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// LOCA: Library of Continuation Algorithms Package
// Copyright (2012) Sandia Corporation
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#ifndef LOCA_EPETRAADAPTIVESTEPPER_H
#define LOCA_EPETRAADAPTIVESTEPPER_H
#include "Teuchos_RCP.hpp"
#include "LOCA_Abstract_Iterator.H" // base class
#include "Teuchos_ParameterList.hpp" // class data element
#include "NOX_Solver_Generic.H" // class data element
#include "NOX_StatusTest_Generic.H" // for enum StatusType
#include "NOX_Common.H" // for <string> class
#include "LOCA_Epetra_AdaptiveSolutionManager.H"
namespace LOCA {
namespace Epetra {
/*!
* \brief Implementation of LOCA::Abstract::Iterator for computing points
* along a continuation curve.
*
* The %AdaptiveStepper class implements the pure virtual methods of the
* LOCA::Abstract::Iterator for iteratively computing points along a
* continuation curve.
*/
class AdaptiveStepper : public LOCA::Abstract::Iterator {
public:
AdaptiveStepper(const Teuchos::RCP<Teuchos::ParameterList>& pList,
const Teuchos::RCP<LOCA::Epetra::AdaptiveSolutionManager>& mgr,
const Teuchos::RCP<LOCA::GlobalData>& global_data,
const Teuchos::RCP<NOX::StatusTest::Generic>& nt);
//! Destructor
virtual ~AdaptiveStepper();
//! Replaces the eigensolver parameter list.
bool
eigensolverReset( Teuchos::RCP<Teuchos::ParameterList> & newEigensolverList );
//! Return the current solution group.
virtual Teuchos::RCP<const LOCA::MultiContinuation::AbstractGroup>
getSolutionGroup() const;
//! Return the current bifurcation group.
/*!
* If the current bifurcation method is "None", then the returned group
* is the same as getSolutionGroup(), otherwise this method returns the
* current bifurcation group (e.g., a turning point group).
*/
virtual Teuchos::RCP<const LOCA::MultiContinuation::AbstractGroup>
getBifurcationGroup() const;
//! Return the output parameters from the stepper algorithm.
virtual Teuchos::RCP<const Teuchos::ParameterList>
getList() const;
/*! @brief Return the current nonlinear solver pointer.
*
* Will throw an error if the solver does not exist yet.
*/
virtual Teuchos::RCP<const NOX::Solver::Generic>
getSolver() const;
/*! @brief Return the current continuation parameter from the underlying LOCA::MultiContinuation::AbstractStrategy.
*
*/
virtual double
getContinuationParameter() const;
//! Run the iterator
virtual LOCA::Abstract::Iterator::IteratorStatus run();
protected:
void setSolutionGroup(const Teuchos::RCP<LOCA::MultiContinuation::AbstractGroup>& initialGuess,
const double value);
//! Build LOCA Factory needed to support stepping strategy
void buildLOCAFactory();
//! Initialize iterator
virtual LOCA::Abstract::Iterator::IteratorStatus start();
//! Finalize iterator
virtual LOCA::Abstract::Iterator::IteratorStatus
finish(LOCA::Abstract::Iterator::IteratorStatus iteratorStatus);
//! Preprocess step
virtual LOCA::Abstract::Iterator::StepStatus
preprocess(LOCA::Abstract::Iterator::StepStatus stepStatus);
//! Adaptation step
virtual LOCA::Abstract::Iterator::StepStatus
adapt(LOCA::Abstract::Iterator::StepStatus stepStatus);
//! Compute step
virtual LOCA::Abstract::Iterator::StepStatus
compute(LOCA::Abstract::Iterator::StepStatus stepStatus);
//! Postprocess step
virtual LOCA::Abstract::Iterator::StepStatus
postprocess(LOCA::Abstract::Iterator::StepStatus stepStatus);
//! Check stopping criteria.
LOCA::Abstract::Iterator::IteratorStatus
stop(LOCA::Abstract::Iterator::StepStatus stepStatus);
//! Perform iteration
virtual LOCA::Abstract::Iterator::IteratorStatus iterate();
//! Builds a constrained group is specified through parameter lists
Teuchos::RCP<LOCA::MultiContinuation::AbstractGroup>
buildConstrainedGroup(
const Teuchos::RCP<LOCA::MultiContinuation::AbstractGroup>& grp);
//! Compute a new step size based on results from the previous step
LOCA::Abstract::Iterator::StepStatus
computeStepSize(LOCA::Abstract::Iterator::StepStatus stepStatus,
double& stepSize);
//! Print to the screen the initialization information
virtual void printInitializationInfo();
//! Print to the screen information for the beginning of a new continuation step
virtual void printStartStep();
//! Print to the screen information for the beginning of a restart relaxation step
virtual void printRelaxationStep();
//! Print to the screen information for the end of a successful continuation step
virtual void printEndStep(LOCA::Abstract::Iterator::StepStatus stepStatus);
//! Print to the screen information for the end of a relaxation step
virtual void printRelaxationEndStep(LOCA::Abstract::Iterator::StepStatus stepStatus);
//! Print to the screen the concluding information
virtual void printEndInfo();
//! Checks to see if continuation parameter is within threshold of bound
virtual bool withinThreshold();
private:
//! Private to prohibit copying
AdaptiveStepper(const AdaptiveStepper&);
//! Private to prohibit copying
AdaptiveStepper& operator = (const AdaptiveStepper&);
protected:
//! Adaptive solution manager provides interface to remesh/resize functions
Teuchos::RCP<LOCA::Epetra::AdaptiveSolutionManager> mgr;
//! Global data
Teuchos::RCP<LOCA::GlobalData> globalData;
//! Parsed parameter list
Teuchos::RCP<LOCA::Parameter::SublistParser> parsedParams;
//! Predictor strategy
Teuchos::RCP<LOCA::MultiPredictor::AbstractStrategy> predictor;
//! Current continuation group
Teuchos::RCP<LOCA::MultiContinuation::AbstractStrategy> curGroupPtr;
//! Continuation group from previous step
Teuchos::RCP<LOCA::MultiContinuation::AbstractStrategy> prevGroupPtr;
//! Eigensolver for computing eigenvalues after each continuation step
Teuchos::RCP<LOCA::Eigensolver::AbstractStrategy> eigensolver;
//! Strategy for saving eigenvectors/values
Teuchos::RCP<LOCA::SaveEigenData::AbstractStrategy> saveEigenData;
//! Pointer to bifurcation group
Teuchos::RCP<LOCA::MultiContinuation::AbstractGroup> bifGroupPtr;
//! Pointer to the NOX status test.
Teuchos::RCP<NOX::StatusTest::Generic> noxStatusTestPtr;
//! Pointer to parameter list passed in constructor/reset method
Teuchos::RCP<Teuchos::ParameterList> paramListPtr;
//! Pointer to stepper parameters
Teuchos::RCP<Teuchos::ParameterList> stepperList;
//! Solver (a.k.a corrector)
Teuchos::RCP<NOX::Solver::Generic> solverPtr;
//! Current predictor direction
Teuchos::RCP<LOCA::MultiContinuation::ExtendedVector> curPredictorPtr;
//! previous predictor direction
Teuchos::RCP<LOCA::MultiContinuation::ExtendedVector> prevPredictorPtr;
//! Step size control strategy
Teuchos::RCP<LOCA::StepSize::AbstractStrategy> stepSizeStrategyPtr;
//! Other parameter lists
Teuchos::RCP<Teuchos::ParameterList> bifurcationParams;
Teuchos::RCP<Teuchos::ParameterList> firstStepperParams;
//! Name of continuation parameter
std::string conParamName;
//! Index of continuation parameter
std::vector<int> conParamIDs;
//! Starting value of continuation parameter, \f$\lambda_b \f$.
double startValue;
//! Largest allowable value of continuation parameter
double maxValue;
//! Smallest allowable value of continuation parameter
double minValue;
//! Current step size (change in the continuation parameter), \f$\Delta \lambda_i \f$.
double stepSize;
//! Maximum number of Newton iterations per continuation step,\f$ N_{max} \f$. Defaults to 15.
int maxNonlinearSteps;
//! Target parameter value for last step (either maxValue or minValue)
double targetValue;
//! Flag indicating if this is an extra step to hit target value
bool isTargetStep;
//! Flag indicating whether to do tangent factor step size scaling
bool doTangentFactorScaling;
//! Tangent factor
double tangentFactor;
//! Minimum tangent factor
double minTangentFactor;
//! Tangent factor exponent
double tangentFactorExponent;
//! Flag indicating whether to compute eigenvalues after each step
bool calcEigenvalues;
//! Flag indicating whether to return failed upon reaching max steps
bool return_failed_on_max_steps;
//! Flag indicating that the failed step is only due to the maximum number of steps being exceeded
bool max_steps_exceeded;
};
} // end namespace Epetra
} // end namespace LOCA
#endif
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