/usr/include/trilinos/Thyra_DefaultMultipliedLinearOp_def.hpp is in libtrilinos-dev 10.4.0.dfsg-1ubuntu2.
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// ***********************************************************************
//
// Thyra: Interfaces and Support for Abstract Numerical Algorithms
// Copyright (2004) Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
// license for use of this work by or on behalf of the U.S. Government.
//
// This library is free software; you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; either version 2.1 of the
// License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
// USA
// Questions? Contact Michael A. Heroux (maherou@sandia.gov)
//
// ***********************************************************************
// @HEADER
#ifndef THYRA_DEFAULT_MULTIPLIED_LINEAR_OP_DEF_HPP
#define THYRA_DEFAULT_MULTIPLIED_LINEAR_OP_DEF_HPP
#include "Thyra_DefaultMultipliedLinearOp_decl.hpp"
#include "Thyra_AssertOp.hpp"
namespace Thyra {
// Constructors/initializers/accessors
template<class Scalar>
DefaultMultipliedLinearOp<Scalar>::DefaultMultipliedLinearOp()
{}
template<class Scalar>
void DefaultMultipliedLinearOp<Scalar>::initialize(
const ArrayView<const RCP<LinearOpBase<Scalar> > > &Ops )
{
const int nOps = Ops.size();
Ops_.resize(nOps);
for( int k = 0; k < nOps; ++k )
Ops_[k].initialize(Ops[k]);
validateOps();
setupDefaultObjectLabel();
}
template<class Scalar>
void DefaultMultipliedLinearOp<Scalar>::initialize(
const ArrayView<const RCP<const LinearOpBase<Scalar> > > &Ops )
{
const int nOps = Ops.size();
Ops_.resize(nOps);
for( int k = 0; k < nOps; ++k )
Ops_[k].initialize(Ops[k]);
validateOps();
setupDefaultObjectLabel();
}
template<class Scalar>
void DefaultMultipliedLinearOp<Scalar>::uninitialize()
{
Ops_.resize(0);
setupDefaultObjectLabel();
}
// Overridden form MultipliedLinearOpBase
template<class Scalar>
int DefaultMultipliedLinearOp<Scalar>::numOps() const
{
return Ops_.size();
}
template<class Scalar>
bool DefaultMultipliedLinearOp<Scalar>::opIsConst(const int k) const
{
#ifdef TEUCHOS_DEBUG
TEST_FOR_EXCEPT( !( 0 <= k && k < numOps() ) );
#endif
return Ops_[k].isConst();
}
template<class Scalar>
RCP<LinearOpBase<Scalar> >
DefaultMultipliedLinearOp<Scalar>::getNonconstOp(const int k)
{
#ifdef TEUCHOS_DEBUG
TEST_FOR_EXCEPT( !( 0 <= k && k < numOps() ) );
#endif
return Ops_[k].getNonconstObj();
}
template<class Scalar>
RCP<const LinearOpBase<Scalar> >
DefaultMultipliedLinearOp<Scalar>::getOp(const int k) const
{
#ifdef TEUCHOS_DEBUG
TEST_FOR_EXCEPT( !( 0 <= k && k < numOps() ) );
#endif
return Ops_[k];
}
// Overridden from LinearOpBase
template<class Scalar>
RCP< const VectorSpaceBase<Scalar> >
DefaultMultipliedLinearOp<Scalar>::range() const
{
assertInitialized();
return getOp(0)->range();
}
template<class Scalar>
RCP< const VectorSpaceBase<Scalar> >
DefaultMultipliedLinearOp<Scalar>::domain() const
{
assertInitialized();
return getOp(numOps()-1)->domain();
}
template<class Scalar>
RCP<const LinearOpBase<Scalar> >
DefaultMultipliedLinearOp<Scalar>::clone() const
{
return Teuchos::null; // Not supported yet but could be!
}
// Overridden from Teuchos::Describable
template<class Scalar>
std::string DefaultMultipliedLinearOp<Scalar>::description() const
{
assertInitialized();
typedef Teuchos::ScalarTraits<Scalar> ST;
std::ostringstream oss;
oss << Teuchos::Describable::description() << "{numOps = "<<numOps()<<"}";
return oss.str();
}
template<class Scalar>
void DefaultMultipliedLinearOp<Scalar>::describe(
Teuchos::FancyOStream &out_arg,
const Teuchos::EVerbosityLevel verbLevel
) const
{
typedef Teuchos::ScalarTraits<Scalar> ST;
using Teuchos::FancyOStream;
using Teuchos::OSTab;
assertInitialized();
RCP<FancyOStream> out = rcp(&out_arg,false);
OSTab tab(out);
const int nOps = Ops_.size();
switch(verbLevel) {
case Teuchos::VERB_DEFAULT:
case Teuchos::VERB_LOW:
*out << this->description() << std::endl;
break;
case Teuchos::VERB_MEDIUM:
case Teuchos::VERB_HIGH:
case Teuchos::VERB_EXTREME:
{
*out
<< Teuchos::Describable::description() << "{"
<< "rangeDim=" << this->range()->dim()
<< ",domainDim="<< this->domain()->dim() << "}\n";
OSTab tab2(out);
*out
<< "numOps = "<< nOps << std::endl
<< "Constituent LinearOpBase objects for M = Op[0]*...*Op[numOps-1]:\n";
OSTab tab3(out);
for( int k = 0; k < nOps; ++k ) {
*out << "Op["<<k<<"] = " << Teuchos::describe(*getOp(k),verbLevel);
}
break;
}
default:
TEST_FOR_EXCEPT(true); // Should never get here!
}
}
// protected
// Overridden from LinearOpBase
template<class Scalar>
bool DefaultMultipliedLinearOp<Scalar>::opSupportedImpl(EOpTransp M_trans) const
{
bool overallOpSupported = true;
for( int k = 0; k < static_cast<int>(Ops_.size()); ++k )
if(!Thyra::opSupported(*getOp(k),M_trans)) overallOpSupported = false;
return overallOpSupported;
// ToDo: Cache these?
}
template<class Scalar>
void DefaultMultipliedLinearOp<Scalar>::applyImpl(
const EOpTransp M_trans,
const MultiVectorBase<Scalar> &X,
const Ptr<MultiVectorBase<Scalar> > &Y,
const Scalar alpha,
const Scalar beta
) const
{
using Teuchos::rcpFromPtr;
using Teuchos::rcpFromRef;
#ifdef TEUCHOS_DEBUG
THYRA_ASSERT_LINEAR_OP_MULTIVEC_APPLY_SPACES(
"DefaultMultipliedLinearOp<Scalar>::apply(...)", *this, M_trans, X, &*Y
);
#endif // TEUCHOS_DEBUG
const int nOps = Ops_.size();
const Ordinal m = X.domain()->dim();
if( real_trans(M_trans)==NOTRANS ) {
//
// Y = alpha * M * X + beta*Y
// =>
// Y = alpha * op(Op[0]) * op(Op[1]) * ... * op(Op[numOps-1]) * X + beta*Y
//
RCP<MultiVectorBase<Scalar> > T_kp1, T_k; // Temporary propagated between loops
for( int k = nOps-1; k >= 0; --k ) {
RCP<MultiVectorBase<Scalar> > Y_k;
RCP<const MultiVectorBase<Scalar> > X_k;
if(k==0) Y_k = rcpFromPtr(Y); else Y_k = T_k = createMembers(getOp(k)->range(), m);
if(k==nOps-1) X_k = rcpFromRef(X); else X_k = T_kp1;
if( k > 0 )
Thyra::apply(*getOp(k), M_trans, *X_k, Y_k.ptr());
else
Thyra::apply(*getOp(k), M_trans, *X_k, Y_k.ptr(), alpha, beta);
T_kp1 = T_k;
}
}
else {
//
// Y = alpha * M' * X + beta*Y
// =>
// Y = alpha * Op[numOps-1]' * Op[1]' * ... * Op[0]' * X + beta * Y
//
RCP<MultiVectorBase<Scalar> > T_km1, T_k; // Temporary propagated between loops
for( int k = 0; k <= nOps-1; ++k ) {
RCP<MultiVectorBase<Scalar> > Y_k;
RCP<const MultiVectorBase<Scalar> > X_k;
if(k==nOps-1) Y_k = rcpFromPtr(Y); else Y_k = T_k = createMembers(getOp(k)->domain(), m);
if(k==0) X_k = rcpFromRef(X); else X_k = T_km1;
if( k < nOps-1 )
Thyra::apply(*getOp(k), M_trans, *X_k, Y_k.ptr());
else
Thyra::apply(*getOp(k), M_trans, *X_k, Y_k.ptr(), alpha, beta);
T_km1 = T_k;
}
}
}
// private
template<class Scalar>
void DefaultMultipliedLinearOp<Scalar>::validateOps()
{
using Teuchos::toString;
#ifdef TEUCHOS_DEBUG
try {
const int nOps = Ops_.size();
for( int k = 0; k < nOps; ++k ) {
TEST_FOR_EXCEPT( Ops_[k]().get() == NULL );
if( k < nOps-1 ) {
THYRA_ASSERT_LINEAR_OP_TIMES_LINEAR_OP_SPACES_NAMES(
"DefaultMultipliedLinearOp<Scalar>::initialize(...)"
,*Ops_[k],NOTRANS,("Ops["+toString(k)+"]")
,*Ops_[k+1],NOTRANS,("Ops["+toString(k+1)+"]")
);
}
}
}
catch(...) {
uninitialize();
throw;
}
#endif
}
template<class Scalar>
void DefaultMultipliedLinearOp<Scalar>::setupDefaultObjectLabel()
{
std::ostringstream label;
const int nOps = Ops_.size();
for( int k = 0; k < nOps; ++k ) {
std::string Op_k_label = Ops_[k]->getObjectLabel();
if (Op_k_label.length() == 0)
Op_k_label = "ANYM";
if (k > 0)
label << "*";
label << "("<<Op_k_label<<")";
}
this->setObjectLabel(label.str());
validateOps();
}
} // end namespace Thyra
//
// Nonmember implementations
//
template<class Scalar>
Teuchos::RCP<Thyra::LinearOpBase<Scalar> >
Thyra::nonconstMultiply(
const RCP<LinearOpBase<Scalar> > &A,
const RCP<LinearOpBase<Scalar> > &B,
const std::string &M_label
)
{
using Teuchos::tuple;
RCP<DefaultMultipliedLinearOp<Scalar> > multOp =
defaultMultipliedLinearOp<Scalar>(tuple(A, B)());
if(M_label.length())
multOp->setObjectLabel(M_label);
return multOp;
}
template<class Scalar>
Teuchos::RCP<const Thyra::LinearOpBase<Scalar> >
Thyra::multiply(
const RCP<const LinearOpBase<Scalar> > &A,
const RCP<const LinearOpBase<Scalar> > &B,
const std::string &M_label
)
{
using Teuchos::tuple;
RCP<DefaultMultipliedLinearOp<Scalar> > multOp =
defaultMultipliedLinearOp<Scalar>(tuple(A, B)());
if(M_label.length())
multOp->setObjectLabel(M_label);
return multOp;
}
template<class Scalar>
Teuchos::RCP<const Thyra::LinearOpBase<Scalar> >
Thyra::multiply(
const RCP<const LinearOpBase<Scalar> > &A,
const RCP<const LinearOpBase<Scalar> > &B,
const RCP<const LinearOpBase<Scalar> > &C,
const std::string &M_label
)
{
using Teuchos::tuple;
RCP<DefaultMultipliedLinearOp<Scalar> > multOp =
defaultMultipliedLinearOp<Scalar>(tuple(A, B, C)());
if(M_label.length())
multOp->setObjectLabel(M_label);
return multOp;
}
//
// Explicit instantiation macro
//
// Must be expanded from within the Thyra namespace!
//
#define THYRA_DEFAULT_MULTIPLIED_LINEAR_OP_INSTANT(SCALAR) \
\
template class DefaultMultipliedLinearOp<SCALAR >; \
\
template RCP<LinearOpBase<SCALAR > > \
nonconstMultiply( \
const RCP<LinearOpBase<SCALAR > > &A, \
const RCP<LinearOpBase<SCALAR > > &B, \
const std::string &M_label \
); \
\
template RCP<const LinearOpBase<SCALAR > > \
multiply( \
const RCP<const LinearOpBase<SCALAR > > &A, \
const RCP<const LinearOpBase<SCALAR > > &B, \
const std::string &M_label \
); \
\
template RCP<const LinearOpBase<SCALAR > > \
multiply( \
const RCP<const LinearOpBase<SCALAR > > &A, \
const RCP<const LinearOpBase<SCALAR > > &B, \
const RCP<const LinearOpBase<SCALAR > > &C, \
const std::string &M_label \
); \
#endif // THYRA_DEFAULT_MULTIPLIED_LINEAR_OP_DEF_HPP
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