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/*BHEADER**********************************************************************
 * Copyright (c) 2008,  Lawrence Livermore National Security, LLC.
 * Produced at the Lawrence Livermore National Laboratory.
 * This file is part of HYPRE.  See file COPYRIGHT for details.
 *
 * HYPRE is free software; you can redistribute it and/or modify it under the
 * terms of the GNU Lesser General Public License (as published by the Free
 * Software Foundation) version 2.1 dated February 1999.
 *
 * $Revision: 2.13 $
 ***********************************************************************EHEADER*/


#ifndef HYPRE_KRYLOV_HEADER
#define HYPRE_KRYLOV_HEADER

#include "HYPRE_utilities.h"

#ifdef __cplusplus
extern "C" {
#endif

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name Krylov Solvers
 *
 * These solvers support many of the matrix/vector storage schemes in hypre.
 * They should be used in conjunction with the storage-specific interfaces,
 * particularly the specific Create() and Destroy() functions.
 *
 * @memo A basic interface for Krylov solvers
 **/
/*@{*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name Krylov Solvers
 **/
/*@{*/

#ifndef HYPRE_SOLVER_STRUCT
#define HYPRE_SOLVER_STRUCT
struct hypre_Solver_struct;
/**
 * The solver object.
 **/
typedef struct hypre_Solver_struct *HYPRE_Solver;
#endif

#ifndef HYPRE_MATRIX_STRUCT
#define HYPRE_MATRIX_STRUCT
struct hypre_Matrix_struct;
/**
 * The matrix object.
 **/
typedef struct hypre_Matrix_struct *HYPRE_Matrix;
#endif

#ifndef HYPRE_VECTOR_STRUCT
#define HYPRE_VECTOR_STRUCT
struct hypre_Vector_struct;
/**
 * The vector object.
 **/
typedef struct hypre_Vector_struct *HYPRE_Vector;
#endif

typedef HYPRE_Int (*HYPRE_PtrToSolverFcn)(HYPRE_Solver,
                                    HYPRE_Matrix,
                                    HYPRE_Vector,
                                    HYPRE_Vector);

#ifndef HYPRE_MODIFYPC
#define HYPRE_MODIFYPC
typedef HYPRE_Int (*HYPRE_PtrToModifyPCFcn)(HYPRE_Solver,
                                      HYPRE_Int,
                                      double);

#endif
/*@}*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name PCG Solver
 **/
/*@{*/

/**
 * Prepare to solve the system.  The coefficient data in {\tt b} and {\tt x} is
 * ignored here, but information about the layout of the data may be used.
 **/
HYPRE_Int HYPRE_PCGSetup(HYPRE_Solver solver,
                   HYPRE_Matrix A,
                   HYPRE_Vector b,
                   HYPRE_Vector x);

/**
 * Solve the system.
 **/
HYPRE_Int HYPRE_PCGSolve(HYPRE_Solver solver,
                   HYPRE_Matrix A,
                   HYPRE_Vector b,
                   HYPRE_Vector x);

/**
 * (Optional) Set the relative convergence tolerance.
 **/
HYPRE_Int HYPRE_PCGSetTol(HYPRE_Solver solver,
                    double       tol);

/**
 * (Optional) Set the absolute convergence tolerance (default is
 * 0). If one desires the convergence test to check the absolute
 * convergence tolerance {\it only}, then set the relative convergence
 * tolerance to 0.0.  (The default convergence test is $ <C*r,r> \leq$
 * max(relative$\_$tolerance$^{2} \ast <C*b, b>$, absolute$\_$tolerance$^2$).)
 **/
HYPRE_Int HYPRE_PCGSetAbsoluteTol(HYPRE_Solver solver,
                            double       a_tol);

/**
 * (Optional) Set a residual-based convergence tolerance which checks if
 * $\|r_{old}-r_{new}\| < rtol \|b\|$. This is useful when trying to converge to
 * very low relative and/or absolute tolerances, in order to bail-out before
 * roundoff errors affect the approximation.
 **/
HYPRE_Int HYPRE_PCGSetResidualTol(HYPRE_Solver solver,
                            double       rtol);
/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_PCGSetAbsoluteTolFactor(HYPRE_Solver solver, double abstolf);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_PCGSetConvergenceFactorTol(HYPRE_Solver solver, double cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_PCGSetStopCrit(HYPRE_Solver solver, HYPRE_Int stop_crit);

/**
 * (Optional) Set maximum number of iterations.
 **/
HYPRE_Int HYPRE_PCGSetMaxIter(HYPRE_Solver solver,
                        HYPRE_Int          max_iter);

/**
 * (Optional) Use the two-norm in stopping criteria.
 **/
HYPRE_Int HYPRE_PCGSetTwoNorm(HYPRE_Solver solver,
                        HYPRE_Int          two_norm);

/**
 * (Optional) Additionally require that the relative difference in
 * successive iterates be small.
 **/
HYPRE_Int HYPRE_PCGSetRelChange(HYPRE_Solver solver,
                          HYPRE_Int          rel_change);

/**
 * (Optional) Recompute the residual at the end to double-check convergence.
 **/
HYPRE_Int HYPRE_PCGSetRecomputeResidual(HYPRE_Solver solver,
                                  HYPRE_Int          recompute_residual);

/**
 * (Optional) Periodically recompute the residual while iterating.
 **/
HYPRE_Int HYPRE_PCGSetRecomputeResidualP(HYPRE_Solver solver,
                                   HYPRE_Int          recompute_residual_p);

/**
 * (Optional) Set the preconditioner to use.
 **/
HYPRE_Int HYPRE_PCGSetPrecond(HYPRE_Solver         solver,
                        HYPRE_PtrToSolverFcn precond,
                        HYPRE_PtrToSolverFcn precond_setup,
                        HYPRE_Solver         precond_solver);

/**
 * (Optional) Set the amount of logging to do.
 **/
HYPRE_Int HYPRE_PCGSetLogging(HYPRE_Solver solver,
                        HYPRE_Int          logging);

/**
 * (Optional) Set the amount of printing to do to the screen.
 **/
HYPRE_Int HYPRE_PCGSetPrintLevel(HYPRE_Solver solver,
                           HYPRE_Int          level);

/**
 * Return the number of iterations taken.
 **/
HYPRE_Int HYPRE_PCGGetNumIterations(HYPRE_Solver  solver,
                              HYPRE_Int          *num_iterations);

/**
 * Return the norm of the final relative residual.
 **/
HYPRE_Int HYPRE_PCGGetFinalRelativeResidualNorm(HYPRE_Solver  solver,
                                          double       *norm);

/**
 * Return the residual.
 **/
HYPRE_Int HYPRE_PCGGetResidual(HYPRE_Solver  solver,
                         void        **residual);

/**
 **/
HYPRE_Int HYPRE_PCGGetTol(HYPRE_Solver  solver,
                    double       *tol);

/**
 **/
HYPRE_Int HYPRE_PCGGetResidualTol(HYPRE_Solver  solver,
                            double       *rtol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_PCGGetAbsoluteTolFactor(HYPRE_Solver solver, double *abstolf);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_PCGGetConvergenceFactorTol(HYPRE_Solver solver, double *cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_PCGGetStopCrit(HYPRE_Solver solver, HYPRE_Int *stop_crit);

/**
 **/
HYPRE_Int HYPRE_PCGGetMaxIter(HYPRE_Solver  solver,
                        HYPRE_Int          *max_iter);

/**
 **/
HYPRE_Int HYPRE_PCGGetTwoNorm(HYPRE_Solver  solver,
                        HYPRE_Int          *two_norm);

/**
 **/
HYPRE_Int HYPRE_PCGGetRelChange(HYPRE_Solver  solver,
                          HYPRE_Int          *rel_change);

/**
 **/
HYPRE_Int HYPRE_PCGGetPrecond(HYPRE_Solver  solver,
                        HYPRE_Solver *precond_data_ptr);

/**
 **/
HYPRE_Int HYPRE_PCGGetLogging(HYPRE_Solver  solver,
                        HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_PCGGetPrintLevel(HYPRE_Solver  solver,
                           HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_PCGGetConverged(HYPRE_Solver  solver,
                          HYPRE_Int          *converged);

/*@}*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name GMRES Solver
 **/
/*@{*/

/**
 * Prepare to solve the system.  The coefficient data in {\tt b} and {\tt x} is
 * ignored here, but information about the layout of the data may be used.
 **/
HYPRE_Int HYPRE_GMRESSetup(HYPRE_Solver solver,
                     HYPRE_Matrix A,
                     HYPRE_Vector b,
                     HYPRE_Vector x);

/**
 * Solve the system.
 **/
HYPRE_Int HYPRE_GMRESSolve(HYPRE_Solver solver,
                     HYPRE_Matrix A,
                     HYPRE_Vector b,
                     HYPRE_Vector x);

/**
 * (Optional) Set the relative convergence tolerance.
 **/
HYPRE_Int HYPRE_GMRESSetTol(HYPRE_Solver solver,
                      double       tol);

/**
 * (Optional) Set the absolute convergence tolerance (default is 0). 
 * If one desires
 * the convergence test to check the absolute convergence tolerance {\it only}, then
 * set the relative convergence tolerance to 0.0.  (The convergence test is 
 * $\|r\| \leq$ max(relative$\_$tolerance$\ast \|b\|$, absolute$\_$tolerance).)
 *
 **/
HYPRE_Int HYPRE_GMRESSetAbsoluteTol(HYPRE_Solver solver,
                              double       a_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_GMRESSetConvergenceFactorTol(HYPRE_Solver solver, double cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_GMRESSetStopCrit(HYPRE_Solver solver, HYPRE_Int stop_crit);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_GMRESSetMinIter(HYPRE_Solver solver, HYPRE_Int min_iter);

/**
 * (Optional) Set maximum number of iterations.
 **/
HYPRE_Int HYPRE_GMRESSetMaxIter(HYPRE_Solver solver,
                          HYPRE_Int          max_iter);

/**
 * (Optional) Set the maximum size of the Krylov space.
 **/
HYPRE_Int HYPRE_GMRESSetKDim(HYPRE_Solver solver,
                       HYPRE_Int          k_dim);

/**
 * (Optional) Additionally require that the relative difference in
 * successive iterates be small.
 **/
HYPRE_Int HYPRE_GMRESSetRelChange(HYPRE_Solver solver,
                            HYPRE_Int          rel_change);

/**
 * (Optional) Set the preconditioner to use.
 **/
HYPRE_Int HYPRE_GMRESSetPrecond(HYPRE_Solver         solver,
                          HYPRE_PtrToSolverFcn precond,
                          HYPRE_PtrToSolverFcn precond_setup,
                          HYPRE_Solver         precond_solver);

/**
 * (Optional) Set the amount of logging to do.
 **/
HYPRE_Int HYPRE_GMRESSetLogging(HYPRE_Solver solver,
                          HYPRE_Int          logging);

/**
 * (Optional) Set the amount of printing to do to the screen.
 **/
HYPRE_Int HYPRE_GMRESSetPrintLevel(HYPRE_Solver solver,
                             HYPRE_Int          level);

/**
 * Return the number of iterations taken.
 **/
HYPRE_Int HYPRE_GMRESGetNumIterations(HYPRE_Solver  solver,
                                HYPRE_Int          *num_iterations);

/**
 * Return the norm of the final relative residual.
 **/
HYPRE_Int HYPRE_GMRESGetFinalRelativeResidualNorm(HYPRE_Solver  solver,
                                            double       *norm);

/**
 * Return the residual.
 **/
HYPRE_Int HYPRE_GMRESGetResidual(HYPRE_Solver   solver,
                           void         **residual);

/**
 **/
HYPRE_Int HYPRE_GMRESGetTol(HYPRE_Solver  solver,
                      double       *tol);

/**
 **/
HYPRE_Int HYPRE_GMRESGetAbsoluteTol(HYPRE_Solver  solver,
                              double       *tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_GMRESGetConvergenceFactorTol(HYPRE_Solver solver, double *cf_tol);

/*
 * OBSOLETE 
 **/
HYPRE_Int HYPRE_GMRESGetStopCrit(HYPRE_Solver solver, HYPRE_Int *stop_crit);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_GMRESGetMinIter(HYPRE_Solver solver, HYPRE_Int *min_iter);

/**
 **/
HYPRE_Int HYPRE_GMRESGetMaxIter(HYPRE_Solver  solver,
                          HYPRE_Int          *max_iter);

/**
 **/
HYPRE_Int HYPRE_GMRESGetKDim(HYPRE_Solver  solver,
                       HYPRE_Int          *k_dim);

/**
 **/
HYPRE_Int HYPRE_GMRESGetRelChange(HYPRE_Solver  solver,
                            HYPRE_Int          *rel_change);

/**
 **/
HYPRE_Int HYPRE_GMRESGetPrecond(HYPRE_Solver  solver,
                          HYPRE_Solver *precond_data_ptr);

/**
 **/
HYPRE_Int HYPRE_GMRESGetLogging(HYPRE_Solver  solver,
                          HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_GMRESGetPrintLevel(HYPRE_Solver  solver,
                             HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_GMRESGetConverged(HYPRE_Solver  solver,
                            HYPRE_Int          *converged);

/*@}*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name FlexGMRES Solver
 **/
/*@{*/

/**
 * Prepare to solve the system.  The coefficient data in {\tt b} and {\tt x} is
 * ignored here, but information about the layout of the data may be used.
 **/
HYPRE_Int HYPRE_FlexGMRESSetup(HYPRE_Solver solver,
                         HYPRE_Matrix A,
                         HYPRE_Vector b,
                         HYPRE_Vector x);

/**
 * Solve the system.
 **/
HYPRE_Int HYPRE_FlexGMRESSolve(HYPRE_Solver solver,
                         HYPRE_Matrix A,
                         HYPRE_Vector b,
                         HYPRE_Vector x);

/**
 * (Optional) Set the convergence tolerance.
 **/
HYPRE_Int HYPRE_FlexGMRESSetTol(HYPRE_Solver solver,
                          double       tol);

/**
 * (Optional) Set the absolute convergence tolerance (default is 0). 
 * If one desires
 * the convergence test to check the absolute convergence tolerance {\it only}, then
 * set the relative convergence tolerance to 0.0.  (The convergence test is 
 * $\|r\| \leq$ max(relative$\_$tolerance$\ast \|b\|$, absolute$\_$tolerance).)
 *
 **/
HYPRE_Int HYPRE_FlexGMRESSetAbsoluteTol(HYPRE_Solver solver,
                                  double       a_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_FlexGMRESSetConvergenceFactorTol(HYPRE_Solver solver, double cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_FlexGMRESSetMinIter(HYPRE_Solver solver, HYPRE_Int min_iter);

/**
 * (Optional) Set maximum number of iterations.
 **/
HYPRE_Int HYPRE_FlexGMRESSetMaxIter(HYPRE_Solver solver,
                              HYPRE_Int          max_iter);

/**
 * (Optional) Set the maximum size of the Krylov space.
 **/
HYPRE_Int HYPRE_FlexGMRESSetKDim(HYPRE_Solver solver,
                           HYPRE_Int          k_dim);

/**
 * (Optional) Set the preconditioner to use.
 **/
HYPRE_Int HYPRE_FlexGMRESSetPrecond(HYPRE_Solver         solver,
                              HYPRE_PtrToSolverFcn precond,
                              HYPRE_PtrToSolverFcn precond_setup,
                              HYPRE_Solver         precond_solver);

/**
 * (Optional) Set the amount of logging to do.
 **/
HYPRE_Int HYPRE_FlexGMRESSetLogging(HYPRE_Solver solver,
                              HYPRE_Int          logging);

/**
 * (Optional) Set the amount of printing to do to the screen.
 **/
HYPRE_Int HYPRE_FlexGMRESSetPrintLevel(HYPRE_Solver solver,
                                 HYPRE_Int          level);

/**
 * Return the number of iterations taken.
 **/
HYPRE_Int HYPRE_FlexGMRESGetNumIterations(HYPRE_Solver  solver,
                                    HYPRE_Int          *num_iterations);

/**
 * Return the norm of the final relative residual.
 **/
HYPRE_Int HYPRE_FlexGMRESGetFinalRelativeResidualNorm(HYPRE_Solver  solver,
                                                double       *norm);

/**
 * Return the residual.
 **/
HYPRE_Int HYPRE_FlexGMRESGetResidual(HYPRE_Solver   solver,
                               void         **residual);

/**
 **/
HYPRE_Int HYPRE_FlexGMRESGetTol(HYPRE_Solver  solver,
                          double       *tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_FlexGMRESGetConvergenceFactorTol(HYPRE_Solver solver, double *cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_FlexGMRESGetStopCrit(HYPRE_Solver solver, HYPRE_Int *stop_crit);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_FlexGMRESGetMinIter(HYPRE_Solver solver, HYPRE_Int *min_iter);

/**
 **/
HYPRE_Int HYPRE_FlexGMRESGetMaxIter(HYPRE_Solver  solver,
                              HYPRE_Int          *max_iter);

/**
 **/
HYPRE_Int HYPRE_FlexGMRESGetKDim(HYPRE_Solver  solver,
                           HYPRE_Int          *k_dim);

/**
 **/
HYPRE_Int HYPRE_FlexGMRESGetPrecond(HYPRE_Solver  solver,
                              HYPRE_Solver *precond_data_ptr);

/**
 **/
HYPRE_Int HYPRE_FlexGMRESGetLogging(HYPRE_Solver  solver,
                              HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_FlexGMRESGetPrintLevel(HYPRE_Solver  solver,
                                 HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_FlexGMRESGetConverged(HYPRE_Solver  solver,
                                HYPRE_Int          *converged);

/**
 * (Optional) Set a user-defined function to modify solve-time preconditioner
 * attributes.
 **/
HYPRE_Int HYPRE_FlexGMRESSetModifyPC(HYPRE_Solver           solver,
                               HYPRE_PtrToModifyPCFcn modify_pc);

/*@}*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name LGMRES Solver
 **/
/*@{*/

/**
 * Prepare to solve the system.  The coefficient data in {\tt b} and {\tt x} is
 * ignored here, but information about the layout of the data may be used.
 **/
HYPRE_Int HYPRE_LGMRESSetup(HYPRE_Solver solver,
                      HYPRE_Matrix A,
                      HYPRE_Vector b,
                      HYPRE_Vector x);

/**
 * Solve the system. Details on LGMRES may be found in A. H. Baker,
 * E.R. Jessup, and T.A. Manteuffel, "A technique for accelerating the
 * convergence of restarted GMRES." SIAM Journal on Matrix Analysis and
 * Applications, 26 (2005), pp. 962-984. LGMRES(m,k) in the paper
 * corresponds to LGMRES(Kdim+AugDim, AugDim).
 **/
HYPRE_Int HYPRE_LGMRESSolve(HYPRE_Solver solver,
                      HYPRE_Matrix A,
                      HYPRE_Vector b,
                      HYPRE_Vector x);

/**
 * (Optional) Set the convergence tolerance.
 **/
HYPRE_Int HYPRE_LGMRESSetTol(HYPRE_Solver solver,
                       double       tol);
/**
 * (Optional) Set the absolute convergence tolerance (default is 0). 
 * If one desires
 * the convergence test to check the absolute convergence tolerance {\it only}, then
 * set the relative convergence tolerance to 0.0.  (The convergence test is 
 * $\|r\| \leq$ max(relative$\_$tolerance$\ast \|b\|$, absolute$\_$tolerance).)
 *
 **/
HYPRE_Int HYPRE_LGMRESSetAbsoluteTol(HYPRE_Solver solver,
                               double       a_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_LGMRESSetConvergenceFactorTol(HYPRE_Solver solver, double cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_LGMRESSetMinIter(HYPRE_Solver solver, HYPRE_Int min_iter);

/**
 * (Optional) Set maximum number of iterations.
 **/
HYPRE_Int
HYPRE_LGMRESSetMaxIter(HYPRE_Solver solver,
                       HYPRE_Int          max_iter);

/**
 * (Optional) Set the maximum size of the approximation space
 * (includes the augmentation vectors).
 **/
HYPRE_Int HYPRE_LGMRESSetKDim(HYPRE_Solver solver,
                        HYPRE_Int          k_dim);

/**
 * (Optional) Set the number of augmentation vectors  (default: 2).
 **/
HYPRE_Int HYPRE_LGMRESSetAugDim(HYPRE_Solver solver,
                          HYPRE_Int          aug_dim);

/**
 * (Optional) Set the preconditioner to use.
 **/
HYPRE_Int
HYPRE_LGMRESSetPrecond(HYPRE_Solver         solver,
                       HYPRE_PtrToSolverFcn precond,
                       HYPRE_PtrToSolverFcn precond_setup,
                       HYPRE_Solver         precond_solver);

/**
 * (Optional) Set the amount of logging to do.
 **/
HYPRE_Int HYPRE_LGMRESSetLogging(HYPRE_Solver solver,
                           HYPRE_Int          logging);

/**
 * (Optional) Set the amount of printing to do to the screen.
 **/
HYPRE_Int HYPRE_LGMRESSetPrintLevel(HYPRE_Solver solver,
                              HYPRE_Int          level);

/**
 * Return the number of iterations taken.
 **/
HYPRE_Int HYPRE_LGMRESGetNumIterations(HYPRE_Solver  solver,
                                 HYPRE_Int          *num_iterations);

/**
 * Return the norm of the final relative residual.
 **/
HYPRE_Int HYPRE_LGMRESGetFinalRelativeResidualNorm(HYPRE_Solver  solver,
                                             double       *norm);

/**
 * Return the residual.
 **/
HYPRE_Int HYPRE_LGMRESGetResidual(HYPRE_Solver   solver,
                            void         **residual);

/**
 **/
HYPRE_Int HYPRE_LGMRESGetTol(HYPRE_Solver  solver,
                       double       *tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_LGMRESGetConvergenceFactorTol(HYPRE_Solver solver, double *cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_LGMRESGetStopCrit(HYPRE_Solver solver, HYPRE_Int *stop_crit);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_LGMRESGetMinIter(HYPRE_Solver solver, HYPRE_Int *min_iter);

/**
 **/
HYPRE_Int HYPRE_LGMRESGetMaxIter(HYPRE_Solver  solver,
                           HYPRE_Int          *max_iter);

/**
 **/
HYPRE_Int HYPRE_LGMRESGetKDim(HYPRE_Solver  solver,
                        HYPRE_Int          *k_dim);
/**
 **/
HYPRE_Int HYPRE_LGMRESGetAugDim(HYPRE_Solver  solver,
                          HYPRE_Int          *k_dim);

/**
 **/
HYPRE_Int HYPRE_LGMRESGetPrecond(HYPRE_Solver  solver,
                           HYPRE_Solver *precond_data_ptr);

/**
 **/
HYPRE_Int HYPRE_LGMRESGetLogging(HYPRE_Solver  solver,
                           HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_LGMRESGetPrintLevel(HYPRE_Solver  solver,
                              HYPRE_Int          *level);

/**
 **/
HYPRE_Int HYPRE_LGMRESGetConverged(HYPRE_Solver  solver,
                             HYPRE_Int          *converged);

/*@}*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name BiCGSTAB Solver
 **/
/*@{*/

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_BiCGSTABDestroy(HYPRE_Solver solver);

/**
 * Prepare to solve the system.  The coefficient data in {\tt b} and {\tt x} is
 * ignored here, but information about the layout of the data may be used.
 **/
HYPRE_Int HYPRE_BiCGSTABSetup(HYPRE_Solver solver,
                        HYPRE_Matrix A,
                        HYPRE_Vector b,
                        HYPRE_Vector x);

/**
 * Solve the system.
 **/
HYPRE_Int HYPRE_BiCGSTABSolve(HYPRE_Solver solver,
                        HYPRE_Matrix A,
                        HYPRE_Vector b,
                        HYPRE_Vector x);

/**
 * (Optional) Set the convergence tolerance.
 **/
HYPRE_Int HYPRE_BiCGSTABSetTol(HYPRE_Solver solver,
                         double       tol);

/**
 * (Optional) Set the absolute convergence tolerance (default is 0). 
 * If one desires
 * the convergence test to check the absolute convergence tolerance {\it only}, then
 * set the relative convergence tolerance to 0.0.  (The convergence test is 
 * $\|r\| \leq$ max(relative$\_$tolerance $\ast \|b\|$, absolute$\_$tolerance).)
 *
 **/
HYPRE_Int HYPRE_BiCGSTABSetAbsoluteTol(HYPRE_Solver solver,
                                 double       a_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_BiCGSTABSetConvergenceFactorTol(HYPRE_Solver solver, double cf_tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_BiCGSTABSetStopCrit(HYPRE_Solver solver, HYPRE_Int stop_crit);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_BiCGSTABSetMinIter(HYPRE_Solver solver, HYPRE_Int min_iter);

/**
 * (Optional) Set maximum number of iterations.
 **/
HYPRE_Int HYPRE_BiCGSTABSetMaxIter(HYPRE_Solver solver,
                             HYPRE_Int          max_iter);

/**
 * (Optional) Set the preconditioner to use.
 **/
HYPRE_Int HYPRE_BiCGSTABSetPrecond(HYPRE_Solver         solver,
                             HYPRE_PtrToSolverFcn precond,
                             HYPRE_PtrToSolverFcn precond_setup,
                             HYPRE_Solver         precond_solver);

/**
 * (Optional) Set the amount of logging to do.
 **/
HYPRE_Int HYPRE_BiCGSTABSetLogging(HYPRE_Solver solver,
                             HYPRE_Int          logging);

/**
 * (Optional) Set the amount of printing to do to the screen.
 **/
HYPRE_Int HYPRE_BiCGSTABSetPrintLevel(HYPRE_Solver solver,
                                HYPRE_Int          level);

/**
 * Return the number of iterations taken.
 **/
HYPRE_Int HYPRE_BiCGSTABGetNumIterations(HYPRE_Solver  solver,
                                   HYPRE_Int          *num_iterations);

/**
 * Return the norm of the final relative residual.
 **/
HYPRE_Int HYPRE_BiCGSTABGetFinalRelativeResidualNorm(HYPRE_Solver  solver,
                                               double       *norm);

/**
 * Return the residual.
 **/
HYPRE_Int HYPRE_BiCGSTABGetResidual(HYPRE_Solver   solver,
                              void         **residual);

/**
 **/
HYPRE_Int HYPRE_BiCGSTABGetPrecond(HYPRE_Solver  solver,
                             HYPRE_Solver *precond_data_ptr);

/*@}*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/**
 * @name CGNR Solver
 **/
/*@{*/

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_CGNRDestroy(HYPRE_Solver solver);

/**
 * Prepare to solve the system.  The coefficient data in {\tt b} and {\tt x} is
 * ignored here, but information about the layout of the data may be used.
 **/
HYPRE_Int HYPRE_CGNRSetup(HYPRE_Solver solver,
                    HYPRE_Matrix A,
                    HYPRE_Vector b,
                    HYPRE_Vector x);

/**
 * Solve the system.
 **/
HYPRE_Int HYPRE_CGNRSolve(HYPRE_Solver solver,
                    HYPRE_Matrix A,
                    HYPRE_Vector b,
                    HYPRE_Vector x);

/**
 * (Optional) Set the convergence tolerance.
 **/
HYPRE_Int HYPRE_CGNRSetTol(HYPRE_Solver solver,
                     double       tol);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_CGNRSetStopCrit(HYPRE_Solver solver, HYPRE_Int stop_crit);

/*
 * RE-VISIT
 **/
HYPRE_Int HYPRE_CGNRSetMinIter(HYPRE_Solver solver, HYPRE_Int min_iter);

/**
 * (Optional) Set maximum number of iterations.
 **/
HYPRE_Int HYPRE_CGNRSetMaxIter(HYPRE_Solver solver,
                     HYPRE_Int          max_iter);

/**
 * (Optional) Set the preconditioner to use.
 * Note that the only preconditioner available in hypre for use with
 * CGNR is currently BoomerAMG. It requires to use Jacobi as
 * a smoother without CF smoothing, i.e. relax_type needs to be set to 0
 * or 7 and relax_order needs to be set to 0 by the user, since these
 * are not default values. It can be used with a relaxation weight for
 * Jacobi, which can significantly improve convergence.
 **/
HYPRE_Int HYPRE_CGNRSetPrecond(HYPRE_Solver         solver,
                         HYPRE_PtrToSolverFcn precond,
                         HYPRE_PtrToSolverFcn precondT,
                         HYPRE_PtrToSolverFcn precond_setup,
                         HYPRE_Solver         precond_solver);

/**
 * (Optional) Set the amount of logging to do.
 **/
HYPRE_Int HYPRE_CGNRSetLogging(HYPRE_Solver solver,
                         HYPRE_Int          logging);

#if 0 /* need to add */
/*
 * (Optional) Set the amount of printing to do to the screen.
 **/
HYPRE_Int HYPRE_CGNRSetPrintLevel(HYPRE_Solver solver,
                            HYPRE_Int          level);
#endif

/**
 * Return the number of iterations taken.
 **/
HYPRE_Int HYPRE_CGNRGetNumIterations(HYPRE_Solver  solver,
                               HYPRE_Int          *num_iterations);

/**
 * Return the norm of the final relative residual.
 **/
HYPRE_Int HYPRE_CGNRGetFinalRelativeResidualNorm(HYPRE_Solver  solver,
                                           double       *norm);

#if 0 /* need to add */
/*
 * Return the residual.
 **/
HYPRE_Int HYPRE_CGNRGetResidual(HYPRE_Solver   solver,
                          void         **residual);
#endif

/**
 **/
HYPRE_Int HYPRE_CGNRGetPrecond(HYPRE_Solver  solver,
                         HYPRE_Solver *precond_data_ptr);

/*@}*/

/*--------------------------------------------------------------------------
 *--------------------------------------------------------------------------*/

/*@}*/

#ifdef __cplusplus
}
#endif

#endif