DofMap.h¶
Note
The documentation on this page was automatically extracted from the DOLFIN C++ code and may need to be edited or expanded.
-
class
DofMap¶ Parent class(es)
This class handles the mapping of degrees of freedom. It builds a dof map based on a ufc::dofmap on a specific mesh. It will reorder the dofs when running in parallel. Sub-dofmaps, both views and copies, are supported.
Create dof map on mesh (mesh is not stored)
- Arguments
- ufc_dofmap (ufc::dofmap)
- The ufc::dofmap.
- mesh (
Mesh) - The mesh.
Create a periodic dof map on mesh (mesh is not stored)
-
bool
is_view() const¶ True iff dof map is a view into another map
- Returns
- bool
- True if the dof map is a sub-dof map (a view into another map).
-
std::size_t
global_dimension() const¶ Return the dimension of the global finite element function space
- Returns
- std::size_t
- The dimension of the global finite element function space.
-
std::size_t
num_element_dofs(std::size_t cell_index) const¶ Return the dimension of the local finite element function space on a cell
- Arguments
- cell_index (std::size_t)
- Index of cell
- Returns
- std::size_t
- Dimension of the local finite element function space.
-
std::size_t
max_element_dofs() const¶ Return the maximum dimension of the local finite element function space
- Returns
- std::size_t
- Maximum dimension of the local finite element function space.
-
std::size_t
num_entity_dofs(std::size_t dim) const¶ Return the number of dofs for a given entity dimension
- Arguments
- dim (std::size_t)
- Entity dimension
- Returns
- std::size_t
- Number of dofs associated with given entity dimension
-
std::size_t
num_facet_dofs() const¶ Return number of facet dofs
- Returns
- std::size_t
- The number of facet dofs.
-
std::pair<std::size_t, std::size_t>
ownership_range() const¶ Return the ownership range (dofs in this range are owned by this process)
- Returns
- std::pair<std::size_t, std::size_t>
- The ownership range.
-
const std::vector<int> &
off_process_owner() const¶ Return map from nonlocal dofs that appear in local dof map to owning process
- Returns
- std::vector<unsigned int>
- The map from non-local dofs.
Return map from all shared nodes to the sharing processes (not including the current process) that share it.
- Returns
- std::unordered_map<std::size_t, std::vector<unsigned int>>
- The map from dofs to list of processes
-
const std::set<int> &
neighbours() const¶ Return set of processes that share dofs with this process
- Returns
- std::set<int>
- The set of processes
-
void
clear_sub_map_data()¶ Clear any data required to build sub-dofmaps (this is to reduce memory use)
-
ArrayView<const dolfin::la_index>
cell_dofs(std::size_t cell_index) const¶ Local-to-global mapping of dofs on a cell
- Arguments
- cell_index (std::size_t)
- The cell index.
- Returns
- ArrayView<const dolfin::la_index>
- Local-to-global mapping of dofs.
-
void
tabulate_facet_dofs(std::vector<std::size_t> &dofs, std::size_t local_facet) const¶ Tabulate local-local facet dofs
- Arguments
- dofs (std::size_t)
- Degrees of freedom.
- local_facet (std::size_t)
- The local facet.
-
void
tabulate_entity_dofs(std::vector<std::size_t> &dofs, std::size_t dim, std::size_t local_entity) const¶ Tabulate local-local mapping of dofs on entity (dim, local_entity)
- Arguments
- dofs (std::size_t)
- Degrees of freedom.
- dim (std::size_t)
- The entity dimension
- local_entity (std::size_t)
- The local entity index
-
void
tabulate_global_dofs(std::vector<std::size_t> &dofs) const¶ Tabulate globally supported dofs
- Arguments
- dofs (std::size_t)
- Degrees of freedom.
-
std::shared_ptr<GenericDofMap>
copy() const¶ Create a copy of the dof map
- Returns
- DofMap
- The Dofmap copy.
-
std::shared_ptr<GenericDofMap>
create(const Mesh &new_mesh) const¶ Create a copy of the dof map on a new mesh
- Arguments
- new_mesh (
Mesh) - The new mesh to create the dof map on.
- new_mesh (
- Returns
- DofMap
- The new Dofmap copy.
-
std::shared_ptr<GenericDofMap>
extract_sub_dofmap(const std::vector<std::size_t> &component, const Mesh &mesh) const¶ Extract subdofmap component
- Arguments
- component (std::vector<std::size_t>)
- The component.
- mesh (
Mesh) - The mesh.
- Returns
- DofMap
- The subdofmap component.
-
std::shared_ptr<GenericDofMap>
collapse(std::unordered_map<std::size_t, std::size_t> &collapsed_map, const Mesh &mesh) const¶ Create a “collapsed” dofmap (collapses a sub-dofmap)
- Arguments
- collapsed_map (std::unordered_map<std::size_t, std::size_t>)
- The “collapsed” map.
- mesh (
Mesh) - The mesh.
- Returns
- DofMap
- The collapsed dofmap.
-
std::vector<dolfin::la_index>
dofs(const Mesh &mesh, std::size_t dim) const¶ Return list of dof indices on this process that belong to mesh entities of dimension dim
-
void
set(GenericVector &x, double value) const¶ Set dof entries in vector to a specified value. Parallel layout of vector must be consistent with dof map range. This function is typically used to construct the null space of a matrix operator.
- Arguments
- vector (
GenericVector) - The vector to set.
- value (double)
- The value to set.
- vector (
-
int
block_size() const¶ Return the block size for dof maps with components, typically used for vector valued functions.
-
void
tabulate_local_to_global_dofs(std::vector<std::size_t> &local_to_global_map) const¶ Compute the map from local (this process) dof indices to global dof indices.
- Arguments
- local_to_global_map (_std::vector<std::size_t>_)
- The local-to-global map to fill.
-
std::size_t
local_to_global_index(int local_index) const¶ Return global dof index for a given local (process) dof index
- Arguments
- local_index (int)
- The local local index.
- Returns
- std::size_t
- The global dof index.
-
const std::vector<std::size_t> &
local_to_global_unowned() const¶ Return indices of dofs which are owned by other processes
-
std::string
str(bool verbose) const¶ Return informal string representation (pretty-print)
- Arguments
- verbose (bool)
- Flag to turn on additional output.
- Returns
- std::string
- An informal representation of the function space.