| apply(V &x, bool reuse_matrix=false) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| apply(bool reuse_matrix=false) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| discardMatrix() | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| hangingNodeModifications() const | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| keepMatrix() const | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| ls_result() const | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| reduction() const | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| result() const | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| Result typedef | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | |
| setHangingNodeModifications(bool b) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| setKeepMatrix(bool b) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| setReduction(Real reduction) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| StationaryLinearProblemSolver(const GO &go, LS &ls, V &x, Real reduction, Real min_defect=1e-99, int verbose=1) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| StationaryLinearProblemSolver(const GO &go, LS &ls, Real reduction, Real min_defect=1e-99, int verbose=1) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| StationaryLinearProblemSolver(const GO &go, LS &ls, V &x, const ParameterTree ¶ms) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
| StationaryLinearProblemSolver(const GO &go, LS &ls, const ParameterTree ¶ms) | Dune::PDELab::StationaryLinearProblemSolver< GO, LS, V > | inline |
