List of volume cells interface. More...
#include <MeshVizXLM/mesh/topology/MiTopologyIjk.h>
Public Member Functions | |
virtual size_t | getNumCellsI () const =0 |
virtual size_t | getNumCellsJ () const =0 |
virtual size_t | getNumCellsK () const =0 |
virtual bool | isDead (size_t i, size_t j, size_t k) const |
Protected Member Functions | |
virtual std::ostream & | toStream (std::ostream &s) const |
A generic abstract interface for a structured implicit volume mesh topology. Cells are all implicitly defined as hexahedron so there is no need for specifying a list of cells. The number of cells on each dimension defines completely the topology.
MyVolumeMeshCurvilinear, MyVolumeMeshRectilinear, MyVolumeMeshRegular, MyVolumeMeshVertexHexahedronIjk
virtual size_t MiTopologyIjk::getNumCellsI | ( | ) | const [pure virtual] |
Returns the number of cells on the first logical axis.
The maximum supported value is 65535.
virtual size_t MiTopologyIjk::getNumCellsJ | ( | ) | const [pure virtual] |
Returns the number of cells on the second logical axis.
The maximum supported value is 65535.
virtual size_t MiTopologyIjk::getNumCellsK | ( | ) | const [pure virtual] |
Returns the number of cells on the third logical axis.
The maximum supported value is 65535.
virtual bool MiTopologyIjk::isDead | ( | size_t | i, | |
size_t | j, | |||
size_t | k | |||
) | const [inline, virtual] |
Returns true if the cell of index (i,j,k) should be ignored.
This value is ignored if the hasDeadCell() method returns false. The default implementation returns always false.
(i,j,k) | the index of the cell to check |
virtual std::ostream& MiTopologyIjk::toStream | ( | std::ostream & | s | ) | const [inline, protected, virtual] |
Performs an output operation on a stream which is returned afterward. This method is protected since only called by the output operator <<. This method is not pure virtual and output by default the geometry and topology of a mesh. Whenever a different output is needed, this method can be implemented in the subclass to get a different output format. No std::ostream& operator << needs to be defined in any subclass. This allows you to benefit from the virtual inheritance when using the output operator on an abstract class.
Reimplemented from MiTopology.