295 lines
8.1 KiB
C
295 lines
8.1 KiB
C
#include "checkGeometry.H"
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#include "polyMesh.H"
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#include "globalMeshData.H"
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#include "cellSet.H"
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#include "faceSet.H"
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#include "pointSet.H"
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#include "EdgeMap.H"
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Foam::label Foam::checkGeometry(const polyMesh& mesh, const bool allGeometry)
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{
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label noFailedChecks = 0;
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Info<< "\nChecking geometry..." << endl;
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// Check directions
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{
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Vector<label> dirs = mesh.directions();
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label nValidDirs = 0;
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for (direction cmpt = 0; cmpt < Vector<label>::nComponents; cmpt++)
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{
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if (dirs[cmpt] > 0)
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{
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nValidDirs++;
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}
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}
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if (nValidDirs == 0)
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{
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Info<< " This mesh has no valid solving directions. dirs = "
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<< dirs << ". Please check mesh definition for empty patches."
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<< endl;
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noFailedChecks++;
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}
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Info << " This is a " << nValidDirs << "-D mesh" << endl;
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}
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// Get a small relative length from the bounding box
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const boundBox& globalBb = mesh.bounds();
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Info<< " Overall domain bounding box "
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<< globalBb.min() << " " << globalBb.max() << endl;
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// Min length
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scalar minDistSqr = magSqr(1e-6 * globalBb.span());
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// Non-empty directions
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const Vector<label> validDirs = (mesh.geometricD() + Vector<label>::one)/2;
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Info<< " Mesh (non-empty, non-wedge) directions " << validDirs << endl;
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const Vector<label> solDirs = (mesh.solutionD() + Vector<label>::one)/2;
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Info<< " Mesh (non-empty) directions " << solDirs << endl;
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scalar nGeomDims = mesh.nGeometricD();
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Info<< " Mesh (non-empty, non-wedge) dimensions "
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<< nGeomDims << endl;
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if (nGeomDims < 3)
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{
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pointSet nonAlignedPoints(mesh, "nonAlignedEdges", mesh.nPoints()/100);
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if (mesh.checkEdgeAlignment(true, validDirs, &nonAlignedPoints))
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{
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noFailedChecks++;
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label nNonAligned = returnReduce
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(
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nonAlignedPoints.size(),
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sumOp<label>()
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);
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if (nNonAligned > 0)
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{
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Info<< " Writing " << nNonAligned
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<< " points on non-aligned edges to set "
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<< nonAlignedPoints.name() << endl;
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nonAlignedPoints.write();
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}
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}
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}
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if (mesh.checkClosedBoundary(true)) noFailedChecks++;
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{
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cellSet cells(mesh, "nonClosedCells", mesh.nCells()/100 + 1);
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cellSet aspectCells(mesh, "highAspectRatioCells", mesh.nCells()/100 + 1);
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if (mesh.checkClosedCells(true, &cells, &aspectCells))
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{
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noFailedChecks++;
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label nNonClosed = returnReduce(cells.size(), sumOp<label>());
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if (nNonClosed > 0)
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{
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Info<< " Writing " << nNonClosed
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<< " non closed cells to set " << cells.name() << endl;
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cells.write();
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}
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}
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label nHighAspect = returnReduce(aspectCells.size(), sumOp<label>());
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if (nHighAspect > 0)
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{
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Info<< " Writing " << nHighAspect
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<< " cells with high aspect ratio to set "
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<< aspectCells.name() << endl;
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aspectCells.write();
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}
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}
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{
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faceSet faces(mesh, "zeroAreaFaces", mesh.nFaces()/100 + 1);
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if (mesh.checkFaceAreas(true, &faces))
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{
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noFailedChecks++;
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label nFaces = returnReduce(faces.size(), sumOp<label>());
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if (nFaces > 0)
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{
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Info<< " Writing " << nFaces
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<< " zero area faces to set " << faces.name() << endl;
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faces.write();
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}
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}
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}
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{
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cellSet cells(mesh, "zeroVolumeCells", mesh.nCells()/100 + 1);
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if (mesh.checkCellVolumes(true, &cells))
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{
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noFailedChecks++;
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label nCells = returnReduce(cells.size(), sumOp<label>());
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if (nCells > 0)
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{
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Info<< " Writing " << nCells
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<< " zero volume cells to set " << cells.name() << endl;
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cells.write();
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}
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}
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}
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{
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faceSet faces(mesh, "nonOrthoFaces", mesh.nFaces()/100 + 1);
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if (mesh.checkFaceOrthogonality(true, &faces))
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{
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noFailedChecks++;
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}
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label nFaces = returnReduce(faces.size(), sumOp<label>());
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if (nFaces > 0)
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{
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Info<< " Writing " << nFaces
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<< " non-orthogonal faces to set " << faces.name() << endl;
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faces.write();
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}
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}
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{
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faceSet faces(mesh, "wrongOrientedFaces", mesh.nFaces()/100 + 1);
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if (mesh.checkFacePyramids(true, -SMALL, &faces))
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{
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noFailedChecks++;
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label nFaces = returnReduce(faces.size(), sumOp<label>());
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if (nFaces > 0)
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{
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Info<< " Writing " << nFaces
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<< " faces with incorrect orientation to set "
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<< faces.name() << endl;
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faces.write();
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}
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}
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}
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{
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faceSet faces(mesh, "skewFaces", mesh.nFaces()/100 + 1);
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if (mesh.checkFaceSkewness(true, &faces))
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{
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noFailedChecks++;
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label nFaces = returnReduce(faces.size(), sumOp<label>());
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if (nFaces > 0)
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{
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Info<< " Writing " << nFaces
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<< " skew faces to set " << faces.name() << endl;
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faces.write();
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}
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}
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}
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if (allGeometry)
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{
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// Note use of nPoints since don't want edge construction.
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pointSet points(mesh, "shortEdges", mesh.nPoints()/1000 + 1);
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if (mesh.checkEdgeLength(true, minDistSqr, &points))
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{
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//noFailedChecks++;
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label nPoints = returnReduce(points.size(), sumOp<label>());
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if (nPoints > 0)
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{
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Info<< " Writing " << nPoints
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<< " points on short edges to set " << points.name()
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<< endl;
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points.write();
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}
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}
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label nEdgeClose = returnReduce(points.size(), sumOp<label>());
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if (mesh.checkPointNearness(false, minDistSqr, &points))
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{
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//noFailedChecks++;
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label nPoints = returnReduce(points.size(), sumOp<label>());
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if (nPoints > nEdgeClose)
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{
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pointSet nearPoints(mesh, "nearPoints", points);
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Info<< " Writing " << nPoints
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<< " near (closer than " << Foam::sqrt(minDistSqr)
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<< " apart) points to set " << nearPoints.name() << endl;
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nearPoints.write();
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}
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}
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}
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if (allGeometry)
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{
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faceSet faces(mesh, "concaveFaces", mesh.nFaces()/100 + 1);
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if (mesh.checkFaceAngles(true, 10, &faces))
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{
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//noFailedChecks++;
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label nFaces = returnReduce(faces.size(), sumOp<label>());
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if (nFaces > 0)
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{
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Info<< " Writing " << nFaces
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<< " faces with concave angles to set " << faces.name()
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<< endl;
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faces.write();
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}
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}
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}
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if (allGeometry)
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{
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faceSet faces(mesh, "warpedFaces", mesh.nFaces()/100 + 1);
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if (mesh.checkFaceFlatness(true, 0.8, &faces))
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{
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//noFailedChecks++;
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label nFaces = returnReduce(faces.size(), sumOp<label>());
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if (nFaces > 0)
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{
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Info<< " Writing " << nFaces
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<< " warped faces to set " << faces.name() << endl;
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faces.write();
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}
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}
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}
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if (allGeometry)
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{
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cellSet cells(mesh, "underdeterminedCells", mesh.nCells()/100);
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if (mesh.checkCellDeterminant(true, &cells))
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{
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noFailedChecks++;
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label nCells = returnReduce(cells.size(), sumOp<label>());
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Info<< " Writing " << nCells
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<< " under-determined cells to set " << cells.name() << endl;
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cells.write();
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}
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}
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return noFailedChecks;
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}
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