42#ifndef THYRA_MULTI_VECTOR_ADAPTER_BASE_DEF_HPP
43#define THYRA_MULTI_VECTOR_ADAPTER_BASE_DEF_HPP
45#include "Thyra_MultiVectorAdapterBase_decl.hpp"
46#include "Thyra_ScalarProdVectorSpaceBase.hpp"
47#include "Thyra_ScalarProdBase.hpp"
57RCP<const VectorSpaceBase<Scalar> >
60 return rangeScalarProdVecSpc();
68 return domainScalarProdVecSpc();
104 ? domainScalarProdVecSpc()
105 : rangeScalarProdVecSpc() );
107 if (scalarProd->isEuclidean()) {
109 this->euclideanApply(M_trans, X, Y, alpha, beta);
114 ::Thyra::apply(*scalarProd->getLinearOp(),
NOTRANS, X, T.
ptr());
116 this->euclideanApply(M_trans, *T, Y, alpha, beta);
virtual RCP< const VectorSpaceBase< Scalar > > range() const =0
Return a smart pointer for the range space for this operator.
virtual RCP< const VectorSpaceBase< Scalar > > domain() const =0
Return a smart pointer for the domain space for this operator.
bool opSupportedImpl(EOpTransp M_trans) const
RCP< const VectorSpaceBase< Scalar > > domain() const
Returns this->domainScalarProdVecSpc()
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.
EOpTransp
Enumeration for determining how a linear operator is applied. `*.
EOpTransp real_trans(EOpTransp transp)
Return NOTRANS or TRANS for real scalar valued operators and this also is used for determining struct...
@ NOTRANS
Use the non-transposed operator.
@ CONJTRANS
Use the transposed operator with complex-conjugate clements (same as TRANS for real scalar types).