Vector_fef 29 src/secOrd_op_solutionDriven_impl.cpp using Vector_fef = MCF_op::Vector_fef; Vector_fef 32 src/secOrd_op_solutionDriven_impl.cpp using Vec_fe_space = Vector_fef::DiscreteFunctionSpaceType; Vector_fef 69 src/secOrd_op_solutionDriven_impl.cpp void MCF_op::operator()(const Vector_fef& rhs, Vector_fef& lhs) const{ Vector_fef 83 src/secOrd_op_solutionDriven_impl.cpp void MCF_op::brusselator_rhs(const Vector_fef& rhs, Vector_fef& lhs) const{ Vector_fef 115 src/secOrd_op_solutionDriven_impl.cpp const Local_function<Vector_fef>& cf, Vector_fef 116 src/secOrd_op_solutionDriven_impl.cpp Local_function<Vector_fef>& f) const{ Vector_fef 133 src/secOrd_op_solutionDriven_impl.cpp const Local_function<Vector_fef>& cf, Vector_fef 135 src/secOrd_op_solutionDriven_impl.cpp Local_function<Vector_fef>& f) const{ Vector_fef 157 src/secOrd_op_solutionDriven_impl.cpp MCF_op::Range<Vector_fef> Vector_fef 173 src/secOrd_op_solutionDriven_impl.cpp std::vector<MCF_op::Domain<Vector_fef> > Vector_fef 175 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> p0 = g.corner(0); Vector_fef 176 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> p1 = g.corner(1); Vector_fef 177 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> p2 = g.corner(2); Vector_fef 181 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> v = p2 - p0; Vector_fef 182 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> w = p1 - p0; Vector_fef 186 src/secOrd_op_solutionDriven_impl.cpp MCF_op::Range<Vector_fef> Esfem::Impl::nonUnit_normal Vector_fef 187 src/secOrd_op_solutionDriven_impl.cpp (const std::vector<MCF_op::Domain<Vector_fef> >& basis){ Vector_fef 194 src/secOrd_op_solutionDriven_impl.cpp Range<Vector_fef> normal; Vector_fef 60 src/secOrd_op_solutionDriven_impl.h using RangeField = typename Local_function<Vector_fef>::RangeFieldType; Vector_fef 71 src/secOrd_op_solutionDriven_impl.h void operator()(const Vector_fef& rhs, Vector_fef& lhs) const override; Vector_fef 81 src/secOrd_op_solutionDriven_impl.h void brusselator_rhs(const Vector_fef& rhs, Vector_fef& lhs) const; Vector_fef 98 src/secOrd_op_solutionDriven_impl.h static constexpr int dim_vec_domain = Domain<Vector_fef>::dimension; Vector_fef 99 src/secOrd_op_solutionDriven_impl.h static constexpr int dim_vec_range = Range<Vector_fef>::dimension; Vector_fef 107 src/secOrd_op_solutionDriven_impl.h = Vector_fef::DiscreteFunctionSpaceType::IteratorType::Entity::Geometry; Vector_fef 109 src/secOrd_op_solutionDriven_impl.h using Grid_part = Vector_fef::GridPartType; Vector_fef 123 src/secOrd_op_solutionDriven_impl.h const Local_function<Vector_fef>&, Vector_fef 124 src/secOrd_op_solutionDriven_impl.h Local_function<Vector_fef>&) const; Vector_fef 135 src/secOrd_op_solutionDriven_impl.h const Local_function<Vector_fef>&, Vector_fef 137 src/secOrd_op_solutionDriven_impl.h Local_function<Vector_fef>&) const; Vector_fef 146 src/secOrd_op_solutionDriven_impl.h Range<Vector_fef> surface_normal(const Geometry&) const; Vector_fef 161 src/secOrd_op_solutionDriven_impl.h std::vector<MCF_op::Domain<MCF_op::Vector_fef> > Vector_fef 169 src/secOrd_op_solutionDriven_impl.h MCF_op::Range<MCF_op::Vector_fef> nonUnit_normal Vector_fef 170 src/secOrd_op_solutionDriven_impl.h (const std::vector<MCF_op::Domain<MCF_op::Vector_fef> >& basis); Vector_fef 178 src/secOrd_op_solutionDriven_impl.h euclidean_norm(const MCF_op::Range<MCF_op::Vector_fef>& v){ Vector_fef 199 src/secOrd_op_solutionDriven_impl.h inline MCF_op::Range<MCF_op::Vector_fef> Vector_fef 202 src/secOrd_op_solutionDriven_impl.h const MCF_op::Local_function<MCF_op::Vector_fef>& cf){ Vector_fef 203 src/secOrd_op_solutionDriven_impl.h MCF_op::Range<MCF_op::Vector_fef> X; Vector_fef 217 src/secOrd_op_solutionDriven_impl.h inline MCF_op::Jacobian_range<MCF_op::Vector_fef> Vector_fef 220 src/secOrd_op_solutionDriven_impl.h const MCF_op::Local_function<MCF_op::Vector_fef>& cf){ Vector_fef 221 src/secOrd_op_solutionDriven_impl.h MCF_op::Jacobian_range<MCF_op::Vector_fef> nabla_X;