/usr/include/trilinos/BelosFixedPointSolMgr.hpp is in libtrilinos-belos-dev 12.12.1-5.
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// ************************************************************************
//
// Belos: Block Linear Solvers Package
// Copyright 2004 Sandia Corporation
//
// Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,
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//@HEADER
#ifndef BELOS_FIXEDPOINT_SOLMGR_HPP
#define BELOS_FIXEDPOINT_SOLMGR_HPP
/*! \file BelosFixedPointSolMgr.hpp
* \brief The Belos::FixedPointSolMgr provides a solver manager for the FixedPoint linear solver.
*/
#include "BelosConfigDefs.hpp"
#include "BelosTypes.hpp"
#include "BelosLinearProblem.hpp"
#include "BelosSolverManager.hpp"
#include "BelosCGIter.hpp"
#include "BelosFixedPointIter.hpp"
#include "BelosStatusTestMaxIters.hpp"
#include "BelosStatusTestGenResNorm.hpp"
#include "BelosStatusTestCombo.hpp"
#include "BelosStatusTestOutputFactory.hpp"
#include "BelosOutputManager.hpp"
#include "Teuchos_BLAS.hpp"
#include "Teuchos_LAPACK.hpp"
#ifdef BELOS_TEUCHOS_TIME_MONITOR
# include "Teuchos_TimeMonitor.hpp"
#endif
#include <algorithm>
/*! \class Belos::FixedPointSolMgr
*
* \brief The Belos::FixedPointSolMgr provides a powerful and fully-featured solver manager over the FixedPoint linear solver.
\ingroup belos_solver_framework
*/
namespace Belos {
//! @name FixedPointSolMgr Exceptions
//@{
/** \brief FixedPointSolMgrLinearProblemFailure is thrown when the linear problem is
* not setup (i.e. setProblem() was not called) when solve() is called.
*
* This std::exception is thrown from the FixedPointSolMgr::solve() method.
*
*/
class FixedPointSolMgrLinearProblemFailure : public BelosError {public:
FixedPointSolMgrLinearProblemFailure(const std::string& what_arg) : BelosError(what_arg)
{}};
template<class ScalarType, class MV, class OP>
class FixedPointSolMgr : public SolverManager<ScalarType,MV,OP> {
private:
typedef MultiVecTraits<ScalarType,MV> MVT;
typedef OperatorTraits<ScalarType,MV,OP> OPT;
typedef Teuchos::ScalarTraits<ScalarType> SCT;
typedef typename Teuchos::ScalarTraits<ScalarType>::magnitudeType MagnitudeType;
typedef Teuchos::ScalarTraits<MagnitudeType> MT;
public:
//! @name Constructors/Destructor
//@{
/*! \brief Empty constructor for FixedPointSolMgr.
* This constructor takes no arguments and sets the default values for the solver.
* The linear problem must be passed in using setProblem() before solve() is called on this object.
* The solver values can be changed using setParameters().
*/
FixedPointSolMgr();
/*! \brief Basic constructor for FixedPointSolMgr.
*
* This constructor accepts the LinearProblem to be solved in addition
* to a parameter list of options for the solver manager. These options include the following:
* - "Block Size" - an \c int specifying the block size to be used by the underlying block
* conjugate-gradient solver. Default: 1
* - "Verbosity" - a sum of MsgType specifying the verbosity. Default: Belos::Errors
* - "Output Style" - a OutputType specifying the style of output. Default: Belos::General
* - "Output Stream" - a reference-counted pointer to the output stream where all
* solver output is sent. Default: Teuchos::rcp(&std::cout,false)
* - "Output Frequency" - an \c int specifying how often convergence information should be
* outputted. Default: -1 (never)
* - "Show Maximum Residual Norm Only" - a \c bool specifying whether that only the maximum
* relative residual norm is printed if convergence
* information is printed. Default: false
* - "Timer Label" - a \c std::string to use as a prefix for the timer labels. Default: "Belos"
*/
FixedPointSolMgr( const Teuchos::RCP<LinearProblem<ScalarType,MV,OP> > &problem,
const Teuchos::RCP<Teuchos::ParameterList> &pl );
//! Destructor.
virtual ~FixedPointSolMgr() {};
//@}
//! @name Accessor methods
//@{
const LinearProblem<ScalarType,MV,OP>& getProblem() const {
return *problem_;
}
/*! \brief Get a parameter list containing the valid parameters for this object.
*/
Teuchos::RCP<const Teuchos::ParameterList> getValidParameters() const;
/*! \brief Get a parameter list containing the current parameters for this object.
*/
Teuchos::RCP<const Teuchos::ParameterList> getCurrentParameters() const { return params_; }
/*! \brief Return the timers for this object.
*
* The timers are ordered as follows:
* - time spent in solve() routine
*/
Teuchos::Array<Teuchos::RCP<Teuchos::Time> > getTimers() const {
return Teuchos::tuple(timerSolve_);
}
/// \brief Tolerance achieved by the last \c solve() invocation.
///
/// This is the maximum over all right-hand sides' achieved
/// convergence tolerances, and is set whether or not the solve
/// actually managed to achieve the desired convergence tolerance.
MagnitudeType achievedTol() const {
return achievedTol_;
}
//! Get the iteration count for the most recent call to \c solve().
int getNumIters() const {
return numIters_;
}
/*! \brief Return whether a loss of accuracy was detected by this solver during the most current solve.
*/
bool isLOADetected() const { return false; }
//@}
//! @name Set methods
//@{
//! Set the linear problem that needs to be solved.
void setProblem( const Teuchos::RCP<LinearProblem<ScalarType,MV,OP> > &problem ) { problem_ = problem; }
//! Set the parameters the solver manager should use to solve the linear problem.
void setParameters( const Teuchos::RCP<Teuchos::ParameterList> ¶ms );
//! Set user-defined convergence status test.
void replaceUserConvStatusTest( const Teuchos::RCP<StatusTestResNorm<ScalarType,MV,OP> > &userConvStatusTest )
{
convTest_ = userConvStatusTest;
typedef Belos::StatusTestCombo<ScalarType,MV,OP> StatusTestCombo_t;
sTest_ = Teuchos::rcp( new StatusTestCombo_t( StatusTestCombo_t::OR, maxIterTest_, convTest_ ) );
StatusTestOutputFactory<ScalarType,MV,OP> stoFactory( outputStyle_ );
outputTest_ = stoFactory.create( printer_, sTest_, outputFreq_, Passed+Failed+Undefined );
std::string solverDesc = " Fixed Point ";
outputTest_->setSolverDesc( solverDesc );
}
//@}
//! @name Reset methods
//@{
/*! \brief Performs a reset of the solver manager specified by the \c ResetType. This informs the
* solver manager that the solver should prepare for the next call to solve by resetting certain elements
* of the iterative solver strategy.
*/
void reset( const ResetType type ) { if ((type & Belos::Problem) && !Teuchos::is_null(problem_)) problem_->setProblem(); }
//@}
//! @name Solver application methods
//@{
/*! \brief This method performs possibly repeated calls to the underlying linear solver's
* iterate() routine until the problem has been solved (as decided by the solver manager)
* or the solver manager decides to quit.
*
* This method calls FixedPointIter::iterate() or CGIter::iterate(), which will return either because a
* specially constructed status test evaluates to ::Passed or an std::exception is thrown.
*
* A return from FixedPointIter::iterate() signifies one of the following scenarios:
* - the maximum number of iterations has been exceeded. In this scenario, the current solutions
* to the linear system will be placed in the linear problem and return ::Unconverged.
* - global convergence has been met. In this case, the current solutions to the linear system
* will be placed in the linear problem and the solver manager will return ::Converged
*
* \returns ::ReturnType specifying:
* - ::Converged: the linear problem was solved to the specification required by the solver manager.
* - ::Unconverged: the linear problem was not solved to the specification desired by the solver manager.
*/
ReturnType solve();
//@}
/** \name Overridden from Teuchos::Describable */
//@{
/** \brief Method to return description of the block CG solver manager */
std::string description() const;
//@}
private:
//! The linear problem to solve.
Teuchos::RCP<LinearProblem<ScalarType,MV,OP> > problem_;
//! Output manager, that handles printing of different kinds of messages.
Teuchos::RCP<OutputManager<ScalarType> > printer_;
//! Output stream to which the output manager prints.
Teuchos::RCP<std::ostream> outputStream_;
/// \brief Aggregate stopping criterion.
///
/// This is an OR combination of the maximum iteration count test
/// (\c maxIterTest_) and convergence test (\c convTest_).
Teuchos::RCP<StatusTest<ScalarType,MV,OP> > sTest_;
//! Maximum iteration count stopping criterion.
Teuchos::RCP<StatusTestMaxIters<ScalarType,MV,OP> > maxIterTest_;
//! Convergence stopping criterion.
Teuchos::RCP<StatusTestResNorm<ScalarType,MV,OP> > convTest_;
//! Output "status test" that controls all the other status tests.
Teuchos::RCP<StatusTestOutput<ScalarType,MV,OP> > outputTest_;
//! Current parameter list.
Teuchos::RCP<Teuchos::ParameterList> params_;
//
// Default solver parameters.
//
static const MagnitudeType convtol_default_;
static const int maxIters_default_;
static const bool showMaxResNormOnly_default_;
static const int blockSize_default_;
static const int verbosity_default_;
static const int outputStyle_default_;
static const int outputFreq_default_;
static const std::string label_default_;
static const Teuchos::RCP<std::ostream> outputStream_default_;
//
// Current solver parameters and other values.
//
//! Convergence tolerance (read from parameter list).
MagnitudeType convtol_;
/// \brief Tolerance achieved by the last \c solve() invocation.
///
/// This is the maximum over all right-hand sides' achieved
/// convergence tolerances, and is set whether or not the solve
/// actually managed to achieve the desired convergence tolerance.
MagnitudeType achievedTol_;
//! Maximum iteration count (read from parameter list).
int maxIters_;
//! Number of iterations taken by the last \c solve() invocation.
int numIters_;
int blockSize_, verbosity_, outputStyle_, outputFreq_;
bool showMaxResNormOnly_;
//! Prefix label for all the timers.
std::string label_;
//! Solve timer.
Teuchos::RCP<Teuchos::Time> timerSolve_;
//! Whether or not the parameters have been set (via \c setParameters()).
bool isSet_;
};
// Default solver values.
template<class ScalarType, class MV, class OP>
const typename FixedPointSolMgr<ScalarType,MV,OP>::MagnitudeType FixedPointSolMgr<ScalarType,MV,OP>::convtol_default_ = 1e-8;
template<class ScalarType, class MV, class OP>
const int FixedPointSolMgr<ScalarType,MV,OP>::maxIters_default_ = 1000;
template<class ScalarType, class MV, class OP>
const bool FixedPointSolMgr<ScalarType,MV,OP>::showMaxResNormOnly_default_ = false;
template<class ScalarType, class MV, class OP>
const int FixedPointSolMgr<ScalarType,MV,OP>::blockSize_default_ = 1;
template<class ScalarType, class MV, class OP>
const int FixedPointSolMgr<ScalarType,MV,OP>::verbosity_default_ = Belos::Errors;
template<class ScalarType, class MV, class OP>
const int FixedPointSolMgr<ScalarType,MV,OP>::outputStyle_default_ = Belos::General;
template<class ScalarType, class MV, class OP>
const int FixedPointSolMgr<ScalarType,MV,OP>::outputFreq_default_ = -1;
template<class ScalarType, class MV, class OP>
const std::string FixedPointSolMgr<ScalarType,MV,OP>::label_default_ = "Belos";
template<class ScalarType, class MV, class OP>
const Teuchos::RCP<std::ostream> FixedPointSolMgr<ScalarType,MV,OP>::outputStream_default_ = Teuchos::rcp(&std::cout,false);
// Empty Constructor
template<class ScalarType, class MV, class OP>
FixedPointSolMgr<ScalarType,MV,OP>::FixedPointSolMgr() :
outputStream_(outputStream_default_),
convtol_(convtol_default_),
achievedTol_(Teuchos::ScalarTraits<MagnitudeType>::zero()),
maxIters_(maxIters_default_),
numIters_(0),
blockSize_(blockSize_default_),
verbosity_(verbosity_default_),
outputStyle_(outputStyle_default_),
outputFreq_(outputFreq_default_),
showMaxResNormOnly_(showMaxResNormOnly_default_),
label_(label_default_),
isSet_(false)
{}
// Basic Constructor
template<class ScalarType, class MV, class OP>
FixedPointSolMgr<ScalarType,MV,OP>::
FixedPointSolMgr(const Teuchos::RCP<LinearProblem<ScalarType,MV,OP> > &problem,
const Teuchos::RCP<Teuchos::ParameterList> &pl) :
problem_(problem),
outputStream_(outputStream_default_),
convtol_(convtol_default_),
achievedTol_(Teuchos::ScalarTraits<MagnitudeType>::zero()),
maxIters_(maxIters_default_),
numIters_(0),
blockSize_(blockSize_default_),
verbosity_(verbosity_default_),
outputStyle_(outputStyle_default_),
outputFreq_(outputFreq_default_),
showMaxResNormOnly_(showMaxResNormOnly_default_),
label_(label_default_),
isSet_(false)
{
TEUCHOS_TEST_FOR_EXCEPTION(problem_.is_null(), std::invalid_argument,
"FixedPointSolMgr's constructor requires a nonnull LinearProblem instance.");
// If the user passed in a nonnull parameter list, set parameters.
// Otherwise, the next solve() call will use default parameters,
// unless the user calls setParameters() first.
if (! pl.is_null()) {
setParameters (pl);
}
}
template<class ScalarType, class MV, class OP>
void
FixedPointSolMgr<ScalarType,MV,OP>::
setParameters (const Teuchos::RCP<Teuchos::ParameterList> ¶ms)
{
// Create the internal parameter list if one doesn't already exist.
if (params_ == Teuchos::null) {
params_ = Teuchos::rcp( new Teuchos::ParameterList(*getValidParameters()) );
}
else {
params->validateParameters(*getValidParameters());
}
// Check for maximum number of iterations
if (params->isParameter("Maximum Iterations")) {
maxIters_ = params->get("Maximum Iterations",maxIters_default_);
// Update parameter in our list and in status test.
params_->set("Maximum Iterations", maxIters_);
if (maxIterTest_!=Teuchos::null)
maxIterTest_->setMaxIters( maxIters_ );
}
// Check for blocksize
if (params->isParameter("Block Size")) {
blockSize_ = params->get("Block Size",blockSize_default_);
TEUCHOS_TEST_FOR_EXCEPTION(blockSize_ <= 0, std::invalid_argument,
"Belos::FixedPointSolMgr: \"Block Size\" must be strictly positive.");
// Update parameter in our list.
params_->set("Block Size", blockSize_);
}
// Check to see if the timer label changed.
if (params->isParameter("Timer Label")) {
std::string tempLabel = params->get("Timer Label", label_default_);
// Update parameter in our list and solver timer
if (tempLabel != label_) {
label_ = tempLabel;
params_->set("Timer Label", label_);
std::string solveLabel = label_ + ": FixedPointSolMgr total solve time";
#ifdef BELOS_TEUCHOS_TIME_MONITOR
timerSolve_ = Teuchos::TimeMonitor::getNewCounter(solveLabel);
#endif
}
}
// Check for a change in verbosity level
if (params->isParameter("Verbosity")) {
if (Teuchos::isParameterType<int>(*params,"Verbosity")) {
verbosity_ = params->get("Verbosity", verbosity_default_);
} else {
verbosity_ = (int)Teuchos::getParameter<Belos::MsgType>(*params,"Verbosity");
}
// Update parameter in our list.
params_->set("Verbosity", verbosity_);
if (printer_ != Teuchos::null)
printer_->setVerbosity(verbosity_);
}
// Check for a change in output style
if (params->isParameter("Output Style")) {
if (Teuchos::isParameterType<int>(*params,"Output Style")) {
outputStyle_ = params->get("Output Style", outputStyle_default_);
} else {
outputStyle_ = (int)Teuchos::getParameter<Belos::OutputType>(*params,"Output Style");
}
// Update parameter in our list.
params_->set("Output Style", outputStyle_);
outputTest_ = Teuchos::null;
}
// output stream
if (params->isParameter("Output Stream")) {
outputStream_ = Teuchos::getParameter<Teuchos::RCP<std::ostream> >(*params,"Output Stream");
// Update parameter in our list.
params_->set("Output Stream", outputStream_);
if (printer_ != Teuchos::null)
printer_->setOStream( outputStream_ );
}
// frequency level
if (verbosity_ & Belos::StatusTestDetails) {
if (params->isParameter("Output Frequency")) {
outputFreq_ = params->get("Output Frequency", outputFreq_default_);
}
// Update parameter in out list and output status test.
params_->set("Output Frequency", outputFreq_);
if (outputTest_ != Teuchos::null)
outputTest_->setOutputFrequency( outputFreq_ );
}
// Create output manager if we need to.
if (printer_ == Teuchos::null) {
printer_ = Teuchos::rcp( new OutputManager<ScalarType>(verbosity_, outputStream_) );
}
// Convergence
typedef Belos::StatusTestCombo<ScalarType,MV,OP> StatusTestCombo_t;
typedef Belos::StatusTestGenResNorm<ScalarType,MV,OP> StatusTestResNorm_t;
// Check for convergence tolerance
if (params->isParameter("Convergence Tolerance")) {
convtol_ = params->get("Convergence Tolerance",convtol_default_);
// Update parameter in our list and residual tests.
params_->set("Convergence Tolerance", convtol_);
if (convTest_ != Teuchos::null)
convTest_->setTolerance( convtol_ );
}
if (params->isParameter("Show Maximum Residual Norm Only")) {
showMaxResNormOnly_ = Teuchos::getParameter<bool>(*params,"Show Maximum Residual Norm Only");
// Update parameter in our list and residual tests
params_->set("Show Maximum Residual Norm Only", showMaxResNormOnly_);
if (convTest_ != Teuchos::null)
convTest_->setShowMaxResNormOnly( showMaxResNormOnly_ );
}
// Create status tests if we need to.
// Basic test checks maximum iterations and native residual.
if (maxIterTest_ == Teuchos::null)
maxIterTest_ = Teuchos::rcp( new StatusTestMaxIters<ScalarType,MV,OP>( maxIters_ ) );
// Implicit residual test, using the native residual to determine if convergence was achieved.
if (convTest_ == Teuchos::null)
convTest_ = Teuchos::rcp( new StatusTestResNorm_t( convtol_, 1 ) );
if (sTest_ == Teuchos::null)
sTest_ = Teuchos::rcp( new StatusTestCombo_t( StatusTestCombo_t::OR, maxIterTest_, convTest_ ) );
if (outputTest_ == Teuchos::null) {
// Create the status test output class.
// This class manages and formats the output from the status test.
StatusTestOutputFactory<ScalarType,MV,OP> stoFactory( outputStyle_ );
outputTest_ = stoFactory.create( printer_, sTest_, outputFreq_, Passed+Failed+Undefined );
// Set the solver string for the output test
std::string solverDesc = " Fixed Point ";
outputTest_->setSolverDesc( solverDesc );
}
// Create the timer if we need to.
if (timerSolve_ == Teuchos::null) {
std::string solveLabel = label_ + ": FixedPointSolMgr total solve time";
#ifdef BELOS_TEUCHOS_TIME_MONITOR
timerSolve_ = Teuchos::TimeMonitor::getNewCounter(solveLabel);
#endif
}
// Inform the solver manager that the current parameters were set.
isSet_ = true;
}
template<class ScalarType, class MV, class OP>
Teuchos::RCP<const Teuchos::ParameterList>
FixedPointSolMgr<ScalarType,MV,OP>::getValidParameters() const
{
static Teuchos::RCP<const Teuchos::ParameterList> validPL;
// Set all the valid parameters and their default values.
if(is_null(validPL)) {
Teuchos::RCP<Teuchos::ParameterList> pl = Teuchos::parameterList();
pl->set("Convergence Tolerance", convtol_default_,
"The relative residual tolerance that needs to be achieved by the\n"
"iterative solver in order for the linear system to be declared converged.");
pl->set("Maximum Iterations", maxIters_default_,
"The maximum number of block iterations allowed for each\n"
"set of RHS solved.");
pl->set("Block Size", blockSize_default_,
"The number of vectors in each block.");
pl->set("Verbosity", verbosity_default_,
"What type(s) of solver information should be outputted\n"
"to the output stream.");
pl->set("Output Style", outputStyle_default_,
"What style is used for the solver information outputted\n"
"to the output stream.");
pl->set("Output Frequency", outputFreq_default_,
"How often convergence information should be outputted\n"
"to the output stream.");
pl->set("Output Stream", outputStream_default_,
"A reference-counted pointer to the output stream where all\n"
"solver output is sent.");
pl->set("Show Maximum Residual Norm Only", showMaxResNormOnly_default_,
"When convergence information is printed, only show the maximum\n"
"relative residual norm when the block size is greater than one.");
pl->set("Timer Label", label_default_,
"The string to use as a prefix for the timer labels.");
validPL = pl;
}
return validPL;
}
// solve()
template<class ScalarType, class MV, class OP>
ReturnType FixedPointSolMgr<ScalarType,MV,OP>::solve() {
using Teuchos::RCP;
using Teuchos::rcp;
using Teuchos::rcp_const_cast;
using Teuchos::rcp_dynamic_cast;
// Set the current parameters if they were not set before. NOTE:
// This may occur if the user generated the solver manager with the
// default constructor and then didn't set any parameters using
// setParameters().
if (!isSet_) {
setParameters(Teuchos::parameterList(*getValidParameters()));
}
Teuchos::BLAS<int,ScalarType> blas;
Teuchos::LAPACK<int,ScalarType> lapack;
TEUCHOS_TEST_FOR_EXCEPTION( !problem_->isProblemSet(),
FixedPointSolMgrLinearProblemFailure,
"Belos::FixedPointSolMgr::solve(): Linear problem is not ready, setProblem() "
"has not been called.");
// Create indices for the linear systems to be solved.
int startPtr = 0;
int numRHS2Solve = MVT::GetNumberVecs( *(problem_->getRHS()) );
int numCurrRHS = ( numRHS2Solve < blockSize_) ? numRHS2Solve : blockSize_;
std::vector<int> currIdx, currIdx2;
currIdx.resize( blockSize_ );
currIdx2.resize( blockSize_ );
for (int i=0; i<numCurrRHS; ++i)
{ currIdx[i] = startPtr+i; currIdx2[i]=i; }
for (int i=numCurrRHS; i<blockSize_; ++i)
{ currIdx[i] = -1; currIdx2[i] = i; }
// Inform the linear problem of the current linear system to solve.
problem_->setLSIndex( currIdx );
////////////////////////////////////////////////////////////////////////////
// Set up the parameter list for the Iteration subclass.
Teuchos::ParameterList plist;
plist.set("Block Size",blockSize_);
// Reset the output status test (controls all the other status tests).
outputTest_->reset();
// Assume convergence is achieved, then let any failed convergence
// set this to false. "Innocent until proven guilty."
bool isConverged = true;
////////////////////////////////////////////////////////////////////////////
// Set up the FixedPoint Iteration subclass.
RCP<FixedPointIteration<ScalarType,MV,OP> > block_fp_iter;
block_fp_iter = rcp (new FixedPointIter<ScalarType,MV,OP> (problem_, printer_, outputTest_, plist));
// Enter solve() iterations
{
#ifdef BELOS_TEUCHOS_TIME_MONITOR
Teuchos::TimeMonitor slvtimer(*timerSolve_);
#endif
while ( numRHS2Solve > 0 ) {
//
// Reset the active / converged vectors from this block
std::vector<int> convRHSIdx;
std::vector<int> currRHSIdx( currIdx );
currRHSIdx.resize(numCurrRHS);
// Reset the number of iterations.
block_fp_iter->resetNumIters();
// Reset the number of calls that the status test output knows about.
outputTest_->resetNumCalls();
// Get the current residual for this block of linear systems.
RCP<MV> R_0 = MVT::CloneViewNonConst( *(rcp_const_cast<MV>(problem_->getInitResVec())), currIdx );
// Set the new state and initialize the solver.
FixedPointIterationState<ScalarType,MV> newstate;
newstate.R = R_0;
block_fp_iter->initializeFixedPoint(newstate);
while(1) {
// tell block_fp_iter to iterate
try {
block_fp_iter->iterate();
//
// Check whether any of the linear systems converged.
//
if (convTest_->getStatus() == Passed) {
// At least one of the linear system(s) converged.
//
// Get the column indices of the linear systems that converged.
std::vector<int> convIdx = convTest_->convIndices();
// If the number of converged linear systems equals the
// number of linear systems currently being solved, then
// we are done with this block.
if (convIdx.size() == currRHSIdx.size())
break; // break from while(1){block_fp_iter->iterate()}
// Inform the linear problem that we are finished with
// this current linear system.
problem_->setCurrLS();
// Reset currRHSIdx to contain the right-hand sides that
// are left to converge for this block.
int have = 0;
std::vector<int> unconvIdx(currRHSIdx.size());
for (unsigned int i=0; i<currRHSIdx.size(); ++i) {
bool found = false;
for (unsigned int j=0; j<convIdx.size(); ++j) {
if (currRHSIdx[i] == convIdx[j]) {
found = true;
break;
}
}
if (!found) {
currIdx2[have] = currIdx2[i];
currRHSIdx[have++] = currRHSIdx[i];
}
else {
}
}
currRHSIdx.resize(have);
currIdx2.resize(have);
// Set the remaining indices after deflation.
problem_->setLSIndex( currRHSIdx );
// Get the current residual vector.
std::vector<MagnitudeType> norms;
R_0 = MVT::CloneCopy( *(block_fp_iter->getNativeResiduals(&norms)),currIdx2 );
for (int i=0; i<have; ++i) { currIdx2[i] = i; }
// Set the new blocksize for the solver.
block_fp_iter->setBlockSize( have );
// Set the new state and initialize the solver.
FixedPointIterationState<ScalarType,MV> defstate;
defstate.R = R_0;
block_fp_iter->initializeFixedPoint(defstate);
}
//
// None of the linear systems converged. Check whether the
// maximum iteration count was reached.
//
else if (maxIterTest_->getStatus() == Passed) {
isConverged = false; // None of the linear systems converged.
break; // break from while(1){block_fp_iter->iterate()}
}
//
// iterate() returned, but none of our status tests Passed.
// This indicates a bug.
//
else {
TEUCHOS_TEST_FOR_EXCEPTION(true,std::logic_error,
"Belos::FixedPointSolMgr::solve(): Neither the convergence test nor "
"the maximum iteration count test passed. Please report this bug "
"to the Belos developers.");
}
}
catch (const std::exception &e) {
std::ostream& err = printer_->stream (Errors);
err << "Error! Caught std::exception in FixedPointIteration::iterate() at "
<< "iteration " << block_fp_iter->getNumIters() << std::endl
<< e.what() << std::endl;
throw;
}
}
// Inform the linear problem that we are finished with this
// block linear system.
problem_->setCurrLS();
// Update indices for the linear systems to be solved.
startPtr += numCurrRHS;
numRHS2Solve -= numCurrRHS;
if ( numRHS2Solve > 0 ) {
numCurrRHS = ( numRHS2Solve < blockSize_) ? numRHS2Solve : blockSize_;
currIdx.resize( blockSize_ );
currIdx2.resize( blockSize_ );
for (int i=0; i<numCurrRHS; ++i)
{ currIdx[i] = startPtr+i; currIdx2[i] = i; }
for (int i=numCurrRHS; i<blockSize_; ++i)
{ currIdx[i] = -1; currIdx2[i] = i; }
// Set the next indices.
problem_->setLSIndex( currIdx );
// Set the new blocksize for the solver.
block_fp_iter->setBlockSize( blockSize_ );
}
else {
currIdx.resize( numRHS2Solve );
}
}// while ( numRHS2Solve > 0 )
}
// print final summary
sTest_->print( printer_->stream(FinalSummary) );
// print timing information
#ifdef BELOS_TEUCHOS_TIME_MONITOR
// Calling summarize() requires communication in general, so don't
// call it unless the user wants to print out timing details.
// summarize() will do all the work even if it's passed a "black
// hole" output stream.
if (verbosity_ & TimingDetails) {
Teuchos::TimeMonitor::summarize( printer_->stream(TimingDetails) );
}
#endif
// Save the iteration count for this solve.
numIters_ = maxIterTest_->getNumIters();
// Save the convergence test value ("achieved tolerance") for this solve.
{
// testValues is nonnull and not persistent.
const std::vector<MagnitudeType>* pTestValues = convTest_->getTestValue();
TEUCHOS_TEST_FOR_EXCEPTION(pTestValues == NULL, std::logic_error,
"Belos::FixedPointSolMgr::solve(): The convergence test's getTestValue() "
"method returned NULL. Please report this bug to the Belos developers.");
TEUCHOS_TEST_FOR_EXCEPTION(pTestValues->size() < 1, std::logic_error,
"Belos::FixedPointSolMgr::solve(): The convergence test's getTestValue() "
"method returned a vector of length zero. Please report this bug to the "
"Belos developers.");
// FIXME (mfh 12 Dec 2011) Does pTestValues really contain the
// achieved tolerances for all vectors in the current solve(), or
// just for the vectors from the last deflation?
achievedTol_ = *std::max_element (pTestValues->begin(), pTestValues->end());
}
if (!isConverged) {
return Unconverged; // return from FixedPointSolMgr::solve()
}
return Converged; // return from FixedPointSolMgr::solve()
}
// This method requires the solver manager to return a std::string that describes itself.
template<class ScalarType, class MV, class OP>
std::string FixedPointSolMgr<ScalarType,MV,OP>::description() const
{
std::ostringstream oss;
oss << "Belos::FixedPointSolMgr<...,"<<Teuchos::ScalarTraits<ScalarType>::name()<<">";
return oss.str();
}
} // end Belos namespace
#endif /* BELOS_FIXEDPOINT_SOLMGR_HPP */
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