531 lines
17 KiB
C
531 lines
17 KiB
C
/*---------------------------------------------------------------------------*\
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========= |
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\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
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\\ / O peration |
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\\ / A nd | Copyright held by original author
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\\/ M anipulation |
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-------------------------------------------------------------------------------
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License
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This file is part of OpenFOAM.
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OpenFOAM is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 2 of the License, or (at your
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option) any later version.
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OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with OpenFOAM; if not, write to the Free Software Foundation,
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Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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Application
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reconstructPar
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Description
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Reconstructs a mesh and fields of a case that is decomposed for parallel
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execution of OpenFOAM.
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\*---------------------------------------------------------------------------*/
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#include "argList.H"
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#include "timeSelector.H"
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#include "fvCFD.H"
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#include "IOobjectList.H"
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#include "processorMeshes.H"
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#include "fvFieldReconstructor.H"
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#include "pointFieldReconstructor.H"
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#include "tetPointFieldReconstructor.H"
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#include "reconstructLagrangian.H"
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#include "faCFD.H"
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#include "faMesh.H"
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#include "processorFaMeshes.H"
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#include "faFieldReconstructor.H"
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// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
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int main(int argc, char *argv[])
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{
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// enable -constant ... if someone really wants it
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// enable -zeroTime to prevent accidentally trashing the initial fields
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timeSelector::addOptions(true, true);
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argList::noParallel();
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# include "addRegionOption.H"
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argList::validOptions.insert("fields", "\"(list of fields)\"");
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argList::validOptions.insert("noLagrangian", "");
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# include "setRootCase.H"
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# include "createTime.H"
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HashSet<word> selectedFields;
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if (args.optionFound("fields"))
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{
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args.optionLookup("fields")() >> selectedFields;
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}
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bool noLagrangian = args.optionFound("noLagrangian");
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// determine the processor count directly
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label nProcs = 0;
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while (isDir(args.path()/(word("processor") + name(nProcs))))
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{
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++nProcs;
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}
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if (!nProcs)
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{
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FatalErrorIn(args.executable())
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<< "No processor* directories found"
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<< exit(FatalError);
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}
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// Create the processor databases
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PtrList<Time> databases(nProcs);
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forAll (databases, procI)
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{
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databases.set
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(
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procI,
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new Time
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(
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Time::controlDictName,
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args.rootPath(),
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args.caseName()/fileName(word("processor") + name(procI))
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)
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);
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}
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// use the times list from the master processor
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// and select a subset based on the command-line options
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instantList timeDirs = timeSelector::select
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(
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databases[0].times(),
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args
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);
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if (timeDirs.empty())
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{
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FatalErrorIn(args.executable())
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<< "No times selected"
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<< exit(FatalError);
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}
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# include "createNamedMesh.H"
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fileName regionPrefix = "";
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if (regionName != fvMesh::defaultRegion)
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{
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regionPrefix = regionName;
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}
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// Set all times on processor meshes equal to reconstructed mesh
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forAll (databases, procI)
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{
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databases[procI].setTime(runTime.timeName(), runTime.timeIndex());
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}
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// Read all meshes and addressing to reconstructed mesh
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processorMeshes procMeshes(databases, regionName);
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// Loop over all times
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forAll (timeDirs, timeI)
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{
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// Set time for global database
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runTime.setTime(timeDirs[timeI], timeI);
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Info << "Time = " << runTime.timeName() << endl << endl;
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// Set time for all databases
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forAll (databases, procI)
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{
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databases[procI].setTime(timeDirs[timeI], timeI);
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}
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// Check if any new meshes need to be read.
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fvMesh::readUpdateState meshStat = mesh.readUpdate();
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fvMesh::readUpdateState procStat = procMeshes.readUpdate();
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if (procStat == fvMesh::POINTS_MOVED)
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{
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// Reconstruct the points for moving mesh cases and write them out
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procMeshes.reconstructPoints(mesh);
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}
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else if (meshStat != procStat)
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{
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WarningIn(args.executable())
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<< "readUpdate for the reconstructed mesh:" << meshStat << nl
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<< "readUpdate for the processor meshes :" << procStat << nl
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<< "These should be equal or your addressing"
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<< " might be incorrect."
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<< " Please check your time directories for any "
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<< "mesh directories." << endl;
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}
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// Get list of objects from processor0 database
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IOobjectList objects(procMeshes.meshes()[0], databases[0].timeName());
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// If there are any FV fields, reconstruct them
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if
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(
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objects.lookupClass(volScalarField::typeName).size()
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|| objects.lookupClass(volVectorField::typeName).size()
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|| objects.lookupClass(volSphericalTensorField::typeName).size()
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|| objects.lookupClass(volSymmTensorField::typeName).size()
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|| objects.lookupClass(volTensorField::typeName).size()
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|| objects.lookupClass(surfaceScalarField::typeName).size()
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|| objects.lookupClass(surfaceVectorField::typeName).size()
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|| objects.lookupClass(surfaceSphericalTensorField::typeName).size()
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|| objects.lookupClass(surfaceSymmTensorField::typeName).size()
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|| objects.lookupClass(surfaceTensorField::typeName).size()
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)
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{
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Info << "Reconstructing FV fields" << nl << endl;
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fvFieldReconstructor fvReconstructor
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(
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mesh,
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procMeshes.meshes(),
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procMeshes.faceProcAddressing(),
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procMeshes.cellProcAddressing(),
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procMeshes.boundaryProcAddressing()
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);
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fvReconstructor.reconstructFvVolumeFields<scalar>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvVolumeFields<vector>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvVolumeFields<sphericalTensor>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvVolumeFields<symmTensor>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvVolumeFields<tensor>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvSurfaceFields<scalar>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvSurfaceFields<vector>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvSurfaceFields<sphericalTensor>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvSurfaceFields<symmTensor>
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(
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objects,
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selectedFields
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);
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fvReconstructor.reconstructFvSurfaceFields<tensor>
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(
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objects,
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selectedFields
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);
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}
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else
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{
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Info << "No FV fields" << nl << endl;
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}
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// If there are any point fields, reconstruct them
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if
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(
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objects.lookupClass(pointScalarField::typeName).size()
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|| objects.lookupClass(pointVectorField::typeName).size()
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|| objects.lookupClass(pointSphericalTensorField::typeName).size()
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|| objects.lookupClass(pointSymmTensorField::typeName).size()
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|| objects.lookupClass(pointTensorField::typeName).size()
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)
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{
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Info << "Reconstructing point fields" << nl << endl;
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pointMesh pMesh(mesh);
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PtrList<pointMesh> pMeshes(procMeshes.meshes().size());
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forAll (pMeshes, procI)
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{
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pMeshes.set(procI, new pointMesh(procMeshes.meshes()[procI]));
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}
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pointFieldReconstructor pointReconstructor
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(
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pMesh,
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pMeshes,
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procMeshes.pointProcAddressing(),
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procMeshes.boundaryProcAddressing()
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);
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pointReconstructor.reconstructFields<scalar>(objects);
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pointReconstructor.reconstructFields<vector>(objects);
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pointReconstructor.reconstructFields<sphericalTensor>(objects);
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pointReconstructor.reconstructFields<symmTensor>(objects);
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pointReconstructor.reconstructFields<tensor>(objects);
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}
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else
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{
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Info << "No point fields" << nl << endl;
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}
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// If there are any tetFem fields, reconstruct them
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if
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(
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objects.lookupClass(tetPointScalarField::typeName).size()
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|| objects.lookupClass(tetPointVectorField::typeName).size()
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|| objects.lookupClass(tetPointSphericalTensorField::typeName).size()
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|| objects.lookupClass(tetPointSymmTensorField::typeName).size()
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|| objects.lookupClass(tetPointTensorField::typeName).size()
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|| objects.lookupClass(elementScalarField::typeName).size()
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|| objects.lookupClass(elementVectorField::typeName).size()
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)
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{
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Info << "Reconstructing tet point fields" << nl << endl;
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tetPolyMesh tetMesh(mesh);
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PtrList<tetPolyMesh> tetMeshes(procMeshes.meshes().size());
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forAll (tetMeshes, procI)
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{
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tetMeshes.set
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(
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procI,
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new tetPolyMesh(procMeshes.meshes()[procI])
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);
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}
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tetPointFieldReconstructor tetPointReconstructor
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(
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tetMesh,
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tetMeshes,
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procMeshes.pointProcAddressing(),
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procMeshes.faceProcAddressing(),
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procMeshes.cellProcAddressing(),
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procMeshes.boundaryProcAddressing()
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);
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// Reconstruct tet point fields
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tetPointReconstructor.reconstructTetPointFields<scalar>(objects);
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tetPointReconstructor.reconstructTetPointFields<vector>(objects);
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tetPointReconstructor.
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reconstructTetPointFields<sphericalTensor>(objects);
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tetPointReconstructor.
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reconstructTetPointFields<symmTensor>(objects);
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tetPointReconstructor.reconstructTetPointFields<tensor>(objects);
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tetPointReconstructor.reconstructElementFields<scalar>(objects);
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tetPointReconstructor.reconstructElementFields<vector>(objects);
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}
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else
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{
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Info << "No tetFem fields" << nl << endl;
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}
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// If there are any clouds, reconstruct them.
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// The problem is that a cloud of size zero will not get written so
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// in pass 1 we determine the cloud names and per cloud name the
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// fields. Note that the fields are stored as IOobjectList from
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// the first processor that has them. They are in pass2 only used
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// for name and type (scalar, vector etc).
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if (!noLagrangian)
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{
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HashTable<IOobjectList> cloudObjects;
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forAll (databases, procI)
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{
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fileNameList cloudDirs
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(
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readDir
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(
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databases[procI].timePath()/regionPrefix/cloud::prefix,
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fileName::DIRECTORY
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)
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);
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forAll (cloudDirs, i)
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{
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// Check if we already have cloud objects for this cloudname
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HashTable<IOobjectList>::const_iterator iter =
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cloudObjects.find(cloudDirs[i]);
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if (iter == cloudObjects.end())
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{
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// Do local scan for valid cloud objects
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IOobjectList sprayObjs
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(
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procMeshes.meshes()[procI],
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databases[procI].timeName(),
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cloud::prefix/cloudDirs[i]
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);
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IOobject* positionsPtr = sprayObjs.lookup("positions");
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if (positionsPtr)
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{
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cloudObjects.insert(cloudDirs[i], sprayObjs);
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}
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}
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}
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}
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if (cloudObjects.size())
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{
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// Pass2: reconstruct the cloud
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forAllConstIter(HashTable<IOobjectList>, cloudObjects, iter)
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{
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const word cloudName = string::validate<word>(iter.key());
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// Objects (on arbitrary processor)
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const IOobjectList& sprayObjs = iter();
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Info<< "Reconstructing lagrangian fields for cloud "
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<< cloudName << nl << endl;
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reconstructLagrangianPositions
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(
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mesh,
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cloudName,
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procMeshes.meshes(),
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procMeshes.faceProcAddressing(),
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procMeshes.cellProcAddressing()
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);
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reconstructLagrangianFields<label>
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(
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cloudName,
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mesh,
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procMeshes.meshes(),
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sprayObjs
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);
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reconstructLagrangianFields<scalar>
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(
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cloudName,
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mesh,
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procMeshes.meshes(),
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sprayObjs
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);
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reconstructLagrangianFields<vector>
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(
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cloudName,
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mesh,
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procMeshes.meshes(),
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sprayObjs
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);
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reconstructLagrangianFields<sphericalTensor>
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(
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cloudName,
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mesh,
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procMeshes.meshes(),
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sprayObjs
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);
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reconstructLagrangianFields<symmTensor>
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(
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cloudName,
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mesh,
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procMeshes.meshes(),
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sprayObjs
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);
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reconstructLagrangianFields<tensor>
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(
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cloudName,
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mesh,
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procMeshes.meshes(),
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sprayObjs
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);
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}
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}
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else
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{
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Info << "No lagrangian fields" << nl << endl;
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}
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}
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// If there are any FA fields, reconstruct them
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if
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(
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objects.lookupClass(areaScalarField::typeName).size()
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|| objects.lookupClass(areaVectorField::typeName).size()
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|| objects.lookupClass(areaSphericalTensorField::typeName).size()
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|| objects.lookupClass(areaSymmTensorField::typeName).size()
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|| objects.lookupClass(areaTensorField::typeName).size()
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|| objects.lookupClass(edgeScalarField::typeName).size()
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)
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{
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Info << "Reconstructing FA fields" << nl << endl;
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faMesh aMesh(mesh);
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processorFaMeshes procFaMeshes(procMeshes.meshes());
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faFieldReconstructor faReconstructor
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(
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aMesh,
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procFaMeshes.meshes(),
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procFaMeshes.edgeProcAddressing(),
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procFaMeshes.faceProcAddressing(),
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procFaMeshes.boundaryProcAddressing()
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);
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faReconstructor.reconstructFaAreaFields<scalar>(objects);
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faReconstructor.reconstructFaAreaFields<vector>(objects);
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faReconstructor
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.reconstructFaAreaFields<sphericalTensor>(objects);
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faReconstructor.reconstructFaAreaFields<symmTensor>(objects);
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faReconstructor.reconstructFaAreaFields<tensor>(objects);
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faReconstructor.reconstructFaEdgeFields<scalar>(objects);
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}
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else
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{
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Info << "No FA fields" << nl << endl;
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}
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// If there are any "uniform" directories copy them from
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// the master processor
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fileName uniformDir0 = databases[0].timePath()/"uniform";
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if (isDir(uniformDir0))
|
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{
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cp(uniformDir0, runTime.timePath());
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}
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}
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Info<< "End.\n" << endl;
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return 0;
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}
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// ************************************************************************* //
|