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Program: Visualization Toolkit
Module: vtkAbstractGridConnectivity.h
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
// .NAME vtkAbstractGridConnectivity.h -- Superclass for GridConnectivity
//
// .SECTION Description
// A superclass that defines the interface to be implemented by all
// concrete grid connectivity classes. Grid connectivity classes provide the
// mechanism to achieve the following:
// <ul>
// <li>
// <b> Handling of partitioned/distributed data </b>
// <p>
// Construct the neighboring topology information for each partition,e.g.,
// used for creating communication lists and in computing statistics,i.e.,
// average, mean, etc.
// </p>
// <b> Creation of ghost layers </b>
// <p>
// Provides the mechanism for automatically generating ghost information
// given a partitioned/distributed grid configuration.
// </p>
// </li>
// </ul>
//
// .SECTION See Also
// vtkStructuredGridConnectivity vtkStructuredAMRGridConnectivity
#ifndef VTKABSTRACTGRIDCONNECTIVITY_H_
#define VTKABSTRACTGRIDCONNECTIVITY_H_
// VTK includes
#include "vtkFiltersGeometryModule.h" // For export macro
#include "vtkObject.h"
#include "vtkPoints.h" // for vtkPoints definition in STL vector
#include "vtkPointData.h" // for vtkPointData definition in STL vector
#include "vtkCellData.h" // for vtkCellData definition int STL vector
#include "vtkUnsignedCharArray.h" // for vtkUnsignedCharArray definition
// Forward declarations
class vtkPointData;
class vtkCellData;
class vtkUnsignedCharArray;
class vtkPoints;
// C++ include directives
#include <vector> // For STL vector
#include <cassert> // For assert
class VTKFILTERSGEOMETRY_EXPORT vtkAbstractGridConnectivity : public vtkObject
{
public:
vtkTypeMacro( vtkAbstractGridConnectivity, vtkObject );
void PrintSelf(ostream &os,vtkIndent indent );
// Description:
// Set/Get the number of ghost layers
vtkSetMacro( NumberOfGhostLayers, unsigned int );
vtkGetMacro( NumberOfGhostLayers, unsigned int);
// Description:
// Sets the total number of grids in the domain.
// Note: This method is implemented by concrete classes.
// NOTE: Concrete classes implementing this pure virtual method must
// set the number of grids and call AllocateUserRegisterDataStructures
// in addition to defining any other additional functionality.
virtual void SetNumberOfGrids( const unsigned int N ) = 0;
// Description:
// Returns the total number of grids.
unsigned int GetNumberOfGrids() { return this->NumberOfGrids; };
// Description:
// Computes the grid neighboring topology for the domain
virtual void ComputeNeighbors( ) = 0;
// Description:
// Creates N layers of ghost layers where N is the number of cells that will
// be added to each grid. If no parameter is supplied, N has a nominal value
// of 1, in which case 1 layer of cells would be added.
// NOTE: This method is implemented by concrete implementations
virtual void CreateGhostLayers( const int N=1 ) = 0;
// Description:
// Returns the ghosted points ghost array for the grid associated with the
// given grid ID. The return pointer is a shallow-copy of the internal
// data-structure. The pointer may be NULL iff there is no ghosted points
// ghost array for the requested grid.
vtkUnsignedCharArray* GetGhostedPointGhostArray( const int gridID );
// Description:
// Returns the ghosted cells ghost array for the grid associated with the
// given grid ID. The return pointer is a shallow-copy of the internal
// data-structure. The pointer may be NULL iff there is no ghosted cells
// ghost array for the requested grid.
vtkUnsignedCharArray* GetGhostedCellGhostArray( const int gridID );
// Description:
// Returns the ghosted grid point data for the grid associated with the
// given grid ID. The return pointer is a shallow-copy of the internal
// data-structure. The pointer may be NULL iff there is no ghosted point
// data for the requested grid.
vtkPointData* GetGhostedGridPointData( const int gridID );
// Description:
// Returns the ghosted grid cell data for the grid associated with the
// given grid ID. The return pointer is a shallow-copy of the internal
// data-structure. The pointer may be NULL iff there is no ghosted cell
// data for the requested grid.
vtkCellData* GetGhostedGridCellData( const int gridID );
// Description:
// Returns the ghosted grid points for the grid associated with the given
// grid ID. The return pointer is a shallow-copy of the internal data
// structure. The pointer may be NULL iff there are no ghosted points
// created for the requested grid.
vtkPoints* GetGhostedPoints( const int gridID );
protected:
vtkAbstractGridConnectivity();
virtual ~vtkAbstractGridConnectivity();
// Description:
// Fills the ghost arrays for the given grid.
virtual void FillGhostArrays(
const int gridId,
vtkUnsignedCharArray* nodesArray,
vtkUnsignedCharArray* cellsArray ) = 0;
// Description:
// Registers the ghostarrays for the given grid.
void RegisterGridGhostArrays(
const int gridID,vtkUnsignedCharArray *nodesArray,
vtkUnsignedCharArray *cellsArray );
// Description:
// Registers the grid's field data, i.e., the node and cell data.
void RegisterFieldData(
const int gridID, vtkPointData *PointData, vtkCellData *CellData );
// Description:
// Registers the grid nodes for the grid associated with the given gridID.
void RegisterGridNodes( const int gridID, vtkPoints *nodes );
// Description:
// Allocate/De-allocate the data-structures where the user-supplied grids
// will be registered.
void AllocateUserRegisterDataStructures();
void DeAllocateUserRegisterDataStructures();
// Description:
// Allocated/De-allocate the data-structures where the ghosted grid
// data will be stored.
void AllocateInternalDataStructures();
void DeAllocateInternalDataStructures();
// The total number of grids, set initially by the user.
unsigned int NumberOfGrids;
unsigned int NumberOfGhostLayers;
// BTX
// Arrays registered by the user for each grid
std::vector< vtkUnsignedCharArray* > GridPointGhostArrays;
std::vector< vtkUnsignedCharArray* > GridCellGhostArrays;
std::vector< vtkPointData* > GridPointData;
std::vector< vtkCellData* > GridCellData;
std::vector< vtkPoints* > GridPoints;
// Arrays computed internally for each grid
bool AllocatedGhostDataStructures;
std::vector< vtkPointData* > GhostedGridPointData;
std::vector< vtkCellData* > GhostedGridCellData;
std::vector< vtkUnsignedCharArray* > GhostedPointGhostArray;
std::vector< vtkUnsignedCharArray* > GhostedCellGhostArray;
std::vector< vtkPoints* > GhostedGridPoints;
// ETX
private:
vtkAbstractGridConnectivity(const vtkAbstractGridConnectivity&);// Not implemented
void operator=(const vtkAbstractGridConnectivity&); // Not implemented
};
//------------------------------------------------------------------------------
inline vtkUnsignedCharArray*
vtkAbstractGridConnectivity::GetGhostedPointGhostArray( const int gridID )
{
if( !this->AllocatedGhostDataStructures )
{
return NULL;
}
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids) ) );
assert( "pre: Ghosted point ghost array" &&
(this->NumberOfGrids == this->GhostedPointGhostArray.size() ) );
return( this->GhostedPointGhostArray[ gridID ] );
}
//------------------------------------------------------------------------------
inline vtkUnsignedCharArray*
vtkAbstractGridConnectivity::GetGhostedCellGhostArray( const int gridID )
{
if( !this->AllocatedGhostDataStructures )
{
return NULL;
}
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids)));
assert( "pre: Ghosted point ghost array" &&
(this->NumberOfGrids == this->GhostedCellGhostArray.size() ) );
return( this->GhostedCellGhostArray[ gridID ] );
}
//------------------------------------------------------------------------------
inline vtkPointData*
vtkAbstractGridConnectivity::GetGhostedGridPointData( const int gridID )
{
if( !this->AllocatedGhostDataStructures )
{
return NULL;
}
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids)));
assert( "pre: Ghosted point ghost array" &&
(this->NumberOfGrids == this->GhostedGridPointData.size() ) );
return( this->GhostedGridPointData[ gridID ] );
}
//------------------------------------------------------------------------------
inline vtkCellData*
vtkAbstractGridConnectivity::GetGhostedGridCellData( const int gridID )
{
if( !this->AllocatedGhostDataStructures )
{
return NULL;
}
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids)));
assert( "pre: Ghosted point ghost array" &&
(this->NumberOfGrids == this->GhostedGridCellData.size() ) );
return( this->GhostedGridCellData[ gridID ] );
}
//------------------------------------------------------------------------------
inline vtkPoints*
vtkAbstractGridConnectivity::GetGhostedPoints( const int gridID )
{
if( !this->AllocatedGhostDataStructures )
{
return NULL;
}
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids)));
assert( "pre: Ghosted point ghost array" &&
(this->NumberOfGrids == this->GhostedGridPoints.size() ) );
return( this->GhostedGridPoints[ gridID ] );
}
//------------------------------------------------------------------------------
inline void
vtkAbstractGridConnectivity::AllocateUserRegisterDataStructures()
{
// Sanity Check
assert( "pre: Allocating UserRegister for N > 0 grids" &&
(this->NumberOfGrids > 0) );
this->GridPointGhostArrays.resize( this->NumberOfGrids, NULL );
this->GridCellGhostArrays.resize( this->NumberOfGrids, NULL );
this->GridPointData.resize( this->NumberOfGrids, NULL );
this->GridCellData.resize( this->NumberOfGrids, NULL );
this->GridPoints.resize( this->NumberOfGrids, NULL );
}
//------------------------------------------------------------------------------
inline void
vtkAbstractGridConnectivity::DeAllocateUserRegisterDataStructures()
{
assert( "pre: Data-structure has not been properly allocated" &&
(this->GridPointGhostArrays.size() == this->NumberOfGrids ) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GridCellGhostArrays.size() == this->NumberOfGrids ) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GridPointData.size() == this->NumberOfGrids ) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GridCellData.size() == this->NumberOfGrids ) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GridPoints.size() == this->NumberOfGrids ) );
for( unsigned int i=0; i < this->NumberOfGrids; ++i )
{
// NOTE: Ghost arrays are not deleted here b/c when they are registered, they
// are not shallow-copied.
// if( this->GridPointGhostArrays[i] != NULL )
// {
// this->GridPointGhostArrays[i]->Delete();
// }
// if( this->GridCellGhostArrays[i] != NULL )
// {
// this->GridCellGhostArrays[i]->Delete();
// }
if( this->GridPointData[i] != NULL )
{
this->GridPointData[i]->Delete();
}
if( this->GridCellData[i] != NULL )
{
this->GridCellData[i]->Delete();
}
if( this->GridPoints[i] != NULL )
{
this->GridPoints[i]->Delete();
}
} // END for all grids
this->GridPointGhostArrays.clear();
this->GridCellGhostArrays.clear();
this->GridPointData.clear();
this->GridCellData.clear();
this->GridPoints.clear();
}
//------------------------------------------------------------------------------
inline void
vtkAbstractGridConnectivity::AllocateInternalDataStructures()
{
assert( "pre: Allocating Internal data-structured for N > 0 grids" &&
(this->NumberOfGrids > 0) );
this->GhostedGridPointData.resize( this->NumberOfGrids, NULL );
this->GhostedGridCellData.resize( this->NumberOfGrids, NULL );
this->GhostedPointGhostArray.resize( this->NumberOfGrids, NULL );
this->GhostedCellGhostArray.resize( this->NumberOfGrids, NULL );
this->GhostedGridPoints.resize( this->NumberOfGrids, NULL );
this->AllocatedGhostDataStructures = true;
}
//------------------------------------------------------------------------------
inline void
vtkAbstractGridConnectivity::DeAllocateInternalDataStructures()
{
if( !this->AllocatedGhostDataStructures )
{
return;
}
assert( "pre: Data-structure has not been properly allocated" &&
(this->GhostedGridPointData.size() == this->NumberOfGrids) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GhostedGridCellData.size() == this->NumberOfGrids) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GhostedPointGhostArray.size() == this->NumberOfGrids) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GhostedCellGhostArray.size() == this->NumberOfGrids ) );
assert( "pre: Data-structure has not been properly allocated" &&
(this->GhostedGridPoints.size() == this->NumberOfGrids ) );
for( unsigned int i=0; i < this->NumberOfGrids; ++i )
{
if( this->GhostedGridPointData[i] != NULL )
{
this->GhostedGridPointData[i]->Delete();
}
if( this->GhostedGridCellData[i] != NULL )
{
this->GhostedGridCellData[i]->Delete();
}
if( this->GhostedPointGhostArray[i] != NULL )
{
this->GhostedPointGhostArray[i]->Delete();
}
if( this->GhostedCellGhostArray[i] != NULL )
{
this->GhostedCellGhostArray[i]->Delete();
}
if( this->GhostedGridPoints[i] != NULL )
{
this->GhostedGridPoints[i]->Delete();
}
} // END for all grids
this->GhostedGridPointData.clear();
this->GhostedGridCellData.clear();
this->GhostedPointGhostArray.clear();
this->GhostedCellGhostArray.clear();
this->GhostedGridPoints.clear();
this->AllocatedGhostDataStructures = false;
}
//------------------------------------------------------------------------------
inline void vtkAbstractGridConnectivity::RegisterGridGhostArrays(
const int gridID,
vtkUnsignedCharArray *nodesArray,
vtkUnsignedCharArray *cellsArray )
{
// Sanity check
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids)));
assert( "pre: GridPointGhostArrays has not been allocated" &&
(this->GridPointGhostArrays.size() == this->NumberOfGrids) );
assert( "pre: GridCellGhostArrays has not been allocated" &&
(this->GridCellGhostArrays.size() == this->NumberOfGrids ) );
// NOTE: We should really shallow copy the objects here
this->GridPointGhostArrays[ gridID ] = nodesArray;
this->GridCellGhostArrays[ gridID ] = cellsArray;
}
//------------------------------------------------------------------------------
inline void vtkAbstractGridConnectivity::RegisterFieldData(
const int gridID, vtkPointData *PointData, vtkCellData *CellData )
{
// Sanity check
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids)));
assert( "pre: GridPointData has not been allocated!" &&
(this->GridPointData.size() == this->NumberOfGrids ) );
assert( "pre: GridCellData has not been allocated!" &&
(this->GridCellData.size() == this->NumberOfGrids ) );
// Note: The size of these vectors is allocated in SetNumberOfGrids
if( PointData != NULL )
{
assert( "pre: GridPointData[gridID] must be NULL" &&
this->GridPointData[ gridID ]==NULL );
this->GridPointData[ gridID ] = vtkPointData::New();
this->GridPointData[ gridID ]->ShallowCopy( PointData );
}
else
{
this->GridPointData[ gridID ] = NULL;
}
if( CellData != NULL )
{
assert( "pre: GridCellData[gridID] must be NULL" &&
this->GridCellData[gridID]==NULL );
this->GridCellData[ gridID ] = vtkCellData::New();
this->GridCellData[ gridID ]->ShallowCopy( CellData );
}
else
{
this->GridCellData[ gridID ] = NULL;
}
}
//------------------------------------------------------------------------------
inline void vtkAbstractGridConnectivity::RegisterGridNodes(
const int gridID, vtkPoints *nodes )
{
// Sanity check
assert( "pre: GridID is out-of-bound GridPointData" &&
(gridID >= 0) && (gridID < static_cast<int>(this->NumberOfGrids)));
assert( "pre: GridPoints has not been allocated!" &&
(this->GridPoints.size() == this->NumberOfGrids) );
if( nodes != NULL )
{
assert( "pre:GridPoints[gridID] must be NULL" &&
this->GridPoints[gridID]==NULL );
this->GridPoints[ gridID ] = vtkPoints::New();
this->GridPoints[ gridID ]->SetDataTypeToDouble();
this->GridPoints[ gridID ]->ShallowCopy( nodes );
}
else
{
this->GridPoints[ gridID ] = NULL;
}
}
#endif /* VTKABSTRACTGRIDCONNECTIVITY_H_ */
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