Foam::tmp<Foam::Field<Type>> Foam::levelSetAverage
(
const fvPatch& patch,
const scalarField& levelF,
const scalarField& levelP,
const Field<Type>& positiveF,
const Field<Type>& positiveP,
const Field<Type>& negativeF,
const Field<Type>& negativeP
)
{
typedef typename outerProduct<Type, vector>::type sumType;
tmp<Field<Type>> tResult(new Field<Type>(patch.size(), Zero));
Field<Type>& result = tResult.ref();
forAll(result, fI)
{
const face& f = patch.patch().localFaces()[fI];
vector a = vector::zero;
sumType r = Zero;
for(label eI = 0; eI < f.size(); ++ eI)
{
const edge e = f.faceEdge(eI);
const FixedList<point, 3>
tri =
{
patch.patch().faceCentres()[fI],
patch.patch().localPoints()[e[0]],
patch.patch().localPoints()[e[1]]
};
const FixedList<scalar, 3>
level =
{
levelF[fI],
levelP[e[0]],
levelP[e[1]]
};
const cut::areaIntegrateOp<Type>
positive = FixedList<Type, 3>
({
positiveF[fI],
positiveP[e[0]],
positiveP[e[1]]
});
const cut::areaIntegrateOp<Type>
negative = FixedList<Type, 3>
({
negativeF[fI],
negativeP[e[0]],
negativeP[e[1]]
});
a += cut::areaOp()(tri);
r += triCut(tri, level, positive, negative);
}
result[fI] = a/magSqr(a) & r;
}
return tResult;
}
Foam::Tuple2<Foam::scalar, Foam::point>
Foam::sweptFaceAreaWeightAMI<SourcePatch, TargetPatch>::interArea
(
const label srcFacei,
const label tgtFacei
) const
{
const label debugTgtFace =
(- 1 - debug) % this->tgtPatch_.size() == tgtFacei
? (- 1 - debug) / this->tgtPatch_.size() + 1 : 0;
const bool debugPrint = debug > 0 || debugTgtFace > 0;
const bool debugWrite = debug > 1 || debugTgtFace > 1;
if (debugPrint)
{
Info<< "Inter area between source face #" << srcFacei
<< " and target face #" << tgtFacei << (debugWrite ? "\n" : ": ");
}
// Patch data
const pointField& srcPoints = this->srcPatch_.localPoints();
const pointField& tgtPoints = this->tgtPatch_.localPoints();
const vectorField& srcPointNormals = this->srcPatch_.pointNormals();
// Faces
const face& srcFace = this->srcPatch_.localFaces()[srcFacei];
const face& tgtFace = this->tgtPatch_.localFaces()[tgtFacei];
// Write out the faces
if (debugWrite)
{
writeFaceOBJ(srcFace, srcPoints, "source");
writeFaceOBJ(tgtFace, tgtPoints, "target");
}
if (debugTgtFace)
{
writeFaceOBJ(tgtFace, tgtPoints, "target" + name(tgtFacei));
}
// Triangulate the faces
const faceAreaIntersect::triangulationMode triMode = this->triMode_;
faceList srcFaceTris, tgtFaceTris;
faceAreaIntersect::triangulate(srcFace, srcPoints, triMode, srcFaceTris);
faceAreaIntersect::triangulate(tgtFace, tgtPoints, triMode, tgtFaceTris);
// Area sum
scalar areaMag = Zero;
// Loop the target triangles
forAllConstIter(faceList, tgtFaceTris, tgtIter)
{
const FixedList<point, 3>
tgtTri =
{
tgtPoints[(*tgtIter)[0]],
tgtPoints[(*tgtIter)[this->reverseTarget_ ? 2 : 1]],
tgtPoints[(*tgtIter)[this->reverseTarget_ ? 1 : 2]]
};
// Loop the source triangles
forAllConstIter(faceList, srcFaceTris, srcIter)
{
FixedList<point, 4>
srcTri =
{
srcPoints[(*srcIter)[0]],
srcPoints[(*srcIter)[1]],
srcPoints[(*srcIter)[2]],
vector::zero
};
FixedList<point, 4>
srcNrm =
{
srcPointNormals[(*srcIter)[0]],
srcPointNormals[(*srcIter)[1]],
srcPointNormals[(*srcIter)[2]],
vector::zero
};
// Get the source projection modified for any reverse intersections
const label srcN = getSourceProjection(srcTri, srcNrm, tgtTri);
if (srcN <= 0)
{
continue;
}
// Write the source projection
if (debugWrite)
{
writeProjectionOBJ(srcN, srcTri, srcNrm);
}
// Create the initial cut triangle list
cutTriList<8> cutTris;
cutTris.append(tgtTri);
// Write the initial triangle
if (debugWrite)
{
writeCutTrisVTK(cutTris, "tris0");
}
// Do all but one of the cuts
for
(
label i = 0;
i < srcN - 1 && (debugWrite || cutTris.size());
++ i
)
{
// Do the cut
const plane cutPlane =
getCutPlane
(
srcTri[i],
srcTri[i+1],
srcNrm[i],
srcNrm[i+1],
tgtTri
);
cutTriList<8> cutTrisTmp;
for (label j = 0; j < cutTris.size(); ++j)
{
triCut
(
cutTris[j],
cutPlane,
cut::noOp(),
cut::appendOp<cutTriList<8>>(cutTrisTmp)
);
}
Swap(cutTris, cutTrisTmp);
// Write the triangles resulting from the cut
if (debugWrite)
{
writeCutTrisVTK(cutTris, "tris" + name(i + 1));
}
}
// Do the last cut
const plane cutPlane =
getCutPlane
(
srcTri[srcN - 1],
srcTri[0],
srcNrm[srcN - 1],
srcNrm[0],
tgtTri
);
cutTriList<8> cutTrisTmp;
for (label i = 0; i < cutTris.size(); ++ i)
{
// Sum the area of the cut triangle
areaMag +=
mag
(
triCut
(
cutTris[i],
cutPlane,
cut::noOp(),
cut::areaOp()
)
);
// Store the cut triangle if it is needed for output
if (debugWrite || debugTgtFace)
{
triCut
(
cutTris[i],
cutPlane,
cut::noOp(),
cut::appendOp<cutTriList<8>>(cutTrisTmp)
);
}
}
Swap(cutTris, cutTrisTmp);
// Write the triangles resulting from the cuts
if (debugTgtFace && cutTris.size())
{
static label writeCutTrisVTKIndex = 0;
writeCutTrisVTK
(
cutTris,
"target" + name(tgtFacei) + "_"
+ "tris" + name(writeCutTrisVTKIndex ++)
);
}
if (debugWrite)
{
writeCutTrisVTK(cutTris, "tris" + name(srcN));
Info << "view triangles then press ENTER to continue ...";
getchar();
}
}
}
