/* Copyright 2012 SINTEF ICT, Applied Mathematics. This file is part of the Open Porous Media project (OPM). OPM is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. OPM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OPM. If not, see . */ #ifndef OPM_LINEARSOLVERISTL_HEADER_INCLUDED #define OPM_LINEARSOLVERISTL_HEADER_INCLUDED #include #include #include namespace Opm { /// Concrete class encapsulating some dune-istl linear solvers. class LinearSolverIstl : public LinearSolverInterface { public: /// Default constructor. /// All parameters controlling the solver are defaulted: /// linsolver_residual_tolerance 1e-8 /// linsolver_verbosity 0 /// linsolver_type 1 ( = CG_AMG), alternatives are: /// CG_ILU0 = 0, CG_AMG = 1, BiCGStab_ILU0 = 2 /// FastAMG=3, KAMG=4 }; /// linsolver_save_system false /// linsolver_save_filename /// linsolver_max_iterations 0 (unlimited=5000) /// linsolver_residual_tolerance 1e-8 /// linsolver_smooth_steps 2 /// linsolver_prolongate_factor 1.6 /// linsolver_verbosity 0 LinearSolverIstl(); /// Construct from parameters /// Accepted parameters are, with defaults, listed in the /// default constructor. LinearSolverIstl(const parameter::ParameterGroup& param); /// Destructor. virtual ~LinearSolverIstl(); using LinearSolverInterface::solve; /// Solve a linear system, with a matrix given in compressed sparse row format. /// \param[in] size # of rows in matrix /// \param[in] nonzeros # of nonzeros elements in matrix /// \param[in] ia array of length (size + 1) containing start and end indices for each row /// \param[in] ja array of length nonzeros containing column numbers for the nonzero elements /// \param[in] sa array of length nonzeros containing the values of the nonzero elements /// \param[in] rhs array of length size containing the right hand side /// \param[inout] solution array of length size to which the solution will be written, may also be used /// as initial guess by iterative solvers. virtual LinearSolverReport solve(const int size, const int nonzeros, const int* ia, const int* ja, const double* sa, const double* rhs, double* solution) const; /// Set tolerance for the residual in dune istl linear solver. /// \param[in] tol tolerance value virtual void setTolerance(const double tol); /// Get tolerance ofthe linear solver. /// \param[out] tolerance value virtual double getTolerance() const; private: double linsolver_residual_tolerance_; int linsolver_verbosity_; enum LinsolverType { CG_ILU0 = 0, CG_AMG = 1, BiCGStab_ILU0 = 2, FastAMG=3, KAMG=4 }; LinsolverType linsolver_type_; bool linsolver_save_system_; std::string linsolver_save_filename_; int linsolver_max_iterations_; /** \brief The number smoothing steps to apply in AMG. */ int linsolver_smooth_steps_; /** \brief The factor to scale the coarse grid correction with. */ double linsolver_prolongate_factor_; }; } // namespace Opm #endif // OPM_LINEARSOLVERISTL_HEADER_INCLUDED