Form¶
-
class
dolfin.cpp.fem.
Form
(*args)¶ Bases:
dolfin.cpp.fem.HierarchicalForm
Base class for UFC code generated by FFC for DOLFIN with option -l.
A note on the order of trial and test spaces: FEniCS numbers argument spaces starting with the leading dimension of the corresponding tensor (matrix). In other words, the test space is numbered 0 and the trial space is numbered 1. However, in order to have a notation that agrees with most existing finite element literature, in particular
a = a(u, v)the spaces are numbered from right to
a: V_1 x V_0 -> RNote
Figure out how to write this in math mode without it getting messed up in the Python version.
This is reflected in the ordering of the spaces that should be supplied to generated subclasses. In particular, when a bilinear form is initialized, it should be initialized as
a(V_1, V_0) = ...
where
V_1
is the trial space andV_0
is the test space. However, when a form is initialized by a list of argument spaces (the variablefunction_spaces
in the constructors below, the list of spaces should start with space number 0 (the test space) and then space number 1 (the trial space).Overloaded versions
Form(rank, num_coefficients)
Create form of given rank with given number of coefficients
- Arguments
- rank (int)
The rank.
- num_coefficients (int)
The number of coefficients.
Form(ufc_form, function_spaces, coefficients)
Create form (shared data)
- Arguments
- ufc_form (ufc::form)
The UFC form.
- function_spaces (list of
FunctionSpace
) Vector of function spaces.
- coefficients (list of
GenericFunction
) Vector of coefficients.
-
cell_domains
()¶ Return cell domains (zero pointer if no domains have been specified)
- Returns
MeshFunction
- The cell domains.
-
check
()¶ Check function spaces and coefficients
-
coefficient
()¶ Overloaded versions
coefficient(i)
Return coefficient with given number
- Arguments
- i (int)
Index
- Returns
GenericFunction
The coefficient.
coefficient(name)
Return coefficient with given name
- Arguments
- name (str)
The name.
- Returns
GenericFunction
The coefficient.
-
coefficient_name
()¶ Return the name of the coefficient with this number
- Arguments
- i (int)
- The number
- Returns
- str
- The name of the coefficient with the given number.
-
coefficient_number
()¶ Return the number of the coefficient with this name
- Arguments
- name (str)
- The name.
- Returns
- int
- The number of the coefficient with the given name.
-
coefficients
()¶ Return all coefficients
- Returns
- list of
GenericFunction
- All coefficients.
- list of
-
coloring
()¶ Return coloring type for colored (multi-threaded) assembly of form over a mesh entity of a given dimension
- Arguments
- entity_dim (int)
- Dimension.
- Returns
- numpy.array(int)
- Coloring type.
-
exterior_facet_domains
()¶ Return exterior facet domains (zero pointer if no domains have been specified)
- Returns
MeshFunction
- The exterior facet domains.
-
function_space
(i)¶ Return function space for given argument
- Arguments
- i (std::size_t)
- Index
- Returns
- _FunctionSpace_
- Function space shared pointer.
-
function_spaces
()¶ Return function spaces for arguments
- Returns
- list of
FunctionSpace
- Vector of function space shared pointers.
- list of
-
interior_facet_domains
()¶ Return interior facet domains (zero pointer if no domains have been specified)
- Returns
MeshFunction
- The interior facet domains.
-
mesh
()¶ Extract common mesh from form
- Returns
Mesh
- The mesh.
Return mesh shared pointer (if any)
- Returns
Mesh
- The mesh shared pointer.
-
num_coefficients
()¶ Return number of coefficients
- Returns
- int
- The number of coefficients.
-
rank
()¶ Return rank of form (bilinear form = 2, linear form = 1, functional = 0, etc)
- Returns
- int
- The rank of the form.
-
set_cell_domains
()¶ Set cell domains
- Arguments
- cell_domains (
MeshFunction
) - The cell domains.
- cell_domains (
-
set_coefficient
()¶ Overloaded versions
set_coefficient(i, coefficient)
Set coefficient with given number (shared pointer version)
- Arguments
- i (int)
The given number.
- coefficient (
GenericFunction
) The coefficient.
set_coefficient(name, coefficient)
Set coefficient with given name (shared pointer version)
- Arguments
- name (str)
The name.
- coefficient (
GenericFunction
) The coefficient.
-
set_coefficients
()¶ Set all coefficients in given map. All coefficients in the given map, which may contain only a subset of the coefficients of the form, will be set.
- Arguments
- coefficients (
GenericFunction
) - The map of coefficients.
- coefficients (
-
set_exterior_facet_domains
()¶ Set exterior facet domains
- Arguments
- exterior_facet_domains (
MeshFunction
) - The exterior facet domains.
- exterior_facet_domains (
-
set_interior_facet_domains
()¶ Set interior facet domains
- Arguments
- interior_facet_domains (
MeshFunction
) - The interior facet domains.
- interior_facet_domains (
-
set_mesh
()¶ Set mesh, necessary for functionals when there are no function spaces
- Arguments
- mesh (
Mesh
) - The mesh.
- mesh (
-
set_some_coefficients
()¶ Set some coefficients in given map. Each coefficient in the given map will be set, if the name of the coefficient matches the name of a coefficient in the form.
This is useful when reusing the same coefficient map for several forms, or when some part of the form has been outcommented (for testing) in the UFL file, which means that the coefficient and attaching it to the form does not need to be outcommented in a C++ program using code from the generated UFL file.
- Arguments
- coefficients (
GenericFunction
) - The map of coefficients.
- coefficients (
-
set_vertex_domains
()¶ Set vertex domains
- Arguments
- vertex_domains (
MeshFunction
) - The vertex domains.
- vertex_domains (
-
thisown
¶ The membership flag
-
ufc_form
()¶ Return UFC form shared pointer
- Returns
- ufc::form
- The UFC form.
-
vertex_domains
()¶ Return vertex domains (zero pointer if no domains have been specified)
- Returns
MeshFunction
- The vertex domains.