data

data              172 old_code/2015linfty/dune_bdf.hpp 			Eigen::Map<Eigen::Vector3d> x_0 {it.second.data()};	// get vector
data              175 old_code/2015linfty/dune_bdf.hpp 			std::copy(x_0.data(), x_0.data() + x_0.size(), it_new.begin());
data              208 old_code/tumor_growth/tumor_bdf.h       Eigen::Map<Eigen::Vector3d> x_0 {it.second.data()};	// get vector
data              211 old_code/tumor_growth/tumor_bdf.h       std::copy(x_0.data(), x_0.data() + x_0.size(), it_new.begin());
data               73 src/brusselator_algo.cpp try :data {argc, argv, parameter_fname},
data               74 src/brusselator_algo.cpp   io {data},
data               75 src/brusselator_algo.cpp   fix_grid {data},
data               78 src/brusselator_algo.cpp   exact {fix_grid, data} // constructor for random initial data
data               89 src/brusselator_algo.cpp   Scalar_solver solver {data, fix_grid, fef.u, fef.w};
data              120 src/brusselator_algo.cpp     Grid::Grid_and_time grid {data,
data              127 src/brusselator_algo.cpp     SecOrd_op::Solution_driven X_solver {data, grid, u.app};
data              172 src/brusselator_algo.cpp   SecOrd_op::Solution_driven X_solver {data, fix_grid, fef.u.app};
data              197 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
data              224 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
data              250 src/brusselator_algo.cpp   Scalar_solver solver {data, fix_grid, fef.u, fef.w}; // I just need `solver.u`
data              251 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
data              256 src/brusselator_algo.cpp   const long end_steps = pattern_timeSteps() + (data.last_step() > data.eps() ? 1 : 0 );
data              316 src/brusselator_algo.cpp   Scalar_solver solver {data, fix_grid, fef.u, fef.w}; 
data              317 src/brusselator_algo.cpp   Solution_driven X_solver {data, fix_grid, fef.u.app};
data              318 src/brusselator_algo.cpp   Esfem::Io::Paraview paraview {data, fix_grid, fef.u.fun, fef.w.fun};
data              404 src/brusselator_algo.cpp   io.para << data << std::endl;
data              415 src/brusselator_algo.cpp   const auto it_end = pattern_timeSteps() + (data.last_step() >data.eps() ? 1 : 0 );
data              416 src/brusselator_algo.cpp   std::cout << "t0: " << data.start_time() << '\n'
data              417 src/brusselator_algo.cpp 	    << "dT: " << data.global_timeStep() << '\n'
data              419 src/brusselator_algo.cpp 	    << "last dT: " << data.last_step() << std::endl;
data              428 src/brusselator_algo.cpp       fix_grid.next_timeStep(data.last_step());
data              388 src/brusselator_algo.h     Esfem::Io::Parameter data;
data              478 src/brusselator_algo.h     fix_grid.next_timeStep(data.global_timeStep());
data              481 src/brusselator_algo.h     return data.prePattern_timeSteps();
data              484 src/brusselator_algo.h     return data.pattern_timeSteps();
data              487 src/brusselator_algo.h     return data.max_timeSteps();
data               80 src/brusselator_algo_impl.cpp    paraview {bs.data, bs.fix_grid, bs.fef.u.fun, bs.fef.w.fun},
data               81 src/brusselator_algo_impl.cpp    solver {bs.data, bs.fix_grid, bs.fef.u, bs.fef.w}
data              118 src/brusselator_algo_impl.cpp   paraview {bs.data, bs.fix_grid, u.fun, w.fun},
data              119 src/brusselator_algo_impl.cpp   solver {bs.data, bs.fix_grid, u, w}
data              146 src/brusselator_algo_impl.cpp   grid {bs.data,
data              152 src/brusselator_algo_impl.cpp   ss {bs.data, grid, u, w},
data              153 src/brusselator_algo_impl.cpp   vs {bs.data, grid, u.fun},
data              184 src/brusselator_algo_impl.cpp   {bs.data,
data              190 src/brusselator_algo_impl.cpp   paraview {bs.data, grid, u.fun, w.fun},
data              191 src/brusselator_algo_impl.cpp   solver {bs.data, grid, u, w},
data               40 src/linHeat_algo.h   Io::Parameter data {argc, argv, parameter_file};
data               42 src/linHeat_algo.h   std::clog << data << std::endl;
data               45 src/linHeat_algo.h   Grid::Grid_and_time grid {data};
data               52 src/linHeat_algo.h   SecOrd_op::Linear_heat solver {data, grid};
data               55 src/linHeat_algo.h   Io::Error_stream err_log {data};
data               57 src/linHeat_algo.h   Io::Paraview paraview_plot {data, grid, exact_solution, numerical_solution};
data               63 src/linHeat_algo.h   err_log << data.global_timeStep() << ' '
data               67 src/linHeat_algo.h   grid.next_timeStep(data.global_timeStep());
data               68 src/linHeat_algo.h   for(long it =0; it < data.max_timeSteps(); ++it){
data               76 src/linHeat_algo.h     err_log << data.global_timeStep() << ' '
data               80 src/linHeat_algo.h     grid.next_timeStep(data.global_timeStep());
data               43 test/io_dgf.cpp   Esfem::Io::Parameter data {argc, argv, parameter_file};
data               50 test/io_dgf.cpp   Esfem::Grid::Grid_and_time grid {data};