Example #1
0
// Step across point to other edge on face
Foam::label Foam::regionSide::otherEdge
(
    const primitiveMesh& mesh,
    const label faceI,
    const label edgeI,
    const label pointI
)
{
    const edge& e = mesh.edges()[edgeI];

    // Get other point on edge.
    label freePointI = e.otherVertex(pointI);

    const labelList& fEdges = mesh.faceEdges()[faceI];

    forAll(fEdges, fEdgeI)
    {
        const label otherEdgeI = fEdges[fEdgeI];
        const edge& otherE = mesh.edges()[otherEdgeI];

        if
        (
            (
                otherE.start() == pointI
             && otherE.end() != freePointI
            )
         || (
                otherE.end() == pointI
             && otherE.start() != freePointI
            )
        )
        {
            // otherE shares one (but not two) points with e.
            return otherEdgeI;
        }
    }

    FatalErrorIn
    (
        "regionSide::otherEdge(const primitiveMesh&, const label, const label"
        ", const label)"
    )   << "Cannot find other edge on face " << faceI << " that uses point "
        << pointI << " but not point " << freePointI << endl
        << "Edges on face:" << fEdges
        << " verts:" << UIndirectList<edge>(mesh.edges(), fEdges)()
        << " Vertices on face:"
        << mesh.faces()[faceI]
        << " Vertices on original edge:" << e << abort(FatalError);

    return -1;
}
Example #2
0
// Step across point to other edge on face
Foam::label Foam::regionSide::otherEdge
(
    const primitiveMesh& mesh,
    const label faceI,
    const label edgeI,
    const label pointI
)
{
    const edge& e = mesh.edges()[edgeI];

    // Get other point on edge.
    label freePointI = e.otherVertex(pointI);

    const labelList& fEdges = mesh.faceEdges()[faceI];

    forAll(fEdges, fEdgeI)
    {
        label otherEdgeI = fEdges[fEdgeI];

        const edge& otherE = mesh.edges()[otherEdgeI];

        if
        (
            (
                otherE.start() == pointI
             && otherE.end() != freePointI
            )
         || (
                otherE.end() == pointI
             && otherE.start() != freePointI
            )
        )
        {
            // otherE shares one (but not two) points with e.
            return otherEdgeI;
        }
    }
Example #3
0
// Step from faceI (on side cellI) to connected face & cell without crossing
// fenceEdges.
void Foam::regionSide::visitConnectedFaces
(
    const primitiveMesh& mesh,
    const labelHashSet& region,
    const labelHashSet& fenceEdges,
    const label cellI,
    const label faceI,
    labelHashSet& visitedFace
)
{
    if (!visitedFace.found(faceI))
    {
        if (debug)
        {
            Info<< "visitConnectedFaces : cellI:" << cellI << " faceI:"
                << faceI << "  isOwner:" << (cellI == mesh.faceOwner()[faceI])
                << endl;
        }

        // Mark as visited
        visitedFace.insert(faceI);

        // Mark which side of face was visited.
        if (cellI == mesh.faceOwner()[faceI])
        {
            sideOwner_.insert(faceI);
        }


        // Visit all neighbouring faces on faceSet. Stay on this 'side' of
        // face by doing edge-face-cell walk.
        const labelList& fEdges = mesh.faceEdges()[faceI];

        forAll(fEdges, fEdgeI)
        {
            label edgeI = fEdges[fEdgeI];

            if (!fenceEdges.found(edgeI))
            {
                // Step along faces on edge from cell to cell until
                // we hit face on faceSet.

                // Find face reachable from edge
                label otherFaceI = otherFace(mesh, cellI, faceI, edgeI);

                if (mesh.isInternalFace(otherFaceI))
                {
                    label otherCellI = cellI;

                    // Keep on crossing faces/cells until back on face on
                    // surface
                    while (!region.found(otherFaceI))
                    {
                        visitedFace.insert(otherFaceI);

                        if (debug)
                        {
                            Info<< "visitConnectedFaces : cellI:" << cellI
                                << " found insideEdgeFace:" << otherFaceI
                                << endl;
                        }


                        // Cross otherFaceI into neighbouring cell
                        otherCellI =
                            meshTools::otherCell
                            (
                                mesh,
                                otherCellI,
                                otherFaceI
                            );

                        otherFaceI =
                                otherFace
                                (
                                    mesh,
                                    otherCellI,
                                    otherFaceI,
                                    edgeI
                                );
                    }

                    visitConnectedFaces
                    (
                        mesh,
                        region,
                        fenceEdges,
                        otherCellI,
                        otherFaceI,
                        visitedFace
                    );
                }
            }
        }
    }
Example #4
0
// Coming from startEdgeI cross the edge to the other face
// across to the next cut edge.
bool Foam::cuttingPlane::walkCell
(
    const primitiveMesh& mesh,
    const UList<label>& edgePoint,
    const label cellI,
    const label startEdgeI,
    DynamicList<label>& faceVerts
)
{
    label faceI = -1;
    label edgeI = startEdgeI;

    label nIter = 0;

    faceVerts.clear();
    do
    {
        faceVerts.append(edgePoint[edgeI]);

        // Cross edge to other face
        faceI = meshTools::otherFace(mesh, cellI, faceI, edgeI);

        // Find next cut edge on face.
        const labelList& fEdges = mesh.faceEdges()[faceI];

        label nextEdgeI = -1;

        //Note: here is where we should check for whether there are more
        // than 2 intersections with the face (warped/non-convex face).
        // If so should e.g. decompose the cells on both faces and redo
        // the calculation.

        forAll(fEdges, i)
        {
            label edge2I = fEdges[i];

            if (edge2I != edgeI && edgePoint[edge2I] != -1)
            {
                nextEdgeI = edge2I;
                break;
            }
        }

        if (nextEdgeI == -1)
        {
            // Did not find another cut edge on faceI. Do what?
            WarningIn("Foam::cuttingPlane::walkCell")
                << "Did not find closed walk along surface of cell " << cellI
                << " starting from edge " << startEdgeI
                << " in " << nIter << " iterations." << nl
                << "Collected cutPoints so far:" << faceVerts
                << endl;

            return false;
        }

        edgeI = nextEdgeI;

        nIter++;

        if (nIter > 1000)
        {
            WarningIn("Foam::cuttingPlane::walkCell")
                << "Did not find closed walk along surface of cell " << cellI
                << " starting from edge " << startEdgeI
                << " in " << nIter << " iterations." << nl
                << "Collected cutPoints so far:" << faceVerts
                << endl;
            return false;
        }

    } while (edgeI != startEdgeI);