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foam-extend4.1-coherent-io/applications/utilities/postProcessing/dataConversion/foamToEnsightParts/foamToEnsightParts.C

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/*---------------------------------------------------------------------------*\
========= |
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\\ / F ield | foam-extend: Open Source CFD
\\ / O peration | Version: 4.1
\\ / A nd | Web: http://www.foam-extend.org
\\/ M anipulation | For copyright notice see file Copyright
-------------------------------------------------------------------------------
License
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This file is part of foam-extend.
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foam-extend is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
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Free Software Foundation, either version 3 of the License, or (at your
option) any later version.
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foam-extend 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
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along with foam-extend. If not, see <http://www.gnu.org/licenses/>.
Application
foamToEnsightParts
Description
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Translates foam data to Ensight format.
An Ensight part is created for each cellZone and patch.
Usage
- foamToEnsightParts [OPTION] \n
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Translates foam data to Ensight format
@param -ascii \n
Write Ensight data in ASCII format instead of "C Binary"
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@param -noZero \n
Exclude the often incomplete initial conditions.
@param -index \<start\>\n
Ignore the time index contained in the time file and use a
simple indexing when creating the @c Ensight/data/######## files.
@param -noMesh \n
Suppress writing the geometry. Can be useful for converting partial
results for a static geometry.
Note
- no parallel data.
- writes to @a Ensight directory to avoid collisions with foamToEnsight.
\*---------------------------------------------------------------------------*/
#include "argList.H"
#include "timeSelector.H"
#include "volFields.H"
#include "OFstream.H"
#include "IOmanip.H"
#include "IOobjectList.H"
#include "scalarIOField.H"
#include "tensorIOField.H"
#include "ensightParts.H"
#include "ensightOutputFunctions.H"
using namespace Foam;
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// Main program:
int main(int argc, char *argv[])
{
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// enable -constant
// probably don't need -noZero though, since the fields are vetted
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// afterwards anyhow
timeSelector::addOptions(true, false);
argList::noParallel();
argList::validOptions.insert("ascii", "");
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argList::validOptions.insert("index", "start");
argList::validOptions.insert("noMesh", "");
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// the volume field types that we handle
wordHashSet volFieldTypes;
volFieldTypes.insert(volScalarField::typeName);
volFieldTypes.insert(volVectorField::typeName);
volFieldTypes.insert(volSphericalTensorField::typeName);
volFieldTypes.insert(volSymmTensorField::typeName);
volFieldTypes.insert(volTensorField::typeName);
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// the lagrangian field types that we handle
wordHashSet cloudFieldTypes;
cloudFieldTypes.insert(scalarIOField::typeName);
cloudFieldTypes.insert(vectorIOField::typeName);
cloudFieldTypes.insert(tensorIOField::typeName);
const char* geometryName = "geometry";
# include "setRootCase.H"
# include "createTime.H"
// get times list
instantList timeDirs = timeSelector::select0(runTime, args);
// default to binary output, unless otherwise specified
IOstream::streamFormat format = IOstream::BINARY;
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if (args.optionFound("ascii"))
{
format = IOstream::ASCII;
}
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// control for renumbering iterations
bool optIndex = false;
label indexingNumber = 0;
if (args.optionFound("index"))
{
optIndex = true;
indexingNumber = args.optionRead<label>("index");
}
// always write the geometry, unless the -noMesh option is specified
bool optNoMesh = args.optionFound("noMesh");
fileName ensightDir = args.rootPath()/args.globalCaseName()/"Ensight";
fileName dataDir = ensightDir/"data";
fileName caseFileName = "Ensight.case";
fileName dataMask = fileName("data")/ensightFile::mask();
// Ensight and Ensight/data directories must exist
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// do not remove old data - we might wish to convert new results
// or a particular time interval
if (isDir(ensightDir))
{
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Info<<"Warning: reusing existing directory" << nl
<< " " << ensightDir << endl;
}
mkDir(ensightDir);
mkDir(dataDir);
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# include "createNamedMesh.H"
// Mesh instance (region0 gets filtered out)
fileName regionPrefix;
if (regionName != polyMesh::defaultRegion)
{
regionPrefix = regionName;
}
// Construct the list of ensight parts for the entire mesh
ensightParts partsList(mesh);
// write summary information
{
OFstream partsInfoFile(ensightDir/"partsInfo");
partsInfoFile
<< "// summary of ensight parts" << nl << nl;
partsList.writeSummary(partsInfoFile);
}
# include "checkHasMovingMesh.H"
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# include "findFields.H"
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if (hasMovingMesh && optNoMesh)
{
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Info<< "mesh is moving: ignoring '-noMesh' option" << endl;
optNoMesh = false;
}
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// map times used
Map<scalar> timeIndices;
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// Track the time indices used by the volume fields
dynamicLabelList fieldTimesUsed;
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// Track the time indices used by each cloud
HashTable<dynamicLabelList > cloudTimesUsed;
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// Create a new DynamicList for each cloud
forAllConstIter(HashTable<HashTable<word> >, cloudFields, cloudIter)
{
cloudTimesUsed.insert(cloudIter.key(), dynamicLabelList());
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}
forAll(timeDirs, timeI)
{
runTime.setTime(timeDirs[timeI], timeI);
# include "getTimeIndex.H"
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// remember the time index
fieldTimesUsed.append(timeIndex);
// the data/ITER subdirectory must exist
fileName subDir = ensightFile::subDir(timeIndex);
mkDir(dataDir/subDir);
// place a timestamp in the directory for future reference
{
OFstream timeStamp(dataDir/subDir/"time");
timeStamp
<< "# timestep time" << nl
<< subDir.c_str() << " " << runTime.timeName() << nl;
}
# include "moveMesh.H"
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if (timeI == 0 || mesh.moving())
{
if (mesh.moving())
{
partsList.recalculate(mesh);
}
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if (!optNoMesh)
{
fileName geomDir;
if (hasMovingMesh)
{
geomDir = dataDir/subDir;
}
ensightGeoFile geoFile(ensightDir/geomDir/geometryName, format);
partsList.writeGeometry(geoFile);
Info<< nl;
}
}
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Info<< "write volume field (" << flush;
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forAllConstIter(HashTable<word>, volumeFields, fieldIter)
{
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const word& fieldName = fieldIter.key();
const word& fieldType = fieldIter();
IOobject fieldObject
(
fieldName,
mesh.time().timeName(),
mesh,
IOobject::MUST_READ,
IOobject::NO_WRITE
);
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if (fieldType == volScalarField::typeName)
{
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ensightVolField<scalar>
(
partsList,
fieldObject,
mesh,
dataDir,
subDir,
format
);
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}
else if (fieldType == volVectorField::typeName)
{
ensightVolField<vector>
(
partsList,
fieldObject,
mesh,
dataDir,
subDir,
format
);
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}
else if (fieldType == volSphericalTensorField::typeName)
{
ensightVolField<sphericalTensor>
(
partsList,
fieldObject,
mesh,
dataDir,
subDir,
format
);
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}
else if (fieldType == volSymmTensorField::typeName)
{
ensightVolField<symmTensor>
(
partsList,
fieldObject,
mesh,
dataDir,
subDir,
format
);
}
else if (fieldType == volTensorField::typeName)
{
ensightVolField<tensor>
(
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partsList,
fieldObject,
mesh,
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dataDir,
subDir,
format
);
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}
}
Info<< " )" << endl;
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// check for clouds
forAllConstIter(HashTable<HashTable<word> >, cloudFields, cloudIter)
{
const word& cloudName = cloudIter.key();
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if
(
!isDir
(
runTime.timePath()/regionPrefix/
cloud::prefix/cloudName
)
)
{
continue;
}
IOobjectList cloudObjs
(
mesh,
runTime.timeName(),
cloud::prefix/cloudName
);
// check that the positions field is present for this time
if (cloudObjs.lookup("positions"))
{
ensightParticlePositions
(
mesh,
dataDir,
subDir,
cloudName,
format
);
}
else
{
continue;
}
Info<< "write " << cloudName << " (" << flush;
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forAllConstIter(HashTable<word>, cloudIter(), fieldIter)
{
const word& fieldName = fieldIter.key();
const word& fieldType = fieldIter();
IOobject *fieldObject = cloudObjs.lookup(fieldName);
if (!fieldObject)
{
Info<< "missing "
<< runTime.timeName()/cloud::prefix/cloudName
/ fieldName
<< endl;
continue;
}
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if (fieldType == scalarIOField::typeName)
{
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ensightLagrangianField<scalar>
(
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*fieldObject,
dataDir,
subDir,
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cloudName,
format
);
}
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else if (fieldType == vectorIOField::typeName)
{
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ensightLagrangianField<vector>
(
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*fieldObject,
dataDir,
subDir,
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cloudName,
format
);
}
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else if (fieldType == tensorIOField::typeName)
{
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ensightLagrangianField<tensor>
(
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*fieldObject,
dataDir,
subDir,
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cloudName,
format
);
}
}
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Info<< " )" << endl;
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// remember the time index
cloudTimesUsed[cloudName].append(timeIndex);
}
}
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# include "ensightOutputCase.H"
Info<< "\nEnd\n"<< endl;
return 0;
}
// ************************************************************************* //