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// ************************************************************************
//
// NOX: An Object-Oriented Nonlinear Solver Package
// Copyright (2002) Sandia Corporation
//
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//@HEADER
#ifndef NOX_MULTIPHYSICS_GROUP_H
#define NOX_MULTIPHYSICS_GROUP_H
#include "NOX_Abstract_Group.H" // Base class
#include "NOX_MultiVector.H"
#include "NOX_Common.H" // for std::string
#include "NOX.H" // for NOX::Solver::Manager
#include "Teuchos_RCP.hpp"
#include <vector>
namespace NOX {
namespace Parameter {
class List;
}
namespace Abstract {
class MultiVector;
}
}
namespace NOX {
namespace Multiphysics {
/*!
\brief %NOX pure abstract interface to a "group"; i.e., a
solution vector and the corresponding F-vector, Jacobian matrix,
gradient vector, and Newton vector.
This class is a member of the namespace NOX::Abstract.
The user should implement their own concrete implementation of this
class or use one of the implementations provided by us. Typically
the implementation is also tied to a particular
NOX::Abstract::Vector implementation.
\note The group may be implemented so that multiple groups can
share underlying memory space. This is particularly important when
it comes to the Jacobian, which is often to big to be replicated
for every group. Thus, we have included instructions on how
<em>shared data</em> should be treated for the operator=() and
clone() functions.
*/
class Group : public NOX::Abstract::Group {
public:
//! Constructor.
/*!
\note Constructors for any derived object should always define a default
x-value so that getX() is always defined.
*/
Group( const Teuchos::RCP<std::vector<Teuchos::RCP<NOX::Solver::Generic> > >& solvers,
const Teuchos::RCP<NOX::StatusTest::Generic>& t,
const Teuchos::RCP<Teuchos::ParameterList>& p);
//! Constructor.
Group( const Group & grp, NOX::CopyType typ );
//! Destructor.
virtual ~Group();
/*!
\brief Copies the source group into this group.
\note Any <em>shared data</em> owned by the source should have
its ownership transfered to this group. This may result in
a secret modification to the source object.
*/
virtual NOX::Abstract::Group & operator=(const NOX::Abstract::Group& source);
virtual NOX::Abstract::Group & operator=(const NOX::Multiphysics::Group& source);
//@{ \name "Compute" functions.
//! Set the solution vector x to y.
/*!
\note
This should invalidate the function value, Jacobian,
gradient, and Newton direction.
\note
Throw an error if the copy fails.
\return
Reference to this object
*/
virtual void setX(const NOX::Abstract::Vector& y);
//! Compute x = grp.x + step * d.
/*!
Let \f$x\f$ denote this group's solution vector.
Let \f$\hat x\f$ denote the result of grp.getX().
Then set
\f[
x = \hat x + \mbox{step} \; d.
\f]
\note
This should invalidate the function value, Jacobian,
gradient, and Newton direction.
\note
Throw an error if the copy fails.
\return
Reference to this object
*/
virtual void computeX(const NOX::Abstract::Group& grp,
const NOX::Abstract::Vector& d, double step);
//! Compute and store F(x).
/*!
\note
It's generally useful to also compute and store the 2-norm of F(x)
at this point for later access by the getNormF() function.
\return
<ul>
<li> NOX::Abstract::Group::Failed - If the computation fails in any way
<li> NOX::Abstract::Group::Ok - Otherwise
</ul>
*/
virtual NOX::Abstract::Group::ReturnType computeF();
/** @name "Is" functions.
Checks to see if various objects have been computed. Returns true
if the corresponding "compute" function has been called since the
last change to the solution vector.
*/
//@{
//! Return true if F is valid.
virtual bool isF() const;
/** @name "Get" functions.
Note that these function do not check whether or not the vectors
are valid. Must use the "Is" functions for that purpose.
*/
//@{
//! Return solution vector.
virtual const NOX::Abstract::Vector& getX() const;
//! Return F(x)
virtual const NOX::Abstract::Vector& getF() const;
//! Return 2-norm of F(x).
/*! In other words, \f[ \sqrt{\sum_{i=1}^n F_i^2} \f] */
virtual double getNormF() const;
//! Return gradient.
virtual const NOX::Abstract::Vector& getGradient() const;
//! Return Newton direction.
virtual const NOX::Abstract::Vector& getNewton() const;
virtual Teuchos::RCP< const NOX::Abstract::Vector > getXPtr() const;
virtual Teuchos::RCP< const NOX::Abstract::Vector > getFPtr() const;
virtual Teuchos::RCP< const NOX::Abstract::Vector > getGradientPtr() const;
virtual Teuchos::RCP< const NOX::Abstract::Vector > getNewtonPtr() const;
//@{ \name Creating new Groups.
/*!
\brief Create a new %Group of the same derived type as this one by
cloning this one, and return a ref count pointer to the new group.
If type is NOX::DeepCopy, then we need to create an exact replica
of "this". Otherwise, if type is NOX::ShapeCopy, we need only
replicate the shape of "this" (only the memory is allocated, the
values are not copied into the vectors and Jacobian). Returns NULL
if clone is not supported.
\note Any <em>shared data</em> should have its ownership transfered to this
group from the source for a NOX::DeepCopy.
*/
virtual Teuchos::RCP<NOX::Abstract::Group>
clone(NOX::CopyType type = NOX::DeepCopy) const;
//@}
protected:
//! resets the isValid flags to false
virtual void resetIsValid();
protected:
//! Pointer to the container of solvers for each problem to be coupled
Teuchos::RCP<std::vector<Teuchos::RCP<NOX::Solver::Generic> > > solversVecPtr;
/** @name IsValid flags
*
* True if the current solution is up-to-date with respect to the
* currect xVector. */
//@{
bool isValidRHS;
//! 2-Norm of RHS
double normRHS;
};
} // namespace Multiphysics
} // namespace NOX
#endif
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