grid_out.write_ucd (tria, logfile);
QTrapez<dim> quad;
- MappingQ1Eulerian<dim,Vector<double>,spacedim> mapping(shift, shift_dh);
+ MappingQ1Eulerian<dim,Vector<double>,spacedim> mapping(shift_dh, shift);
typename Triangulation<dim,spacedim>::active_cell_iterator cell=tria.begin_active(),
endc=tria.end() ;
hn_constraints_def.close ();
{
- MappingQ1Eulerian<2> mapping_euler (deformation, *dof_handler_def);
+ MappingQ1Eulerian<2> mapping_euler (*dof_handler_def, deformation);
// Try rotating the elements
for (double rotat = 0; rotat < 2 * numbers::PI; rotat += 0.25 * numbers::PI)
DoFHandler<dim> flowfield_dof_handler(tr);
flowfield_dof_handler.distribute_dofs(mapping_fe);
Vector<double> map_points(flowfield_dof_handler.n_dofs());
- MappingQ1Eulerian<dim> mapping(map_points, flowfield_dof_handler);
+ MappingQ1Eulerian<dim> mapping(flowfield_dof_handler, map_points);
QGauss<dim> quadrature_formula(2);
Displacement<dim>(),
displacements);
- MappingQ1Eulerian<dim> euler(displacements, dof_handler);
+ MappingQ1Eulerian<dim> euler(dof_handler, displacements);
// now the actual test
DataOut<dim> data_out;
data_out.attach_dof_handler(dof_handler);
grid_out.write_ucd (tria, logfile);
QTrapez<dim> quad;
- MappingQ1Eulerian<dim,Vector<double>,spacedim> mapping(shift, shift_dh);
+ MappingQ1Eulerian<dim,Vector<double>,spacedim> mapping(shift_dh, shift);
typename Triangulation<dim,spacedim>::active_cell_iterator cell=tria.begin_active(),
endc=tria.end() ;