tp 505 old_code/tumor_growth/tumor_code.h const Dune::Fem::GridTimeProvider<GridType>& tp){ tp 506 old_code/tumor_growth/tumor_code.h u_data.write(tp); tp 507 old_code/tumor_growth/tumor_code.h w_data.write(tp); tp 147 old_code/tumor_growth/tumor_growth.h tp {time_provider}, reg_alpha {alpha_regularization_parameter}, tp 178 old_code/tumor_growth/tumor_growth.h const Dune::Fem::TimeProviderBase& tp; tp 388 old_code/tumor_growth/tumor_growth.h a_dX_p *= (reg_alpha + reg_epsilon * tp.deltaT()); tp 451 old_code/tumor_growth/tumor_growth.h n_p_chi *= u_p * tp.deltaT() * delta; tp 117 src/brusselator_algo_impl.cpp tp {bs.fix_grid.time_provider()}, tp 167 src/brusselator_algo_impl.h const Dune::Fem::TimeProviderBase& tp; tp 49 src/grid_GridAndTime.cpp Time_provider tp; tp 61 src/grid_GridAndTime.cpp gp {g}, tp {p.start_time(), g}, tp 63 src/grid_GridAndTime.cpp d.set_timeProvider(tp); tp 64 src/grid_GridAndTime.cpp tp.init(p.global_timeStep()); tp 71 src/grid_GridAndTime.cpp gp {g}, tp {t0, g}, fes {gp}, vfes {gp} { tp 72 src/grid_GridAndTime.cpp d.set_timeProvider(tp); tp 73 src/grid_GridAndTime.cpp tp.init(p.global_timeStep()); tp 113 src/grid_GridAndTime.cpp d_ptr -> tp.next(dT); tp 119 src/grid_GridAndTime.cpp return d_ptr -> tp; tp 122 src/grid_GridAndTime.cpp return d_ptr -> tp; tp 99 src/grid_deformation.cpp set_timeProvider(const Dune::Fem::TimeProviderBase& tp){ tp 100 src/grid_deformation.cpp d_ptr -> tp_ptr = &tp; tp 25 src/grid_evolution.cpp set_timeProvider(Dune::Fem::TimeProviderBase& tp){ tp 26 src/grid_evolution.cpp tp_ptr = &tp; tp 46 src/io_paraview.cpp const Dune::Fem::TimeProviderBase& tp; tp 53 src/io_paraview.cpp : tp {gt.time_provider()}, tp 80 src/io_paraview.cpp d_ptr -> plotter.write( d_ptr -> tp); tp 86 src/secOrd_op_initData_impl.cpp :tp {gt.time_provider()} tp 91 src/secOrd_op_initData_impl.cpp [&tp = tp](const Domain& d, Range& r){ tp 94 src/secOrd_op_initData_impl.cpp const double t = tp.time(); tp 99 src/secOrd_op_initData_impl.cpp fun_impl = [&tp = tp](const Domain& d, Range& r){ tp 102 src/secOrd_op_initData_impl.cpp const double t = tp.time(); tp 133 src/secOrd_op_initData_impl.cpp :tp {gt.time_provider()} {} tp 142 src/secOrd_op_initData_impl.cpp y = x[0]*x[1]*exp(-6*tp.time()); tp 149 src/secOrd_op_initData_impl.cpp :tp {gt.time_provider()} {} tp 161 src/secOrd_op_initData_impl.cpp y *= exp(-6.*tp.time()); tp 168 src/secOrd_op_initData_impl.cpp :tp {gt.time_provider()} {} tp 180 src/secOrd_op_initData_impl.cpp const auto rt = sqrt(1. - 2 * 2 * tp.time()); tp 189 src/secOrd_op_initData_impl.cpp :tp {gt.time_provider()}, tp 201 src/secOrd_op_initData_impl.cpp ekt = exp(-k*tp.time()), tp 208 src/secOrd_op_initData_impl.cpp :tp {gt.time_provider()}, tp 219 src/secOrd_op_initData_impl.cpp ekt = exp(-k*tp.time()), tp 225 src/secOrd_op_initData_impl.cpp sd_iData::sd_iData(const Grid::Grid_and_time& gt) :tp {gt.time_provider()} {} tp 233 src/secOrd_op_initData_impl.cpp fac = exp(tp.time()) / norm; tp 241 src/secOrd_op_initData_impl.cpp :tp {gt.time_provider()} tp 245 src/secOrd_op_initData_impl.cpp const double t = tp.time(); tp 67 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 129 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 153 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 177 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 203 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 229 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 256 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 288 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 322 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 352 src/secOrd_op_initData_impl.h const Dune::Fem::TimeProviderBase& tp; tp 42 src/secOrd_op_initData_u.cpp const Dune::Fem::TimeProviderBase& tp; tp 82 src/secOrd_op_initData_u.cpp : tp {tpb} tp 89 src/secOrd_op_initData_u.cpp const double t = tp.time(); tp 42 src/secOrd_op_initData_w.cpp const Dune::Fem::TimeProviderBase& tp; tp 82 src/secOrd_op_initData_w.cpp : tp {tpb} tp 89 src/secOrd_op_initData_w.cpp const double t = tp.time(); tp 49 src/secOrd_op_linearHeat.cpp const Dune::Fem::TimeProviderBase& tp; tp 120 src/secOrd_op_linearHeat.cpp tp {gt.time_provider()}, tmp_fef {"tmp_fef", gt.fe_space()} tp 130 src/secOrd_op_linearHeat.cpp matrixFree_assembly(tp.deltaT(), geometry, quad, tp 44 src/secOrd_op_rhs.cpp dune_fef.axpy(d_ptr -> tp.deltaT(), d_ptr -> load_vector); tp 57 src/secOrd_op_rhs.cpp dune_vfef.axpy(d_ptr -> tp.deltaT(), d_ptr -> load_vector); tp 81 src/secOrd_op_rhs.cpp :tp {gt.time_provider()}, rhs {tp, type}, tp 86 src/secOrd_op_rhs.cpp :tp {gt.time_provider()}, rhs {tp}, tp 53 src/secOrd_op_rhs_impl.cpp :tp {tpb} tp 70 src/secOrd_op_rhs_impl.cpp fun_impl = [&tp = tp, rA, k, rE] tp 75 src/secOrd_op_rhs_impl.cpp const double t = tp.time(); tp 80 src/secOrd_op_rhs_impl.cpp fun_impl = [&tp = tp, rA, k, rE, al, Dc] tp 85 src/secOrd_op_rhs_impl.cpp const double t = tp.time(); tp 104 src/secOrd_op_rhs_impl.cpp : tp {tpb}, tp 118 src/secOrd_op_rhs_impl.cpp if(cache[0] == tp.time()) return; tp 119 src/secOrd_op_rhs_impl.cpp const double t = tp.time(); tp 155 src/secOrd_op_rhs_impl.cpp :tp {gt.time_provider()}, tp 165 src/secOrd_op_rhs_impl.cpp auto u_fun = [&tp = tp](auto x, auto y){ tp 166 src/secOrd_op_rhs_impl.cpp return x * y * exp(-6.*tp.time()); tp 180 src/secOrd_op_rhs_impl.cpp fef.axpy(tp.deltaT(), lvec); tp 184 src/secOrd_op_rhs_impl.cpp :tp {gt.time_provider()}, tp 190 src/secOrd_op_rhs_impl.cpp const auto fac = (1. + (a+e)*dim*exp(-2. * tp.time())); tp 198 src/secOrd_op_rhs_impl.cpp fef.axpy(tp.deltaT(), lvec); tp 202 src/secOrd_op_rhs_impl.cpp :tp {gt.time_provider()}, tp 209 src/secOrd_op_rhs_impl.cpp const auto x = d[0], y = d[1], z = d[2], t = tp.time(); tp 215 src/secOrd_op_rhs_impl.cpp fef.axpy(tp.deltaT(), lscal); tp 65 src/secOrd_op_rhs_impl.h const Dune::Fem::TimeProviderBase& tp; tp 126 src/secOrd_op_rhs_impl.h const Dune::Fem::TimeProviderBase& tp; tp 182 src/secOrd_op_rhs_impl.h const Dune::Fem::TimeProviderBase& tp; tp 226 src/secOrd_op_rhs_impl.h const Dune::Fem::TimeProviderBase& tp; tp 263 src/secOrd_op_rhs_impl.h const Dune::Fem::TimeProviderBase& tp; tp 286 src/secOrd_op_rhs_impl.h const Dune::Fem::TimeProviderBase& tp; tp 299 src/secOrd_op_rhs_impl.h const Dune::Fem::TimeProviderBase& tp; tp 50 src/secOrd_op_rhs_u.cpp const Dune::Fem::TimeProviderBase& tp; tp 66 src/secOrd_op_rhs_u.cpp const Dune::Fem::TimeProviderBase& tp; tp 69 src/secOrd_op_rhs_u.cpp : rhs {gt.time_provider(), p}, tp {gt.time_provider()}, tp 97 src/secOrd_op_rhs_u.cpp dune_fef.axpy(d_ptr -> tp.deltaT(), tmp); tp 109 src/secOrd_op_rhs_u.cpp : tp {tpb}, a {p.tg_a()}, gamma {p.tg_gamma()} tp 117 src/secOrd_op_rhs_u.cpp const double t = tp.time(); tp 50 src/secOrd_op_rhs_w.cpp const Dune::Fem::TimeProviderBase& tp; tp 67 src/secOrd_op_rhs_w.cpp const Dune::Fem::TimeProviderBase& tp; tp 70 src/secOrd_op_rhs_w.cpp : rhs {gt.time_provider(), p}, tp {gt.time_provider()}, tp 99 src/secOrd_op_rhs_w.cpp dune_fef.axpy(d_ptr -> tp.deltaT(), tmp); tp 108 src/secOrd_op_rhs_w.cpp : tp {tpb}, d {p.tg_Dc()}, b {p.tg_b()}, gamma {p.tg_gamma()} tp 116 src/secOrd_op_rhs_w.cpp const double t = tp.time(); tp 65 src/secOrd_op_solutionDriven_impl.cpp tp {g.time_provider()}, tp 126 src/secOrd_op_solutionDriven_impl.cpp dX_p *= integral_factor * (alpha + epsilon * tp.deltaT()); tp 144 src/secOrd_op_solutionDriven_impl.cpp n_p *= u_p * tp.deltaT() * delta * integral_factor; tp 155 src/secOrd_op_solutionDriven_impl.h const Dune::Fem::TimeProviderBase& tp; /*!< \brief Time step provider */