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foam-extend4.1-coherent-io/applications/utilities/postProcessing/graphics/PV3FoamReader/vtkPV3Foam/vtkPV3FoamMesh.C
2010-09-23 14:04:10 +01:00

644 lines
15 KiB
C

/*---------------------------------------------------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright held by original author
\\/ M anipulation |
-------------------------------------------------------------------------------
License
This file is part of OpenFOAM.
OpenFOAM is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2 of the License, or (at your
option) any later version.
OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with OpenFOAM; if not, write to the Free Software Foundation,
Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
Description
\*---------------------------------------------------------------------------*/
#include "vtkPV3Foam.H"
// Foam includes
#include "cellSet.H"
#include "faceSet.H"
#include "pointSet.H"
#include "fvMeshSubset.H"
#include "vtkPV3FoamReader.h"
// VTK includes
#include "vtkDataArraySelection.h"
#include "vtkMultiBlockDataSet.h"
#include "vtkPolyData.h"
#include "vtkUnstructuredGrid.h"
// * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
void Foam::vtkPV3Foam::convertMeshVolume
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoVolume_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
// resize for decomposed polyhedra
regionPolyDecomp_.setSize(selector.size());
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshVolume" << endl;
printMemory();
}
// Convert the internalMesh
// this looks like more than one part, but it isn't
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
const word partName = "internalMesh";
if (!partStatus_[partId])
{
continue;
}
vtkUnstructuredGrid* vtkmesh = volumeVTKMesh
(
mesh,
regionPolyDecomp_[datasetNo]
);
if (vtkmesh)
{
AddToBlock(output, vtkmesh, selector, datasetNo, partName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshVolume" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshLagrangian
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoLagrangian_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshLagrangian" << endl;
printMemory();
}
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
const word cloudName = getPartName(partId);
if (!partStatus_[partId])
{
continue;
}
vtkPolyData* vtkmesh = lagrangianVTKMesh(mesh, cloudName);
if (vtkmesh)
{
AddToBlock(output, vtkmesh, selector, datasetNo, cloudName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshLagrangian" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshPatches
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoPatches_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
const polyBoundaryMesh& patches = mesh.boundaryMesh();
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshPatches" << endl;
printMemory();
}
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
const word patchName = getPartName(partId);
const label patchId = patches.findPatchID(patchName);
if (!partStatus_[partId] || patchId < 0)
{
continue;
}
if (debug)
{
Info<< "Creating VTK mesh for patch[" << patchId <<"] "
<< patchName << endl;
}
vtkPolyData* vtkmesh = patchVTKMesh(patches[patchId]);
if (vtkmesh)
{
AddToBlock(output, vtkmesh, selector, datasetNo, patchName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshPatches" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshCellZones
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoCellZones_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
// resize for decomposed polyhedra
zonePolyDecomp_.setSize(selector.size());
if (!selector.size())
{
return;
}
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshCellZones" << endl;
printMemory();
}
const cellZoneMesh& zMesh = mesh.cellZones();
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
const word zoneName = getPartName(partId);
const label zoneId = zMesh.findZoneID(zoneName);
if (!partStatus_[partId] || zoneId < 0)
{
continue;
}
if (debug)
{
Info<< "Creating VTK mesh for cellZone[" << zoneId << "] "
<< zoneName << endl;
}
fvMeshSubset subsetMesh
(
IOobject
(
"set",
mesh.time().constant(),
mesh,
IOobject::NO_READ,
IOobject::NO_WRITE
),
mesh
);
subsetMesh.setLargeCellSubset(zMesh[zoneId]);
vtkUnstructuredGrid* vtkmesh = volumeVTKMesh
(
subsetMesh.subMesh(),
zonePolyDecomp_[datasetNo]
);
if (vtkmesh)
{
// superCells + addPointCellLabels must contain global cell ids
inplaceRenumber
(
subsetMesh.cellMap(),
zonePolyDecomp_[datasetNo].superCells()
);
inplaceRenumber
(
subsetMesh.cellMap(),
zonePolyDecomp_[datasetNo].addPointCellLabels()
);
// copy pointMap as well, otherwise pointFields fail
zonePolyDecomp_[datasetNo].pointMap() = subsetMesh.pointMap();
AddToBlock(output, vtkmesh, selector, datasetNo, zoneName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshCellZones" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshCellSets
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoCellSets_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
// resize for decomposed polyhedra
csetPolyDecomp_.setSize(selector.size());
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshCellSets" << endl;
printMemory();
}
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
const word partName = getPartName(partId);
if (!partStatus_[partId])
{
continue;
}
if (debug)
{
Info<< "Creating VTK mesh for cellSet=" << partName << endl;
}
const cellSet cSet(mesh, partName);
fvMeshSubset subsetMesh
(
IOobject
(
"set",
mesh.time().constant(),
mesh,
IOobject::NO_READ,
IOobject::NO_WRITE
),
mesh
);
subsetMesh.setLargeCellSubset(cSet);
vtkUnstructuredGrid* vtkmesh = volumeVTKMesh
(
subsetMesh.subMesh(),
csetPolyDecomp_[datasetNo]
);
if (vtkmesh)
{
// superCells + addPointCellLabels must contain global cell ids
inplaceRenumber
(
subsetMesh.cellMap(),
csetPolyDecomp_[datasetNo].superCells()
);
inplaceRenumber
(
subsetMesh.cellMap(),
csetPolyDecomp_[datasetNo].addPointCellLabels()
);
// copy pointMap as well, otherwise pointFields fail
csetPolyDecomp_[datasetNo].pointMap() = subsetMesh.pointMap();
AddToBlock(output, vtkmesh, selector, datasetNo, partName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshCellSets" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshFaceZones
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoFaceZones_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
if (!selector.size())
{
return;
}
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshFaceZones" << endl;
printMemory();
}
const faceZoneMesh& zMesh = mesh.faceZones();
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
const word zoneName = getPartName(partId);
const label zoneId = zMesh.findZoneID(zoneName);
if (!partStatus_[partId] || zoneId < 0)
{
continue;
}
if (debug)
{
Info<< "Creating VTKmesh for faceZone[" << zoneId << "] "
<< zoneName << endl;
}
vtkPolyData* vtkmesh = faceZoneVTKMesh(mesh, zMesh[zoneId]);
if (vtkmesh)
{
AddToBlock(output, vtkmesh, selector, datasetNo, zoneName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshFaceZones" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshFaceSets
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoFaceSets_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshFaceSets" << endl;
printMemory();
}
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
const word partName = getPartName(partId);
if (!partStatus_[partId])
{
continue;
}
if (debug)
{
Info<< "Creating VTK mesh for faceSet=" << partName << endl;
}
const faceSet fSet(mesh, partName);
vtkPolyData* vtkmesh = faceSetVTKMesh(mesh, fSet);
if (vtkmesh)
{
AddToBlock(output, vtkmesh, selector, datasetNo, partName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshFaceSets" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshPointZones
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoPointZones_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshPointZones" << endl;
printMemory();
}
if (selector.size())
{
const pointZoneMesh& zMesh = mesh.pointZones();
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
word zoneName = getPartName(partId);
label zoneId = zMesh.findZoneID(zoneName);
if (!partStatus_[partId] || zoneId < 0)
{
continue;
}
vtkPolyData* vtkmesh = pointZoneVTKMesh(mesh, zMesh[zoneId]);
if (vtkmesh)
{
AddToBlock(output, vtkmesh, selector, datasetNo, zoneName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshPointZones" << endl;
printMemory();
}
}
void Foam::vtkPV3Foam::convertMeshPointSets
(
vtkMultiBlockDataSet* output,
int& blockNo
)
{
partInfo& selector = partInfoPointSets_;
selector.block(blockNo); // set output block
label datasetNo = 0; // restart at dataset 0
const fvMesh& mesh = *meshPtr_;
if (debug)
{
Info<< "<beg> Foam::vtkPV3Foam::convertMeshPointSets" << endl;
printMemory();
}
for (int partId = selector.start(); partId < selector.end(); ++partId)
{
word partName = getPartName(partId);
if (!partStatus_[partId])
{
continue;
}
if (debug)
{
Info<< "Creating VTK mesh for pointSet=" << partName << endl;
}
const pointSet pSet(mesh, partName);
vtkPolyData* vtkmesh = pointSetVTKMesh(mesh, pSet);
if (vtkmesh)
{
AddToBlock(output, vtkmesh, selector, datasetNo, partName);
vtkmesh->Delete();
partDataset_[partId] = datasetNo++;
}
}
// anything added?
if (datasetNo)
{
++blockNo;
}
if (debug)
{
Info<< "<end> Foam::vtkPV3Foam::convertMeshPointSets" << endl;
printMemory();
}
}
// ************************************************************************* //