Reference documentation for deal.II version 9.0.0
|
#include <deal.II/numerics/time_dependent.h>
Public Types | |
enum | SolutionState { grid_refinement = 0x1000 } |
typedef TimeStepBase_Tria_Flags::Flags< dim > | Flags |
Public Types inherited from TimeStepBase | |
enum | SolutionState { primal_problem = 0x0, dual_problem = 0x1, postprocess = 0x2 } |
Public Member Functions | |
TimeStepBase_Tria () | |
TimeStepBase_Tria (const double time, const Triangulation< dim, dim > &coarse_grid, const Flags &flags, const RefinementFlags &refinement_flags=RefinementFlags()) | |
virtual | ~TimeStepBase_Tria () |
virtual void | wake_up (const unsigned int wakeup_level) |
virtual void | sleep (const unsigned int) |
void | refine_grid (const RefinementData data) |
virtual void | init_for_refinement () |
virtual void | get_tria_refinement_criteria (Vector< float > &criteria) const =0 |
void | save_refine_flags () |
virtual std::size_t | memory_consumption () const |
Public Member Functions inherited from TimeStepBase | |
TimeStepBase (const double time) | |
virtual | ~TimeStepBase ()=default |
virtual void | start_sweep () |
virtual void | end_sweep () |
virtual void | init_for_primal_problem () |
virtual void | init_for_dual_problem () |
virtual void | init_for_postprocessing () |
virtual void | solve_primal_problem ()=0 |
virtual void | solve_dual_problem () |
virtual void | postprocess_timestep () |
double | get_time () const |
unsigned int | get_timestep_no () const |
double | get_backward_timestep () const |
double | get_forward_timestep () const |
Public Member Functions inherited from Subscriptor | |
Subscriptor () | |
Subscriptor (const Subscriptor &) | |
Subscriptor (Subscriptor &&) noexcept | |
virtual | ~Subscriptor () |
Subscriptor & | operator= (const Subscriptor &) |
Subscriptor & | operator= (Subscriptor &&) noexcept |
void | subscribe (const char *identifier=nullptr) const |
void | unsubscribe (const char *identifier=nullptr) const |
unsigned int | n_subscriptions () const |
void | list_subscribers () const |
template<class Archive > | |
void | serialize (Archive &ar, const unsigned int version) |
Static Public Member Functions | |
static ::ExceptionBase & | ExcGridNotDeleted () |
Static Public Member Functions inherited from Subscriptor | |
static ::ExceptionBase & | ExcInUse (int arg1, std::string arg2, std::string arg3) |
static ::ExceptionBase & | ExcNoSubscriber (std::string arg1, std::string arg2) |
Protected Attributes | |
SmartPointer< Triangulation< dim, dim >, TimeStepBase_Tria< dim > > | tria |
SmartPointer< const Triangulation< dim, dim >, TimeStepBase_Tria< dim > > | coarse_grid |
const Flags | flags |
const RefinementFlags | refinement_flags |
Protected Attributes inherited from TimeStepBase | |
const TimeStepBase * | previous_timestep |
const TimeStepBase * | next_timestep |
unsigned int | sweep_no |
unsigned int | timestep_no |
const double | time |
unsigned int | next_action |
Private Member Functions | |
void | restore_grid () |
Private Attributes | |
std::vector< std::vector< bool > > | refine_flags |
std::vector< std::vector< bool > > | coarsen_flags |
Specialization of TimeStepBase which addresses some aspects of grid handling. In particular, this class is thought to make handling of grids available that are adaptively refined on each time step separately or with a loose coupling between time steps. It also takes care of deleting and rebuilding grids when memory resources are a point, through the sleep
and wake_up
functions declared in the base class.
In addition to that, it offers functions which do some rather hairy refinement rules for time dependent problems, trying to avoid too much change in the grids between subsequent time levels, while also trying to retain the freedom of refining each grid separately. There are lots of flags and numbers controlling this function, which might drastically change the behaviour of the function – see the description of the flags for further information.
Definition at line 1273 of file time_dependent.h.
typedef TimeStepBase_Tria_Flags::Flags<dim> TimeStepBase_Tria< dim >::Flags |
Typedef the data types of the TimeStepBase_Tria_Flags() namespace into local scope.
Definition at line 1280 of file time_dependent.h.
enum TimeStepBase_Tria::SolutionState |
Extension of the enum in the base class denoting the next action to be done.
Enumerator | |
---|---|
grid_refinement | Perform grid refinement next. |
Definition at line 1289 of file time_dependent.h.
TimeStepBase_Tria< dim >::TimeStepBase_Tria | ( | ) |
Default constructor. Does nothing but throws an exception. We need to have such a constructor in order to satisfy the needs of derived classes, which take this class as a virtual base class and don't need to call this constructor of they are not terminal classes. The compiler would like to know a constructor to call anyway since it can't know that the class is not terminal.
Definition at line 411 of file time_dependent.cc.
TimeStepBase_Tria< dim >::TimeStepBase_Tria | ( | const double | time, |
const Triangulation< dim, dim > & | coarse_grid, | ||
const Flags & | flags, | ||
const RefinementFlags & | refinement_flags = RefinementFlags() |
||
) |
Constructor. Takes a coarse grid from which the grids on this time level will be derived and some flags steering the behaviour of this object.
The ownership of the coarse grid stays with the creator of this object. However, it is locked from destruction to guarantee the lifetime of the coarse grid is longer than it is needed by this object.
You need to give the general flags structure to this function since it is needed anyway; the refinement flags can be omitted if you do not intend to call the refinement function of this class.
|
virtual |
Destructor. At present, this does not more than releasing the lock on the coarse grid triangulation given to the constructor.
Definition at line 438 of file time_dependent.cc.
|
virtual |
Reconstruct all the data that is needed for this time level to work. This function serves to reget all the variables and data structures to work again after they have been send to sleep some time before, or at the first time we visit this time level. In particular, it is used to reconstruct the triangulation, degree of freedom handlers, to reload data vectors in case they have been stored to disk, etc. By default, this function rebuilds the triangulation if the respective flag has been set to destroy it in the sleep
function. It does so also the first time we hit this function and wakeup_level
equals flags.wakeup_level_to_build_grid
, independently of the value of the mentioned flag. (Actually, it does so whenever the triangulation pointer equals the Null pointer and the value of wakeup_level
is right.)
Since this is an important task, you should call this function from your own function, should you choose to overload it in your own class (which likely is the case), preferably at the beginning so that your function can take effect of the triangulation already existing.
Reimplemented from TimeStepBase.
Definition at line 456 of file time_dependent.cc.
|
virtual |
This is the opposite function to wake_up
. It is used to delete data or save it to disk after they are no more needed for the present sweep. Typical kinds of data for this are data vectors, degree of freedom handlers, triangulation objects, etc. which occupy large amounts of memory and may therefore be externalized.
By default, if the user specified so in the flags for this object, the triangulation is deleted and the refinement history saved such that the respective wake_up
function can rebuild it. You should therefore call this function from your overloaded version, preferably at the end so that your function can use the triangulation as long as you need it.
Reimplemented from TimeStepBase.
Definition at line 469 of file time_dependent.cc.
void TimeStepBase_Tria< dim >::refine_grid | ( | const RefinementData | data | ) |
Do the refinement according to the flags passed to the constructor of this object and the data passed to this function. For a description of the working of this function refer to the general documentation of this class.
In fact, this function does not actually refine or coarsen the triangulation, but only sets the respective flags. This is done because usually you will not need the grid immediately afterwards but only in the next sweep, so it suffices to store the flags and rebuild it the next time we need it. Also, it may be that the next time step would like to add or delete some flags, so we have to wait anyway with the use of this grid.
Definition at line 721 of file time_dependent.cc.
|
virtual |
Respective init function for the refinement loop; does nothing in the default implementation, apart from setting next_action
to grid_refinement
but can be overloaded.
Definition at line 1117 of file time_dependent.cc.
|
pure virtual |
Virtual function that should fill the vector with the refinement criteria for the present triangulation. It is used within the refine_grid
function to get the criteria for the present time step, since they can't be passed through its argument when using the loop of the time step management object.
void TimeStepBase_Tria< dim >::save_refine_flags | ( | ) |
The refinement flags of the triangulation are stored in a local variable thus allowing a restoration. The coarsening flags are also stored.
Definition at line 489 of file time_dependent.cc.
|
virtual |
Determine an estimate for the memory consumption (in bytes) of this object.
You will want to overload this function in derived classes to compute the amount memory used by the derived class, and add the result of this function to your result.
Reimplemented from TimeStepBase.
Definition at line 1126 of file time_dependent.cc.
|
private |
Restore the grid according to the saved data. For this, the coarse grid is copied and the grid is stepwise rebuilt using the saved flags.
Definition at line 502 of file time_dependent.cc.
|
protected |
Triangulation used at this time level. Since this is something that every time stepping scheme needs to have, we can safely put it into the base class. Note that the triangulation is frequently deleted and rebuilt by the functions sleep
and wake_up
to save memory, if such a behaviour is specified in the flags
structure.
Definition at line 1432 of file time_dependent.h.
|
protected |
Pointer to a grid which is to be used as the coarse grid for this time level. This pointer is set through the constructor; ownership remains with the owner of this management object.
Definition at line 1439 of file time_dependent.h.
|
protected |
Some flags about how this time level shall behave. See the documentation of this struct to find out more about that.
Definition at line 1445 of file time_dependent.h.
|
protected |
Flags controlling the refinement process; see the documentation of the respective structure for more information.
Definition at line 1451 of file time_dependent.h.
|
private |
Vectors holding the refinement and coarsening flags of the different sweeps on this time level. The vectors therefore hold the history of the grid.
Definition at line 1459 of file time_dependent.h.
|
private |
Definition at line 1464 of file time_dependent.h.