libtrilinos-teko-dev 12.4.2-2 / usr / include / trilinos / Teko_IterativePreconditionerFactory.hpp

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#ifndef __Teko_IterativePreconditionerFactory_hpp__
#define __Teko_IterativePreconditionerFactory_hpp__

// Teko includes
#include "Teko_PreconditionerFactory.hpp"

namespace Teko {

/** \brief A class which applies a preconditioner repeatedly.
  *        The inherit assumption is that the preconditioner corresponds
  *        to a residual correction.
  *        
  * A class which applies a preconditioner repeatedly.
  * The inherit assumption is that the preconditioner corresponds
  * to a residual correction. For a linear operator \f$A\f$ preconditioned
  * by \f$P^{-1}\f$ the initial residual correction is
  *
    \f$ 
    e_0 = P^{-1} r_0.    
    \f$
  *
  * Now because the preconditioner approximates \f$A^{-1}\f$ we have
  * \f$r_1 = r_0 - A e_0\f$. This leads to the following residual 
  * correction scheme
  *
    \f$
    r_i = (I - A P^{-1})^i r_0.
    \f$
  *
  * An additional application of the preconditioner will give the 
  * $i^{th}$ correction
  *
    \f$
    e_i = P^{-1} \sum_{j=0}^i r_j.
    \f$
  *
  * This factory takes a preconditioner (or inverse) factory and
  * constructs \f$P^{-1}\f$, and then applies it, as outlined above,
  * a user specified number of times.
  *
  * Similar to the other preconditioner in Teko this class can be 
  * constructed through an XML file. For example:
  \code
    <ParameterList name="Iterative Solve">
      <Parameter name="Type" type="string" value="Iterative Preconditioner"/>
      <Parameter name="Preconditioner Type" type="string" value="ML"/>
      <Parameter name="Iteration Count" type="int" value="3"/>
    </ParameterList>
  \endcode
  */
class IterativePreconditionerFactory 
   : public virtual Teko::PreconditionerFactory {
public:
   //! Default constructor, for use with the AutoClone class.
   IterativePreconditionerFactory();

   /** Construct a preconditioner factory that applies a specified
     * preconditioner, a fixed number of times.
     *
     * \param[in] correctionNum The correction number to be returned
     *                          by the preconditioner operator. If the
     *                          preconditioner is only applied once than
     *                          <code>correctionNum=0</code> and \f$e_0\f$
     *                          is returned.
     * \param[in] precFactory Factory used to construct the preconditioner
     */
   IterativePreconditionerFactory(unsigned int correctionNum,
                               const Teuchos::RCP<Teko::InverseFactory> & precFactory);

   /** Construct a preconditioner factory that applies a specified
     * preconditioner, a fixed number of times.
     *
     * \param[in] correctionNum The correction number to be returned
     *                          by the preconditioner operator. If the
     *                          preconditioner is only applied once than
     *                          <code>correctionNum=0</code> and \f$e_0\f$
     *                          is returned.
     * \param[in] precFactory Factory used to construct the preconditioner
     */
   IterativePreconditionerFactory(unsigned int correctionNum,
                               const Teuchos::RCP<Teko::PreconditionerFactory> & precFactory);


   /** \brief Function that is called to build the preconditioner
     *        for the linear operator that is passed in.
     *
     * This function builds a preconditioner based on the passed
     * in LinearOp. 
     *
     * \param[in] lo    Source linear operator that is to be preconditioned.
     * \param[in] state An object associated with this operator to store
     *                  the preconditioner state.
     * 
     * \returns The preconditioner as a linear operator (i.e. to perform
    *           a matrix-vector operation simply call "apply").
     */
   virtual LinearOp buildPreconditionerOperator(LinearOp & lo,PreconditionerState & state) const;

   //! @name Methods for construction from a parameter list entry
   //@{

   /** \brief This function builds the internals of the preconditioner factory
     *        from a parameter list.
     *        
     * This function builds the internals of the preconditioner factory
     * from a parameter list. Furthermore, it allows a preconditioner factory
     * developer to easily add a factory to the build system. This function
     * is required for building a preconditioner from a parameter list.
     *
     * \param[in] settings Parmaeter list to use as the internal settings
     */
   virtual void initializeFromParameterList(const Teuchos::ParameterList & settings);

   /** \brief Request the additional parameters this preconditioner factory
     *        needs. 
     *
     * Request the additonal parameters needed by this preconditioner factory.
     * The parameter list will have a set of fields that can be filled with 
     * the requested values. These fields include all requirements, even those
     * of the sub-solvers if there are any.  Once correctly filled the object
     * can be updated by calling the updateRequestedParameters with the filled
     * parameter list.
     *
     * \returns A parameter list with the requested parameters.
     */
   virtual Teuchos::RCP<Teuchos::ParameterList> getRequestedParameters() const;
   
   /** \brief Update this object with the fields from a parameter list.
     *
     * Update the requested fields using a parameter list. This method is
     * expected to pair with the getRequestedParameters method (i.e. the fields
     * requested are going to be update using this method).
     *
     * \param[in] pl Parameter list containing the requested parameters.
     *
     * \returns If the method succeeded (found all its required parameters) this
     *          method returns true, otherwise it returns false.
     */
   virtual bool updateRequestedParameters(const Teuchos::ParameterList & pl);
   
   //@}

protected:
   unsigned int correctionNum_;
   Teuchos::RCP<Teko::InverseFactory> precFactory_;
};

} // end namespace Teko

#endif