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openfoam/applications/utilities/postProcessing/dataConversion/foamToTetDualMesh/foamToTetDualMesh.C
Mark Olesen 2f86cdc712 STYLE: more consistent use of dimensioned Zero 
- when constructing dimensioned fields that are to be zero-initialized,
  it is preferrable to use a form such as

      dimensionedScalar(dims, Zero)
      dimensionedVector(dims, Zero)

  rather than

      dimensionedScalar("0", dims, 0)
      dimensionedVector("zero", dims, vector::zero)

  This reduces clutter and also avoids any suggestion that the name of
  the dimensioned quantity has any influence on the field's name.

  An even shorter version is possible. Eg,

      dimensionedScalar(dims)

  but reduces the clarity of meaning.

- NB: UniformDimensionedField is an exception to these style changes
  since it does use the name of the dimensioned type (instead of the
  regIOobject).
2018-03-16 10:24:03 +01:00

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/*---------------------------------------------------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright (C) 2011-2016 OpenFOAM Foundation
\\/ 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 3 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, see <http://www.gnu.org/licenses/>.
Application
foamToTetDualMesh
Group
grpPostProcessingUtilities
Description
Converts polyMesh results to tetDualMesh.
\*---------------------------------------------------------------------------*/
#include "argList.H"
#include "fvMesh.H"
#include "volFields.H"
#include "pointFields.H"
#include "Time.H"
#include "IOobjectList.H"
using namespace Foam;
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
template<class ReadGeoField, class MappedGeoField>
void ReadAndMapFields
(
const fvMesh& mesh,
const IOobjectList& objects,
const fvMesh& tetDualMesh,
const labelList& map,
const typename MappedGeoField::value_type& nullValue,
PtrList<MappedGeoField>& tetFields
)
{
typedef typename MappedGeoField::value_type Type;
// Search list of objects for wanted type
IOobjectList fieldObjects(objects.lookupClass(ReadGeoField::typeName));
tetFields.setSize(fieldObjects.size());
label i = 0;
forAllConstIter(IOobjectList, fieldObjects, iter)
{
Info<< "Converting " << ReadGeoField::typeName << ' ' << iter.key()
<< endl;
ReadGeoField readField(*iter(), mesh);
tetFields.set
(
i,
new MappedGeoField
(
IOobject
(
readField.name(),
readField.instance(),
readField.local(),
tetDualMesh,
IOobject::NO_READ,
IOobject::AUTO_WRITE,
readField.registerObject()
),
pointMesh::New(tetDualMesh),
dimensioned<Type>(readField.dimensions(), Zero)
)
);
Field<Type>& fld = tetFields[i].primitiveFieldRef();
// Map from read field. Set unmapped entries to nullValue.
fld.setSize(map.size(), nullValue);
forAll(map, pointi)
{
label index = map[pointi];
if (index > 0)
{
label celli = index-1;
fld[pointi] = readField[celli];
}
else if (index < 0)
{
label facei = -index-1;
label bFacei = facei - mesh.nInternalFaces();
if (bFacei >= 0)
{
label patchi = mesh.boundaryMesh().patchID()[bFacei];
label localFacei = mesh.boundaryMesh()[patchi].whichFace
(
facei
);
fld[pointi] = readField.boundaryField()[patchi][localFacei];
}
//else
//{
// FatalErrorInFunction
// << "Face " << facei << " from index " << index
// << " is not a boundary face." << abort(FatalError);
//}
}
//else
//{
// WarningInFunction
// << "Point " << pointi << " at "
// << tetDualMesh.points()[pointi]
// << " has no dual correspondence." << endl;
//}
}
tetFields[i].correctBoundaryConditions();
i++;
}
}
int main(int argc, char *argv[])
{
#include "addOverwriteOption.H"
#include "addTimeOptions.H"
#include "setRootCase.H"
#include "createTime.H"
// Get times list
instantList Times = runTime.times();
#include "checkTimeOptions.H"
runTime.setTime(Times[startTime], startTime);
// Read the mesh
#include "createMesh.H"
// Read the tetDualMesh
Info<< "Create tetDualMesh for time = "
<< runTime.timeName() << nl << endl;
fvMesh tetDualMesh
(
IOobject
(
"tetDualMesh",
runTime.timeName(),
runTime,
IOobject::MUST_READ
)
);
// From tet vertices to poly cells/faces
const labelIOList pointDualAddressing
(
IOobject
(
"pointDualAddressing",
tetDualMesh.facesInstance(),
tetDualMesh.meshSubDir,
tetDualMesh,
IOobject::MUST_READ
)
);
if (pointDualAddressing.size() != tetDualMesh.nPoints())
{
FatalErrorInFunction
<< "Size " << pointDualAddressing.size()
<< " of addressing map " << pointDualAddressing.objectPath()
<< " differs from number of points in mesh "
<< tetDualMesh.nPoints()
<< exit(FatalError);
}
// Some stats on addressing
label nCells = 0;
label nPatchFaces = 0;
label nUnmapped = 0;
forAll(pointDualAddressing, pointi)
{
label index = pointDualAddressing[pointi];
if (index > 0)
{
nCells++;
}
else if (index == 0)
{
nUnmapped++;
}
else
{
label facei = -index-1;
if (facei < mesh.nInternalFaces())
{
FatalErrorInFunction
<< "Face " << facei << " from index " << index
<< " is not a boundary face."
<< " nInternalFaces:" << mesh.nInternalFaces()
<< exit(FatalError);
}
else
{
nPatchFaces++;
}
}
}
reduce(nCells, sumOp<label>());
reduce(nPatchFaces, sumOp<label>());
reduce(nUnmapped, sumOp<label>());
Info<< "tetDualMesh points : " << tetDualMesh.nPoints()
<< " of which mapped to" << nl
<< " cells : " << nCells << nl
<< " patch faces : " << nPatchFaces << nl
<< " not mapped : " << nUnmapped << nl
<< endl;
// Read objects in time directory
IOobjectList objects(mesh, runTime.timeName());
// Read vol fields, interpolate onto tet points
PtrList<pointScalarField> psFlds;
ReadAndMapFields<volScalarField, pointScalarField>
(
mesh,
objects,
tetDualMesh,
pointDualAddressing,
Zero, // nullValue
psFlds
);
PtrList<pointVectorField> pvFlds;
ReadAndMapFields<volVectorField, pointVectorField>
(
mesh,
objects,
tetDualMesh,
pointDualAddressing,
Zero, // nullValue
pvFlds
);
PtrList<pointSphericalTensorField> pstFlds;
ReadAndMapFields<volSphericalTensorField, pointSphericalTensorField>
(
mesh,
objects,
tetDualMesh,
pointDualAddressing,
Zero, // nullValue
pstFlds
);
PtrList<pointSymmTensorField> psymmtFlds;
ReadAndMapFields<volSymmTensorField, pointSymmTensorField>
(
mesh,
objects,
tetDualMesh,
pointDualAddressing,
Zero, // nullValue
psymmtFlds
);
PtrList<pointTensorField> ptFlds;
ReadAndMapFields<volTensorField, pointTensorField>
(
mesh,
objects,
tetDualMesh,
pointDualAddressing,
Zero, // nullValue
ptFlds
);
tetDualMesh.objectRegistry::write();
Info<< "End\n" << endl;
return 0;
}
// ************************************************************************* //
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