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345a2a42f1
openfoam/applications/utilities/mesh/manipulation/mergeOrSplitBaffles/mergeOrSplitBaffles.C
Mark Olesen 345a2a42f1 ENH: simplify method names for reading argList options and arguments 
- use succincter method names that more closely resemble dictionary
  and HashTable method names. This improves method name consistency
  between classes and also requires less typing effort:

    args.found(optName)        vs.  args.optionFound(optName)
    args.readIfPresent(..)     vs.  args.optionReadIfPresent(..)
    ...
    args.opt<scalar>(optName)  vs.  args.optionRead<scalar>(optName)
    args.read<scalar>(index)   vs.  args.argRead<scalar>(index)

- the older method names forms have been retained for code compatibility,
  but are now deprecated
2018-01-08 15:35:18 +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 | Copyright (C) 2016-2017 OpenCFD Ltd.
-------------------------------------------------------------------------------
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
mergeOrSplitBaffles
Group
grpMeshManipulationUtilities
Description
Detects boundary faces that share points (baffles). Either merges them or
duplicate the points.
Usage
\b mergeOrSplitBaffles [OPTION]
Options:
- \par -detectOnly
Detect baffles and write to faceSet duplicateFaces.
- \par -split
Detect baffles and duplicate the points (used so the two sides
can move independently)
- \par -dict \<dictionary\>
Specify a dictionary to read actions from.
Note
- can only handle pairwise boundary faces. So three faces using
the same points is not handled (is illegal mesh anyway)
- surfaces consisting of duplicate faces can be topologically split
if the points on the interior of the surface cannot walk to all the
cells that use them in one go.
- Parallel operation (where duplicate face is perpendicular to a coupled
boundary) is supported but not really tested.
(Note that coupled faces themselves are not seen as duplicate faces)
\*---------------------------------------------------------------------------*/
#include "argList.H"
#include "Time.H"
#include "syncTools.H"
#include "faceSet.H"
#include "pointSet.H"
#include "meshTools.H"
#include "polyTopoChange.H"
#include "polyRemoveFace.H"
#include "polyModifyFace.H"
#include "indirectPrimitivePatch.H"
#include "processorPolyPatch.H"
#include "localPointRegion.H"
#include "duplicatePoints.H"
#include "ReadFields.H"
#include "volFields.H"
#include "surfaceFields.H"
#include "processorMeshes.H"
using namespace Foam;
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
void insertDuplicateMerge
(
const polyMesh& mesh,
const labelList& boundaryFaces,
const labelList& duplicates,
polyTopoChange& meshMod
)
{
const faceList& faces = mesh.faces();
const labelList& faceOwner = mesh.faceOwner();
const faceZoneMesh& faceZones = mesh.faceZones();
forAll(duplicates, bFacei)
{
label otherFacei = duplicates[bFacei];
if (otherFacei != -1 && otherFacei > bFacei)
{
// Two duplicate faces. Merge.
label face0 = boundaryFaces[bFacei];
label face1 = boundaryFaces[otherFacei];
label own0 = faceOwner[face0];
label own1 = faceOwner[face1];
if (own0 < own1)
{
// Use face0 as the new internal face.
label zoneID = faceZones.whichZone(face0);
bool zoneFlip = false;
if (zoneID >= 0)
{
const faceZone& fZone = faceZones[zoneID];
zoneFlip = fZone.flipMap()[fZone.whichFace(face0)];
}
meshMod.setAction(polyRemoveFace(face1));
meshMod.setAction
(
polyModifyFace
(
faces[face0], // modified face
face0, // label of face being modified
own0, // owner
own1, // neighbour
false, // face flip
-1, // patch for face
false, // remove from zone
zoneID, // zone for face
zoneFlip // face flip in zone
)
);
}
else
{
// Use face1 as the new internal face.
label zoneID = faceZones.whichZone(face1);
bool zoneFlip = false;
if (zoneID >= 0)
{
const faceZone& fZone = faceZones[zoneID];
zoneFlip = fZone.flipMap()[fZone.whichFace(face1)];
}
meshMod.setAction(polyRemoveFace(face0));
meshMod.setAction
(
polyModifyFace
(
faces[face1], // modified face
face1, // label of face being modified
own1, // owner
own0, // neighbour
false, // face flip
-1, // patch for face
false, // remove from zone
zoneID, // zone for face
zoneFlip // face flip in zone
)
);
}
}
}
}
label patchSize(const polyMesh& mesh, const labelList& patchIDs)
{
const polyBoundaryMesh& patches = mesh.boundaryMesh();
label sz = 0;
forAll(patchIDs, i)
{
const polyPatch& pp = patches[patchIDs[i]];
sz += pp.size();
}
return sz;
}
labelList patchFaces(const polyMesh& mesh, const labelList& patchIDs)
{
const polyBoundaryMesh& patches = mesh.boundaryMesh();
labelList faceIDs(patchSize(mesh, patchIDs));
label sz = 0;
forAll(patchIDs, i)
{
const polyPatch& pp = patches[patchIDs[i]];
forAll(pp, ppi)
{
faceIDs[sz++] = pp.start()+ppi;
}
}
if (faceIDs.size() != sz)
{
FatalErrorInFunction << exit(FatalError);
}
return faceIDs;
}
labelList findBaffles(const polyMesh& mesh, const labelList& boundaryFaces)
{
// Get all duplicate face labels (in boundaryFaces indices!).
labelList duplicates = localPointRegion::findDuplicateFaces
(
mesh,
boundaryFaces
);
// Check that none are on processor patches
const polyBoundaryMesh& patches = mesh.boundaryMesh();
forAll(duplicates, bFacei)
{
if (duplicates[bFacei] != -1)
{
label facei = boundaryFaces[bFacei];
label patchi = patches.whichPatch(facei);
if (isA<processorPolyPatch>(patches[patchi]))
{
FatalErrorInFunction
<< "Duplicate face " << facei
<< " is on a processorPolyPatch."
<< "This is not allowed." << nl
<< "Face:" << facei
<< " is on patch:" << patches[patchi].name()
<< abort(FatalError);
}
}
}
// Write to faceSet for ease of postprocessing.
{
faceSet duplicateSet
(
mesh,
"duplicateFaces",
(mesh.nFaces() - mesh.nInternalFaces())/256
);
forAll(duplicates, bFacei)
{
label otherFacei = duplicates[bFacei];
if (otherFacei != -1 && otherFacei > bFacei)
{
duplicateSet.insert(boundaryFaces[bFacei]);
duplicateSet.insert(boundaryFaces[otherFacei]);
}
}
Info<< "Writing " << returnReduce(duplicateSet.size(), sumOp<label>())
<< " duplicate faces to faceSet " << duplicateSet.objectPath()
<< nl << endl;
duplicateSet.write();
}
return duplicates;
}
int main(int argc, char *argv[])
{
argList::addNote
(
"Detect faces that share points (baffles).\n"
"Merge them or duplicate the points."
);
#include "addOverwriteOption.H"
#include "addRegionOption.H"
#include "addDictOption.H"
argList::addBoolOption
(
"detectOnly",
"find baffles only, but do not merge or split them"
);
argList::addBoolOption
(
"split",
"topologically split duplicate surfaces"
);
#include "setRootCase.H"
#include "createTime.H"
runTime.functionObjects().off();
#include "createNamedMesh.H"
const word oldInstance = mesh.pointsInstance();
const polyBoundaryMesh& patches = mesh.boundaryMesh();
const bool readDict = args.found("dict");
const bool split = args.found("split");
const bool overwrite = args.found("overwrite");
const bool detectOnly = args.found("detectOnly");
if (readDict && (split || detectOnly))
{
FatalErrorInFunction
<< "Use of dictionary for settings not compatible with"
<< " using command line arguments for \"split\""
<< " or \"detectOnly\"" << exit(FatalError);
}
labelList detectPatchIDs;
labelList splitPatchIDs;
labelList mergePatchIDs;
if (readDict)
{
const word dictName;
#include "setSystemMeshDictionaryIO.H"
Info<< "Reading " << dictName << "\n" << endl;
IOdictionary dict(dictIO);
if (dict.found("detect"))
{
wordReList patchNames(dict.subDict("detect").lookup("patches"));
detectPatchIDs = patches.patchSet(patchNames).sortedToc();
Info<< "Detecting baffles on " << detectPatchIDs.size()
<< " patches with "
<< returnReduce(patchSize(mesh, detectPatchIDs), sumOp<label>())
<< " faces" << endl;
}
if (dict.found("merge"))
{
wordReList patchNames(dict.subDict("merge").lookup("patches"));
mergePatchIDs = patches.patchSet(patchNames).sortedToc();
Info<< "Detecting baffles on " << mergePatchIDs.size()
<< " patches with "
<< returnReduce(patchSize(mesh, mergePatchIDs), sumOp<label>())
<< " faces" << endl;
}
if (dict.found("split"))
{
wordReList patchNames(dict.subDict("split").lookup("patches"));
splitPatchIDs = patches.patchSet(patchNames).sortedToc();
Info<< "Detecting baffles on " << splitPatchIDs.size()
<< " patches with "
<< returnReduce(patchSize(mesh, splitPatchIDs), sumOp<label>())
<< " faces" << endl;
}
}
else
{
if (detectOnly)
{
detectPatchIDs = identity(patches.size());
}
else if (split)
{
splitPatchIDs = identity(patches.size());
}
else
{
mergePatchIDs = identity(patches.size());
}
}
if (detectPatchIDs.size())
{
findBaffles(mesh, patchFaces(mesh, detectPatchIDs));
if (detectOnly)
{
return 0;
}
}
// Read objects in time directory
IOobjectList objects(mesh, runTime.timeName());
// Read vol fields.
PtrList<volScalarField> vsFlds;
ReadFields(mesh, objects, vsFlds);
PtrList<volVectorField> vvFlds;
ReadFields(mesh, objects, vvFlds);
PtrList<volSphericalTensorField> vstFlds;
ReadFields(mesh, objects, vstFlds);
PtrList<volSymmTensorField> vsymtFlds;
ReadFields(mesh, objects, vsymtFlds);
PtrList<volTensorField> vtFlds;
ReadFields(mesh, objects, vtFlds);
// Read surface fields.
PtrList<surfaceScalarField> ssFlds;
ReadFields(mesh, objects, ssFlds);
PtrList<surfaceVectorField> svFlds;
ReadFields(mesh, objects, svFlds);
PtrList<surfaceSphericalTensorField> sstFlds;
ReadFields(mesh, objects, sstFlds);
PtrList<surfaceSymmTensorField> ssymtFlds;
ReadFields(mesh, objects, ssymtFlds);
PtrList<surfaceTensorField> stFlds;
ReadFields(mesh, objects, stFlds);
if (mergePatchIDs.size())
{
Info<< "Merging duplicate faces" << nl << endl;
// Mesh change engine
polyTopoChange meshMod(mesh);
const labelList boundaryFaces(patchFaces(mesh, mergePatchIDs));
// Get all duplicate face pairs (in boundaryFaces indices!).
labelList duplicates(findBaffles(mesh, boundaryFaces));
// Merge into internal faces.
insertDuplicateMerge(mesh, boundaryFaces, duplicates, meshMod);
if (!overwrite)
{
runTime++;
}
// Change the mesh. No inflation.
autoPtr<mapPolyMesh> map = meshMod.changeMesh(mesh, false);
// Update fields
mesh.updateMesh(map);
// Move mesh (since morphing does not do this)
if (map().hasMotionPoints())
{
mesh.movePoints(map().preMotionPoints());
}
if (overwrite)
{
mesh.setInstance(oldInstance);
}
Info<< "Writing mesh to time " << runTime.timeName() << endl;
mesh.write();
}
if (splitPatchIDs.size())
{
Info<< "Topologically splitting duplicate surfaces"
<< ", i.e. duplicating points internal to duplicate surfaces"
<< nl << endl;
// Determine points on split patches
DynamicList<label> candidates;
{
label sz = 0;
forAll(splitPatchIDs, i)
{
sz += patches[splitPatchIDs[i]].nPoints();
}
candidates.setCapacity(sz);
PackedBoolList isCandidate(mesh.nPoints());
forAll(splitPatchIDs, i)
{
const labelList& mp = patches[splitPatchIDs[i]].meshPoints();
forAll(mp, mpi)
{
label pointi = mp[mpi];
if (isCandidate.set(pointi))
{
candidates.append(pointi);
}
}
}
}
// Analyse which points need to be duplicated
localPointRegion regionSide(mesh, candidates);
// Point duplication engine
duplicatePoints pointDuplicator(mesh);
// Mesh change engine
polyTopoChange meshMod(mesh);
// Insert topo changes
pointDuplicator.setRefinement(regionSide, meshMod);
if (!overwrite)
{
runTime++;
}
// Change the mesh. No inflation.
autoPtr<mapPolyMesh> map = meshMod.changeMesh(mesh, false);
// Update fields
mesh.updateMesh(map);
// Move mesh (since morphing does not do this)
if (map().hasMotionPoints())
{
mesh.movePoints(map().preMotionPoints());
}
if (overwrite)
{
mesh.setInstance(oldInstance);
}
Info<< "Writing mesh to time " << runTime.timeName() << endl;
mesh.write();
topoSet::removeFiles(mesh);
processorMeshes::removeFiles(mesh);
// Dump duplicated points (if any)
const labelList& pointMap = map().pointMap();
labelList nDupPerPoint(map().nOldPoints(), 0);
pointSet dupPoints(mesh, "duplicatedPoints", 100);
forAll(pointMap, pointi)
{
label oldPointi = pointMap[pointi];
nDupPerPoint[oldPointi]++;
if (nDupPerPoint[oldPointi] > 1)
{
dupPoints.insert(map().reversePointMap()[oldPointi]);
dupPoints.insert(pointi);
}
}
Info<< "Writing " << returnReduce(dupPoints.size(), sumOp<label>())
<< " duplicated points to pointSet "
<< dupPoints.objectPath() << nl << endl;
dupPoints.write();
}
Info<< "End\n" << endl;
return 0;
}
// ************************************************************************* //
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