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Thyra_MultiVectorAdapterBase_decl.hpp
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4// Thyra: Interfaces and Support for Abstract Numerical Algorithms
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41
42#ifndef THYRA_MULTI_VECTOR_ADAPTER_BASE_DECL_HPP
43#define THYRA_MULTI_VECTOR_ADAPTER_BASE_DECL_HPP
44
45#include "Thyra_MultiVectorDefaultBase.hpp"
46
47
48namespace Thyra {
49
50
52template<class Scalar> class ScalarProdVectorSpaceBase;
53
54
66template<class Scalar>
67class MultiVectorAdapterBase : virtual public MultiVectorDefaultBase<Scalar>
68{
69public:
70
73
77
81
90 virtual void euclideanApply(
91 const EOpTransp M_trans,
94 const Scalar alpha,
95 const Scalar beta
96 ) const = 0;
97
99
107
108protected:
109
113 bool opSupportedImpl(EOpTransp M_trans) const;
115 void applyImpl(
116 const EOpTransp M_trans,
118 const Ptr<MultiVectorBase<Scalar> > &Y,
119 const Scalar alpha,
120 const Scalar beta
121 ) const;
123
124};
125
126
127} // namespace Thyra
128
129
130#endif // THYRA_MULTI_VECTOR_ADAPTER_BASE_DECL_HPP
Node subclass for MultiVectorBase subclasses that allows the insertion of an application defined scal...
virtual RCP< const ScalarProdVectorSpaceBase< Scalar > > rangeScalarProdVecSpc() const =0
virtual RCP< const ScalarProdVectorSpaceBase< Scalar > > domainScalarProdVecSpc() const =0
RCP< const VectorSpaceBase< Scalar > > domain() const
Returns this->domainScalarProdVecSpc()
virtual void euclideanApply(const EOpTransp M_trans, const MultiVectorBase< Scalar > &X, const Ptr< MultiVectorBase< Scalar > > &Y, const Scalar alpha, const Scalar beta) const =0
Apply the linear operator to a multi-vector with respect to a Euclidean vector space where the scalar...
void applyImpl(const EOpTransp M_trans, const MultiVectorBase< Scalar > &X, const Ptr< MultiVectorBase< Scalar > > &Y, const Scalar alpha, const Scalar beta) const
.
RCP< const VectorSpaceBase< Scalar > > range() const
Returns this->rangeScalarProdVecSpc()
Interface for a collection of column vectors called a multi-vector.
Node subclass that uses a default MultiVectorBase implementation to provide default implementations f...
EOpTransp
Enumeration for determining how a linear operator is applied. `*.