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// LOCA: Library of Continuation Algorithms Package
// Copyright (2005) Sandia Corporation
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#ifndef LOCA_MULTICONTINUATION_CONSTRAINTINTERFACE_H
#define LOCA_MULTICONTINUATION_CONSTRAINTINTERFACE_H
#include "Teuchos_RCP.hpp" // for RCP
#include "NOX_Abstract_Group.H" // for CopyType, ReturnType
#include "NOX_Abstract_MultiVector.H" // for MultiVector, DenseMatrix
#include "LOCA_Abstract_Iterator.H" // for StepStatus
// forward declarations
namespace LOCA {
namespace MultiContinuation {
class ExtendedVector;
}
}
namespace LOCA {
namespace MultiContinuation {
/*!
* \brief Abstract interface for the constraint portion of a constrained
* nonlinear system.
*/
/*!
* This class is used in conjunction with
* LOCA::MultiContinuation::ConstrainedGroup to represent a constrained
* nonlinear system:
* \f[
* f(x,y) = 0
* g(x,y) = 0
* \f]
* where \f$f(x,y)\f$ is represented by a concrete implementation of
* a LOCA::MultiContinuation::AbstractGroup and \f$g(x,y)\f$ (the
* constraint) is represented by an implementation of this class. Here
* it is assumed the resulting system is square, i.e., \f$x\in\Re^n\f$,
* \f$y\in\Re^m\f$, \f$f(x,y)\in\Re^n\f$ and \f$g(x,y)\in\Re^m\f$.
*
* This class provides an interface to evaluate \f$g(x,y)\f$, compute
* the derivatives \f$g_x\f$ and \f$g_y\f$, and apply the derivative
* \f$g_x\f$ to arbitrary multi-vectors (the implementation is never
* required to explicitly store \f$g_x\f$ which is impractical in
* many situations).
*/
class ConstraintInterface {
public:
//! Constructor
ConstraintInterface() {}
//! Destructor
virtual ~ConstraintInterface() {}
//! Copy
virtual void copy(const ConstraintInterface& source) = 0;
//! Cloning function
virtual
Teuchos::RCP<LOCA::MultiContinuation::ConstraintInterface>
clone(NOX::CopyType type = NOX::DeepCopy) const = 0;
//! Return number of constraints
virtual int numConstraints() const = 0;
//! Set the solution vector to x.
virtual void setX(const NOX::Abstract::Vector& x) = 0;
//! Sets parameter indexed by paramID
virtual void setParam(int paramID, double val) = 0;
//! Sets parameters indexed by paramIDs
virtual void setParams(const std::vector<int>& paramIDs,
const NOX::Abstract::MultiVector::DenseMatrix& vals) = 0;
//! Compute constraint residuals
virtual NOX::Abstract::Group::ReturnType
computeConstraints() = 0;
//! Compute derivative of constraints w.r.t. solution vector x
virtual NOX::Abstract::Group::ReturnType
computeDX() = 0;
//! Compute derivative of constraints w.r.t. supplied parameters.
/*!
* The first column of \c dgdp should be filled with the constraint
* residuals \f$g\f$ if \c isValidG is \c false. If \c isValidG is
* \c true, then the \c dgdp contains \f$g\f$ on input.
*/
virtual NOX::Abstract::Group::ReturnType
computeDP(const std::vector<int>& paramIDs,
NOX::Abstract::MultiVector::DenseMatrix& dgdp,
bool isValidG) = 0;
//! Return \c true if constraint residuals are valid
virtual bool isConstraints() const = 0;
//! Return \c true if derivative of constraint w.r.t. x is valid
virtual bool isDX() const = 0;
//! Return constraint residuals
virtual const NOX::Abstract::MultiVector::DenseMatrix&
getConstraints() const = 0;
//! Compute result_p = alpha * dg/dx * input_x
/*!
* Note that if there are n constraints and input_x has m columns,
* result_p should be a n by m matrix and is equivalent to
* \code
* input_x.multiply(alpha, dgdx, result_p).
* \endcode
*/
virtual NOX::Abstract::Group::ReturnType
multiplyDX(double alpha,
const NOX::Abstract::MultiVector& input_x,
NOX::Abstract::MultiVector::DenseMatrix& result_p) const = 0;
//! Compute result_x = alpha * dg/dx^T * op(b) + beta * result_x
/*!
* Note that this should be equivalent to
* \code
* result_x.update(transb, alpha, dgdx, b, beta);
* \endcode
*/
virtual NOX::Abstract::Group::ReturnType
addDX(Teuchos::ETransp transb,
double alpha,
const NOX::Abstract::MultiVector::DenseMatrix& b,
double beta,
NOX::Abstract::MultiVector& result_x) const = 0;
/*!
* \brief Return \c true if solution component of constraint
* derivatives is zero
*/
virtual bool isDXZero() const = 0;
//! Perform any preprocessing before a continuation step starts.
/*!
* The \c stepStatus argument indicates whether the previous step was
* successful. The default implementation is empty.
*/
virtual void
preProcessContinuationStep(
LOCA::Abstract::Iterator::StepStatus stepStatus) {}
//! Perform any postprocessing after a continuation step finishes.
/*!
* The \c stepStatus argument indicates whether the step was
* successful. The default implementation is empty.
*/
virtual void
postProcessContinuationStep(
LOCA::Abstract::Iterator::StepStatus stepStatus) {}
}; // Class ConstraintInterface
} // Namespace MultiContinuation
} // Namespace LOCA
#endif // LOCA_MULTICONTINUATION_CONSTRAINTINTERFACE_H
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