g 51 src/brusselator_algo_impl.cpp const Esfem::Grid::Grid_and_time& g, g 54 src/brusselator_algo_impl.cpp :u {p, g, Growth::promoting, u_set.app, w_set.app}, g 55 src/brusselator_algo_impl.cpp w {p, g, Growth::inhibiting, u_set.app, u_set.app} g 60 src/brusselator_algo_impl.cpp const Esfem::Grid::Grid_and_time& g, g 63 src/brusselator_algo_impl.cpp :u {p, g, Growth::promoting, u_set.fun, w_set.fun}, g 64 src/brusselator_algo_impl.cpp w {p, g, Growth::inhibiting, u_set.fun, u_set.fun} g 47 src/grid_GridAndTime.cpp Grid g; g 60 src/grid_GridAndTime.cpp g {loadBalance_and_deref(hg_ptr), d}, g 61 src/grid_GridAndTime.cpp gp {g}, tp {p.start_time(), g}, g 70 src/grid_GridAndTime.cpp :d {}, hg_ptr {dgf_file}, g {loadBalance_and_deref(hg_ptr), d}, g 71 src/grid_GridAndTime.cpp gp {g}, tp {t0, g}, fes {gp}, vfes {gp} { g 125 src/grid_GridAndTime.cpp return d_ptr -> g; g 167 src/secOrd_op_brusselator_impl.cpp const auto& g = entity.geometry(); g 171 src/secOrd_op_brusselator_impl.cpp const auto weight = q.weight(pt) * g.integrationElement(x); g 185 src/secOrd_op_brusselator_impl.cpp const auto& g = entity.geometry(); g 188 src/secOrd_op_brusselator_impl.cpp const auto weight = q.weight(pt) * g.integrationElement(x); g 215 src/secOrd_op_brusselator_impl.cpp const auto& g = e.geometry(); g 221 src/secOrd_op_brusselator_impl.cpp const auto weight = q.weight(pt) * g.integrationElement(x); g 235 src/secOrd_op_brusselator_impl.cpp const auto& g = e.geometry(); g 244 src/secOrd_op_brusselator_impl.cpp = q.weight(pt) * g.integrationElement(x) g 165 src/secOrd_op_linearHeat.cpp void matrixFree_assembly(const double dT, const Geometry& g, g 178 src/secOrd_op_linearHeat.cpp const auto weight = q.weight(pt) * g.integrationElement(x); g 185 src/secOrd_op_linearHeat.cpp void massMatrixFree_assembly(const Geometry& g, g 197 src/secOrd_op_linearHeat.cpp const auto weight = q.weight(pt) * g.integrationElement(x); g 118 src/secOrd_op_rhs_u.cpp const double g = gamma; g 149 src/secOrd_op_rhs_u.cpp void massMatrix_for_entity(const Geometry& g, const Quadrature& q, g 154 src/secOrd_op_rhs_u.cpp RHS_data_u::Range fx {rhs_fun(g.global(x))}; g 155 src/secOrd_op_rhs_u.cpp fx *= q.weight(pt) * g.integrationElement(x); g 117 src/secOrd_op_rhs_w.cpp const double g = gamma; g 119 src/secOrd_op_rhs_w.cpp - g * b // for w == 0 g 142 src/secOrd_op_rhs_w.cpp void massMatrix_for_entity(const Geometry& g, const Quadrature& q, g 147 src/secOrd_op_rhs_w.cpp RHS_data_w::Range fx {rhs_fun(g.global(x))}; g 149 src/secOrd_op_rhs_w.cpp fx *= q.weight(pt) * g.integrationElement(x); g 56 src/secOrd_op_solutionDriven.cpp Solution_driven::Data::Data(const Io::Parameter& p, const Grid::Grid_and_time& g, g 58 src/secOrd_op_solutionDriven.cpp :mcf_op {p, g, u_wrapper}, g 68 src/secOrd_op_solutionDriven.cpp const Grid::Grid_and_time& g, g 70 src/secOrd_op_solutionDriven.cpp :d_ptr {std::make_unique<Data>(p, g, u)} g 59 src/secOrd_op_solutionDriven_impl.cpp const Grid::Grid_and_time& g, g 65 src/secOrd_op_solutionDriven_impl.cpp tp {g.time_provider()}, g 113 src/secOrd_op_solutionDriven_impl.cpp void MCF_op::mcf_lhs_matrixFree_assembly(const Geometry& g, g 120 src/secOrd_op_solutionDriven_impl.cpp const auto integral_factor = q.weight(pt) * g.integrationElement(x); g 131 src/secOrd_op_solutionDriven_impl.cpp void MCF_op::mcf_rhs_matrixFree_assembly(const Geometry& g, g 139 src/secOrd_op_solutionDriven_impl.cpp const auto integral_factor = q.weight(pt) * g.integrationElement(x); g 141 src/secOrd_op_solutionDriven_impl.cpp auto n_p = surface_normal(g); g 158 src/secOrd_op_solutionDriven_impl.cpp MCF_op::surface_normal(const Geometry& g) const{ g 160 src/secOrd_op_solutionDriven_impl.cpp const auto basis = oriented_basis(g); g 174 src/secOrd_op_solutionDriven_impl.cpp Esfem::Impl::oriented_basis(const MCF_op::Geometry& g){ g 175 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> p0 = g.corner(0); g 176 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> p1 = g.corner(1); g 177 src/secOrd_op_solutionDriven_impl.cpp const Domain<Vector_fef> p2 = g.corner(2);