:291
Generic wrapper for the qdrt() function.
Definition: Qdrt.h:61
Element * Iterator
Iterator over non-constant elements.
Definition: CompressedMatrix.h:3084
#define BLAZE_STATIC_ASSERT_MSG(expr, msg)
Compile time assertion macro.In case of an invalid compile time expression, a compilation error is cr...
Definition: StaticAssert.h:123
const MT::ResultType evaluate(const Matrix< MT, SO > &matrix)
Evaluates the given matrix expression.
Definition: Matrix.h:888
const ElementType_< MT > max(const DenseMatrix< MT, SO > &dm)
Returns the largest element of the dense matrix.
Definition: DenseMatrix.h:1950
Header file for the Cbrt functor.
Header file for the LpNorm functor.
bool isZero(const DiagonalProxy< MT > &proxy)
Returns whether the represented element is 0.
Definition: DiagonalProxy.h:670
Generic wrapper for the sqrt() function.
Definition: Sqrt.h:62
Header file for the multiplication trait.
Namespace of the Blaze C++ math library.
Definition: Blaze.h:58
Header file for the L4Norm functor.
Header file for the UnderlyingBuiltin type trait.
decltype(auto) l1Norm(const DenseMatrix< MT, SO > &dm)
Computes the L1 norm for the given dense matrix.
Definition: DMatNormExpr.h:530
Header file for the isZero shim.
decltype(auto) inv(const DenseMatrix< MT, SO > &dm)
Calculation of the inverse of the given dense matrix.
Definition: DMatInvExpr.h:423
Header file for the L2Norm functor.
Implementation of a type list.The TypeList class template represents a list of data types of arbitrar...
Definition: TypeList.h:119
Generic wrapper for the null function.
Definition: Noop.h:59
BLAZE_ALWAYS_INLINE MT::Iterator end(Matrix< MT, SO > &matrix, size_t i)
Returns an iterator just past the last element of row/column i.
Definition: Matrix.h:430
Header file for the Abs functor.
decltype(auto) abs(const DenseMatrix< MT, SO > &dm)
Applies the abs() function to each single element of the dense matrix dm.
Definition: DMatMapExpr.h:1176
decltype(auto) maxNorm(const DenseMatrix< MT, SO > &dm)
Computes the maximum norm for the given dense matrix.
Definition: DMatNormExpr.h:703
Generic wrapper for the pow4() function.
Definition: Pow4.h:61
Header file for the evaluate shim.
Generic wrapper for the pow2() function.
Definition: Pow2.h:61
Header file for run time assertion macros.
Indexing a type list.The TypeAt class can be used to access a type list at a specified position to qu...
Definition: TypeAt.h:76
Header file for the Unique class template.
Header file for the UnaryPow functor.
#define BLAZE_FUNCTION_TRACE
Function trace macro.This macro can be used to reliably trace function calls. In case function tracin...
Definition: FunctionTrace.h:94
Header file for the Noop functor.
Header file for the RemoveReference type trait.
decltype(auto) norm(const DenseMatrix< MT, SO > &dm)
Computes the L2 norm for the given dense matrix.
Definition: DMatNormExpr.h:478
Generic wrapper for the pow3() function.
Definition: Pow3.h:61
Header file for the L3Norm functor.
Base class for sparse vectors.The SparseVector class is a base class for all arbitrarily sized (N-dim...
Definition: Forward.h:130
Header file for the L1Norm functor.
Header file for the Qdrt functor.
Header file for the Pow3 functor.
Header file for the function trace functionality.