ThreeFieldsLaplacian Solver using continuous approximation spaces solve on
and
on
Dim | the geometric dimension of the problem (e.g. Dim=2 or 3) |
Public Types | |
typedef boost::shared_ptr < backend_type > | backend_ptrtype |
typedef Backend< value_type > | backend_type |
typedef bases< Lagrange < Order1, Scalar > > | basis1_type |
typedef bases< Lagrange < Order2, Scalar > > | basis2_type |
typedef Simplex< Dim, 1, Dim > | convex_type |
typedef space1_type::element_type | element1_type |
typedef space2_type::element_type | element2_type |
typedef boost::shared_ptr < export_type > | export_ptrtype |
typedef Exporter< mesh_type > | export_type |
typedef bases< Lagrange < Order3, Scalar > > | interfaces_basis_type |
typedef interfaces_space_type::element_type | interfaces_element_type |
typedef boost::shared_ptr < interfaces_space_type > | interfaces_space_ptrtype |
typedef FunctionSpace < trace_mesh_type, interfaces_basis_type > | interfaces_space_type |
typedef boost::shared_ptr < mesh_type > | mesh_ptrtype |
typedef Mesh< convex_type > | mesh_type |
typedef FunctionSpace < mesh_type, basis1_type > | space1_type |
typedef FunctionSpace < mesh_type, basis2_type > | space2_type |
typedef trace1_space_type::element_type | trace1_element_type |
typedef space1_type::trace_functionspace_type | trace1_space_type |
typedef trace2_space_type::element_type | trace2_element_type |
typedef space2_type::trace_functionspace_type | trace2_space_type |
typedef boost::shared_ptr < trace_export_type > | trace_export_ptrtype |
typedef Exporter< trace_mesh_type > | trace_export_type |
typedef mesh_type::trace_mesh_ptrtype | trace_mesh_ptrtype |
typedef mesh_type::trace_mesh_type | trace_mesh_type |
typedef double | value_type |
Public Member Functions | |
mesh_ptrtype | createMesh (double xmin, double xmax, double meshsize, int id) |
trace_mesh_ptrtype | createMesh (double meshSize, double interface) |
void | exportResults (element1_type &u, element2_type &v, trace1_element_type &t1, trace2_element_type &t2) |
void | run () |
ThreeFieldsLaplacian () | |
![]() | |
Simget () | |
virtual | ~Simget () |
destructor | |
Simget & | operator= (Simget const &o) |
copy operator | |
virtual std::string | name () const |
return the name of the simget | |
mpi::communicator | comm () const |
po::variables_map const & | vm () const |
AboutData const & | about () const |
double | meshSize () const |
return the mesh size | |
double | meshSizeInit () const |
return the mesh size | |
int | level () const |
return the refinement level | |
ptree::ptree const & | stats () const |
return the statistics associated to the simget after calling run | |
ptree::ptree & | stats () |
return the statistics associated to the simget after calling run | |
void | setMeshSize (double h) |
set the mesh size | |
void | setMeshSizeInit (double h) |
set the initial mesh size | |
void | setLevel (int level) |
set the refinment level if applicable | |
virtual void | run (const double *X, unsigned long P, double *Y, unsigned long N) |
void | print (std::ostream &out, std::vector< ptree::ptree > &stats) |
Additional Inherited Members | |
![]() | |
Simget & | changeRepository (boost::format fmt) |
![]() | |
int | M_level |
double | M_meshSize |
double | M_meshSizeInit |
ptree::ptree | M_stats |
|
inline |
Constructor
|
virtual |
simply execute the simget
Implements Feel::Simget.
References Feel::elements(), Feel::integrate(), and Feel::markedfaces().