388 lines
10 KiB
C
388 lines
10 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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Description
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A surface analysis tool which sub-sets the triSurface
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to choose only a part of interest. Based on subsetMesh.
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\*---------------------------------------------------------------------------*/
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#include "triSurface.H"
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#include "argList.H"
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#include "OFstream.H"
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#include "IFstream.H"
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#include "Switch.H"
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#include "IOdictionary.H"
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#include "boundBox.H"
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#include "indexedOctree.H"
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#include "octree.H"
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#include "treeDataTriSurface.H"
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#include "Random.H"
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using namespace Foam;
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// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
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// Main program:
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int main(int argc, char *argv[])
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{
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argList::noParallel();
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argList::validArgs.clear();
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argList::validArgs.append("surfaceSubsetDict");
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argList::validArgs.append("surface file");
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argList::validArgs.append("output file");
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argList args(argc, argv);
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Info<< "Reading dictionary " << args.additionalArgs()[0] << " ..." << endl;
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IFstream dictFile(args.additionalArgs()[0]);
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dictionary meshSubsetDict(dictFile);
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Info<< "Reading surface " << args.additionalArgs()[1] << " ..." << endl;
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triSurface surf1(args.additionalArgs()[1]);
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Info<< "Original:" << endl;
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surf1.writeStats(Info);
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Info<< endl;
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labelList markedPoints
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(
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meshSubsetDict.lookup("localPoints")
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);
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labelList markedEdges
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(
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meshSubsetDict.lookup("edges")
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);
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labelList markedFaces
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(
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meshSubsetDict.lookup("faces")
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);
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pointField markedZone
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(
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meshSubsetDict.lookup("zone")
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);
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if (markedZone.size() && markedZone.size() != 2)
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{
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FatalErrorIn(args.executable())
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<< "zone specification should be two points, min and max of "
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<< "the boundingbox" << endl
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<< "zone:" << markedZone
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<< exit(FatalError);
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}
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Switch addFaceNeighbours
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(
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meshSubsetDict.lookup("addFaceNeighbours")
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);
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Switch invertSelection
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(
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meshSubsetDict.lookup("invertSelection")
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);
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// Mark the cells for the subset
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// Faces to subset
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boolList facesToSubset(surf1.size(), false);
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//
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// pick up faces connected to "localPoints"
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//
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if (markedPoints.size())
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{
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Info << "Found " << markedPoints.size() << " marked point(s)." << endl;
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// pick up cells sharing the point
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forAll (markedPoints, pointI)
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{
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if
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(
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markedPoints[pointI] < 0
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|| markedPoints[pointI] >= surf1.nPoints()
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)
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{
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FatalErrorIn(args.executable())
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<< "localPoint label " << markedPoints[pointI]
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<< "out of range."
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<< " The mesh has got "
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<< surf1.nPoints() << " localPoints."
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<< exit(FatalError);
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}
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const labelList& curFaces =
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surf1.pointFaces()[markedPoints[pointI]];
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forAll (curFaces, i)
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{
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facesToSubset[curFaces[i]] = true;
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}
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}
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}
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//
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// pick up faces connected to "edges"
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//
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if (markedEdges.size())
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{
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Info << "Found " << markedEdges.size() << " marked edge(s)." << endl;
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// pick up cells sharing the edge
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forAll (markedEdges, edgeI)
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{
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if
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(
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markedEdges[edgeI] < 0
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|| markedEdges[edgeI] >= surf1.nEdges()
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)
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{
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FatalErrorIn(args.executable())
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<< "edge label " << markedEdges[edgeI]
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<< "out of range."
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<< " The mesh has got "
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<< surf1.nEdges() << " edges."
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<< exit(FatalError);
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}
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const labelList& curFaces = surf1.edgeFaces()[markedEdges[edgeI]];
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forAll (curFaces, i)
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{
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facesToSubset[curFaces[i]] = true;
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}
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}
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}
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//
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// pick up faces with centre inside "zone"
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//
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if (markedZone.size() == 2)
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{
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const point& min = markedZone[0];
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const point& max = markedZone[1];
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Info << "Using zone min:" << min << " max:" << max << endl;
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forAll(surf1, faceI)
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{
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const labelledTri& f = surf1[faceI];
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const point centre = f.centre(surf1.points());
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if
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(
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(centre.x() >= min.x())
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&& (centre.y() >= min.y())
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&& (centre.z() >= min.z())
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&& (centre.x() <= max.x())
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&& (centre.y() <= max.y())
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&& (centre.z() <= max.z())
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)
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{
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facesToSubset[faceI] = true;
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}
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}
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}
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//
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// pick up faces on certain side of surface
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//
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if (meshSubsetDict.found("surface"))
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{
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const dictionary& surfDict = meshSubsetDict.subDict("surface");
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fileName surfName(surfDict.lookup("name"));
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Switch outside(surfDict.lookup("outside"));
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if (outside)
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{
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Info<< "Selecting all triangles with centre outside surface "
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<< surfName << endl;
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}
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else
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{
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Info<< "Selecting all triangles with centre inside surface "
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<< surfName << endl;
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}
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// Read surface to select on
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triSurface selectSurf(surfName);
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// bb of surface
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treeBoundBox bb(selectSurf.localPoints());
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// Radnom number generator
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Random rndGen(354543);
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// search engine
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indexedOctree<treeDataTriSurface> selectTree
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(
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treeDataTriSurface(selectSurf),
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bb.extend(rndGen, 1E-4), // slightly randomize bb
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8, // maxLevel
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10, // leafsize
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3.0 // duplicity
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);
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// Check if face (centre) is in outside or inside.
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forAll(facesToSubset, faceI)
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{
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if (!facesToSubset[faceI])
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{
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const point fc(surf1[faceI].centre(surf1.points()));
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indexedOctree<treeDataTriSurface>::volumeType t =
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selectTree.getVolumeType(fc);
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if (t == indexedOctree<treeDataTriSurface>::INSIDE && !outside)
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{
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facesToSubset[faceI] = true;
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}
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else if
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(
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t == indexedOctree<treeDataTriSurface>::OUTSIDE
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&& outside
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)
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{
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facesToSubset[faceI] = true;
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}
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}
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}
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}
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//
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// pick up specified "faces"
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//
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// Number of additional faces picked up because of addFaceNeighbours
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label nFaceNeighbours = 0;
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if (markedFaces.size())
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{
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Info << "Found " << markedFaces.size() << " marked face(s)." << endl;
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// Check and mark faces to pick up
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forAll (markedFaces, faceI)
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{
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if
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(
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markedFaces[faceI] < 0
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|| markedFaces[faceI] >= surf1.size()
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)
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{
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FatalErrorIn(args.executable())
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<< "Face label " << markedFaces[faceI] << "out of range."
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<< " The mesh has got "
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<< surf1.size() << " faces."
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<< exit(FatalError);
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}
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// Mark the face
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facesToSubset[markedFaces[faceI]] = true;
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// mark its neighbours if requested
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if (addFaceNeighbours)
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{
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const labelList& curFaces =
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surf1.faceFaces()[markedFaces[faceI]];
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forAll (curFaces, i)
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{
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label faceI = curFaces[i];
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if (!facesToSubset[faceI])
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{
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facesToSubset[faceI] = true;
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nFaceNeighbours++;
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}
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}
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}
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}
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}
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if (addFaceNeighbours)
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{
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Info<< "Added " << nFaceNeighbours
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<< " faces because of addFaceNeighbours" << endl;
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}
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if (invertSelection)
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{
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Info<< "Inverting selection." << endl;
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boolList newFacesToSubset(facesToSubset.size());
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forAll(facesToSubset, i)
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{
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if (facesToSubset[i])
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{
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newFacesToSubset[i] = false;
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}
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else
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{
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newFacesToSubset[i] = true;
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}
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}
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facesToSubset.transfer(newFacesToSubset);
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}
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// Create subsetted surface
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labelList pointMap;
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labelList faceMap;
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triSurface surf2
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(
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surf1.subsetMesh(facesToSubset, pointMap, faceMap)
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);
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Info<< "Subset:" << endl;
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surf2.writeStats(Info);
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Info << endl;
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fileName outFileName(args.additionalArgs()[2]);
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Info << "Writing surface to " << outFileName << endl;
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surf2.write(outFileName);
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return 0;
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}
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// ************************************************************************* //
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