SparseMatrix<double> &matrix,
const Function<dim> * const coefficient)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
create_mass_matrix(mapping, dof, q, matrix, coefficient);
}
Vector<double> &rhs_vector,
const Function<dim> * const coefficient)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
create_mass_matrix(mapping, dof, q, matrix, rhs, rhs_vector, coefficient);
}
std::vector<unsigned int> &dof_to_boundary_mapping,
const Function<dim> *a)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
create_boundary_mass_matrix(mapping, dof, q, matrix, rhs, rhs_vector,
dof_to_boundary_mapping, a);
SparseMatrix<double> &matrix,
const Function<dim> * const coefficient)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
create_laplace_matrix(mapping, dof, q, matrix, coefficient);
}
Vector<double> &rhs_vector,
const Function<dim> * const coefficient)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
create_laplace_matrix(mapping, dof, q, matrix, rhs, rhs_vector, coefficient);
}
const Function<dim> &function,
Vector<double> &vec)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
interpolate(mapping, dof, function, vec);
}
const Quadrature<dim-1> &q_boundary,
const bool project_to_boundary_first)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
project(mapping, dof, constraints, quadrature, function, vec,
enforce_zero_boundary, q_boundary, project_to_boundary_first);
const Function<dim> &rhs_function,
Vector<double> &rhs_vector)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
create_right_hand_side(mapping, dof_handler, quadrature,
rhs_function, rhs_vector);
std::map<unsigned int,double> &boundary_values,
const std::vector<bool> &component_mask)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
interpolate_boundary_values(mapping, dof, boundary_component,
boundary_function, boundary_values, component_mask);
const Quadrature<dim-1> &q,
std::map<unsigned int,double> &boundary_values)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
project_boundary_values(mapping, dof, boundary_functions, q, boundary_values);
}
const NormType &norm,
const Function<dim> *weight)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
integrate_difference(mapping, dof, fe_function, exact_solution,
difference, q, norm, weight);
Vector<double> &v,
const unsigned int component)
{
+ Assert (DEAL_II_COMPAT_MAPPING, ExcCompatibility("mapping"));
static const MappingQ1<dim> mapping;
return compute_mean_value(mapping, dof, quadrature, v, component);
}