| AnalyzingSolver(SmartPtr< ILinearOperatorInverse< X, Y > > pLinearOperatorInverse) | ug::AnalyzingSolver< M, X, Y > | inline |
| apply(Y &u, const X &f) | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| ILinearOperatorInverse< X, X >::apply(X &u, const X &f)=0 | ug::ILinearOperatorInverse< X, X > | pure virtual |
| apply_return_defect(Y &u, X &f) | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| ILinearOperatorInverse< X, X >::apply_return_defect(X &u, X &f)=0 | ug::ILinearOperatorInverse< X, X > | pure virtual |
| apply_update_defect(X &u, X &f) | ug::ILinearOperatorInverse< X, X > | inlinevirtual |
| check(const matrix_type &A) | ug::AnalyzingSolver< M, X, Y > | inline |
| check(SmartPtr< ILinearOperator< Y, X > > A) | ug::AnalyzingSolver< M, X, Y > | inline |
| clone() | ug::ILinearOperatorInverse< X, X > | inlinevirtual |
| codomain_function_type typedef | ug::AnalyzingSolver< M, X, Y > | |
| config_string() const | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| convergence_check() const | ug::ILinearOperatorInverse< X, X > | inline |
| convergence_check() | ug::ILinearOperatorInverse< X, X > | inline |
| damping() | ug::ILinearIterator< X, X > | inline |
| defect() const | ug::ILinearOperatorInverse< X, X > | inline |
| domain_function_type typedef | ug::AnalyzingSolver< M, X, Y > | |
| ILinearIterator() | ug::ILinearIterator< X, X > | inline |
| ILinearIterator(const ILinearIterator< X, X > &parent) | ug::ILinearIterator< X, X > | inline |
| ILinearOperatorInverse() | ug::ILinearOperatorInverse< X, X > | inline |
| ILinearOperatorInverse(SmartPtr< IConvergenceCheck< X > > spConvCheck) | ug::ILinearOperatorInverse< X, X > | inline |
| init(SmartPtr< ILinearOperator< Y, X > > A, const Y &u) | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| init(SmartPtr< ILinearOperator< Y, X > > A) | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| ILinearOperatorInverse< X, X >::init(SmartPtr< ILinearOperator< X, X > > L) | ug::ILinearOperatorInverse< X, X > | inlinevirtual |
| ILinearOperatorInverse< X, X >::init(SmartPtr< ILinearOperator< X, X > > J, const X &u) | ug::ILinearOperatorInverse< X, X > | inlinevirtual |
| linear_operator() | ug::ILinearOperatorInverse< X, X > | inline |
| m_pLinearOperatorInverse | ug::AnalyzingSolver< M, X, Y > | private |
| m_spConvCheck | ug::ILinearOperatorInverse< X, X > | protected |
| m_spDamping | ug::ILinearIterator< X, X > | protected |
| m_spLinearOperator | ug::ILinearOperatorInverse< X, X > | protected |
| matrix_type typedef | ug::AnalyzingSolver< M, X, Y > | |
| name() const | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| reduction() const | ug::ILinearOperatorInverse< X, X > | inline |
| set_convergence_check(SmartPtr< IConvergenceCheck< X > > spConvCheck) | ug::ILinearOperatorInverse< X, X > | inline |
| set_damp(SmartPtr< IDamping< X, X > > spScaling) | ug::ILinearIterator< X, X > | inline |
| set_damp(number factor) | ug::ILinearIterator< X, X > | inline |
| standard_offset() const | ug::ILinearOperatorInverse< X, X > | inlinevirtual |
| step() const | ug::ILinearOperatorInverse< X, X > | inline |
| supports_parallel() const | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| ~AnalyzingSolver() | ug::AnalyzingSolver< M, X, Y > | inlinevirtual |
| ~ILinearIterator() | ug::ILinearIterator< X, X > | inlinevirtual |
| ~ILinearOperatorInverse() | ug::ILinearOperatorInverse< X, X > | inlinevirtual |
1.9.1