template<typename CellIteratorType, typename DataType>
class CellDataStorage< CellIteratorType, DataType >
A class for storing at each cell represented by iterators of type CellIteratorType
a vector of data DataType
. The underlying structure and the initialize() method of this class are designed in such a way that one could use different child classes derived from the base DataType class to store data on a given cell. This implies the usage of pointers, in our case – std::shared_ptr().
- Note
- The data type stored on each cell can be different. However, within the cell this class stores a vector of objects of a single data type. For this reason, this class may not be sufficiently flexible when, for example, adopting a level-set approach to describe material behavior.
- Author
- Denis Davydov, Jean-Paul Pelteret, 2016
Definition at line 59 of file quadrature_point_data.h.
template<typename CellIteratorType, typename DataType>
template<typename T = DataType>
void CellDataStorage< CellIteratorType, DataType >::initialize |
( |
const CellIteratorType & |
cell, |
|
|
const unsigned int |
number_of_data_points_per_cell |
|
) |
| |
Initialize data on the cell
to store number_of_data_points_per_cell
of objects of type T
. The typename T
is possibly another class which is derived from the base DataType
class. In order to initialize the vector of objects we have to assume that the class T
has a default constructor. This function has to be called on every cell where data is to be stored.
After the data is initialized, it can be modified using the get_data() function.
- Note
- Subsequent calls of this function with the same
cell
will not alter the objects associated with it. In order to remove the stored data, use the erase() function.
-
It is possible to use different types
T
for different cells which may reflect, for example, different constitutive models of continuum mechanics in different parts of the domain.
- Precondition
- The type
T
needs to either equal DataType
, or be a class derived from DataType
. T
needs to be default constructible.
template<typename CellIteratorType, typename DataType>
template<typename T = DataType>
void CellDataStorage< CellIteratorType, DataType >::initialize |
( |
const CellIteratorType & |
cell_start, |
|
|
const CellIteratorType & |
cell_end, |
|
|
const unsigned int |
number_of_data_points_per_cell |
|
) |
| |
Same as above but for a range of iterators starting at cell_start
until, but not including, cell_end
for all locally owned cells, i.e. for which cell->is_locally_owned()==true
.
template<typename CellIteratorType, typename DataType>
template<typename T = DataType>
std::vector<std::shared_ptr<T> > CellDataStorage< CellIteratorType, DataType >::get_data |
( |
const CellIteratorType & |
cell | ) |
|
Get a vector of the data located at cell
. A possible additional typename T
is the class to which the base class DataType could be cast. Since DataType
is stored as shared pointers, there is minimal overhead in returning a vector by value instead of by reference. This allows flexibility if class T
is not the same as DataType
on a cell-by-cell basis.
- Precondition
- The type
T
needs to match the class provided to initialize() .
template<typename CellIteratorType, typename DataType>
template<typename T = DataType>
std::vector<std::shared_ptr<const T> > CellDataStorage< CellIteratorType, DataType >::get_data |
( |
const CellIteratorType & |
cell | ) |
const |
Get a vector of constant pointers to data located at cell
. A possible additional typename T
is the class to which the base class DataType could be cast. Since DataType
is stored as shared pointers, there is minimal overhead in returning a vector by value instead of by reference. This allows flexibility if class T
is not the same as DataType
on a cell-by-cell basis.
- Precondition
- The type
T
needs to match the class provided to initialize() .