List of generic cells interface. More...
#include <MeshVizXLM/mesh/topology/MiTopologyExplicitI.h>
Public Member Functions | |
virtual const MiCell * | getCell (size_t id) const |
Returns a cell of this topology. | |
virtual size_t | getEndNodeId () const =0 |
Returns the last node id + 1 used by this topology. | |
virtual size_t | getBeginNodeId () const |
Returns the first node id used by this topology. | |
Public Member Functions inherited from MiTopologyI | |
virtual size_t | getNumCells () const =0 |
Returns the number of cells. | |
virtual bool | isDead (size_t i) const |
Returns true if the cell of index i should be ignored. | |
Public Member Functions inherited from MiTopology | |
virtual | ~MiTopology () |
virtual size_t | getTimeStamp () const =0 |
Returns for this topology a unique time stamp across all topologies in the application. | |
virtual bool | hasDeadCells () const |
Returns true if the topology contains dead cells. | |
Additional Inherited Members |
List of generic cells interface.
A generic abstract interface for an unstructured explicit mesh topology.
Definition at line 39 of file MiTopologyExplicitI.h.
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inlinevirtual |
Returns the first node id used by this topology.
This topology uses only node index in the interval [beginNodeId,EndNodeId[. Thus the maximum node index used by the topology is getEndNodeId() - 1 and the number of nodes used by this topology is getEndNodeId() - getBeginNodeId(). This default implementation returns 0.
Definition at line 66 of file MiTopologyExplicitI.h.
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inlinevirtual |
Returns a cell of this topology.
The cell is identified by one id. The implementation of this method must be thread-safe because it might be called concurrently by multiple threads.
Reimplemented in MeXLineTopologyExplicitI, MeXSurfaceTopologyExplicitI, MeXVolumeTopologyExplicitI, MiLineTopologyExplicitI, MiSurfaceTopologyExplicitI, and MiVolumeTopologyExplicitI.
Definition at line 49 of file MiTopologyExplicitI.h.
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pure virtual |
Returns the last node id + 1 used by this topology.
This topology uses only node index in the interval [beginNodeId,EndNodeId[. Thus the maximum node index used by the topology is getEndNodeId() - 1 and the number of nodes used by this topology is getEndNodeId() - getBeginNodeId().