C++ (Cpp) neighbFvPatch示例

示例#1

文件： regionCoupledFvPatch.C 项目： Benjamin-git/RapidCFD-dev

Foam::tmp<Foam::labelgpuField> Foam::regionCoupledFvPatch::internalFieldTransfer
(
    const Pstream::commsTypes commsType,
    const labelgpuList& iF
) const
{
    if (neighbFvPatch().sameRegion())
    {
        return neighbFvPatch().patchInternalField(iF);
    }
    else
    {
        /*
        WarningIn
        (
            "regionCoupledFvPatch::internalFieldTransfer"
            "( const Pstream::commsTypes, const labelUList&)"
            " the internal field can not be transfered "
            " as the neighbFvPatch are in different meshes "
        );
        */
        return tmp<labelgpuField>(new labelgpuField(iF.size(), 0));

    }
}

示例#2

文件： cyclicAMIFvPatch.C 项目： BijanZarif/OpenFOAM-2.4.0-MNF

void Foam::cyclicAMIFvPatch::makeWeights(scalarField& w) const
{
    if (coupled())
    {
        const cyclicAMIFvPatch& nbrPatch = neighbFvPatch();

        const scalarField deltas(nf() & coupledFvPatch::delta());

        tmp<scalarField> tnbrDeltas;
        if (applyLowWeightCorrection())
        {
            tnbrDeltas =
                interpolate
                (
                    nbrPatch.nf() & nbrPatch.coupledFvPatch::delta(),
                    scalarField(this->size(), 1.0)
                );
        }
        else
        {
            tnbrDeltas =
                interpolate(nbrPatch.nf() & nbrPatch.coupledFvPatch::delta());
        }

        const scalarField& nbrDeltas = tnbrDeltas();

        forAll(deltas, faceI)
        {
            scalar di = deltas[faceI];
            scalar dni = nbrDeltas[faceI];

            w[faceI] = dni/(di + dni);
        }
    }

示例#3

文件： cyclicACMIFvPatch.C 项目： Kiiree/RapidCFD-dev

void Foam::cyclicACMIFvPatch::makeWeights(scalargpuField& w) const
{
    if (coupled())
    {
        const cyclicACMIFvPatch& nbrPatch = neighbFvPatch();
        const fvPatch& nbrPatchNonOverlap = nonOverlapPatch();

        const scalargpuField deltas(nf() & coupledFvPatch::delta());

        const scalargpuField nbrDeltas
        (
            interpolate
            (
                nbrPatch.nf() & nbrPatch.coupledFvPatch::delta(),
                nbrPatchNonOverlap.nf() & nbrPatchNonOverlap.delta()
            )
        );

        thrust::transform
        (
            deltas.begin(),
            deltas.end(),
            nbrDeltas.begin(),
            w.begin(),
            cyclicACMIFvPatchMakeWeightsFunctor()
        );
    }
    else
    {
        // Behave as uncoupled patch
        fvPatch::makeWeights(w);
    }
}

示例#4

文件： regionCoupledWallFvPatch.C 项目： Benjamin-git/RapidCFD-dev

Foam::tmp<Foam::labelgpuField> Foam::regionCoupledWallFvPatch::
internalFieldTransfer
(
    const Pstream::commsTypes commsType,
    const labelgpuList& iF
) const
{
    if (neighbFvPatch().sameRegion())
    {
        return neighbFvPatch().patchInternalField(iF);
    }
    else
    {
        return tmp<labelgpuField>(new labelgpuField(iF.size(), 0));
    }
}

示例#5

文件： cyclicACMIFvPatch.C 项目： Kiiree/RapidCFD-dev

Foam::tmp<Foam::labelField> Foam::cyclicACMIFvPatch::internalFieldTransfer
(
    const Pstream::commsTypes commsType,
    const labelUList& iF
) const
{
    return neighbFvPatch().patchInternalField(iF);
}

示例#6

文件： cyclicFvPatch.C 项目： Mat-moran/OpenFOAM-2.0.x

// Make patch weighting factors
void Foam::cyclicFvPatch::makeWeights(scalarField& w) const
{
    const cyclicFvPatch& nbrPatch = neighbFvPatch();

    const scalarField deltas(nf() & fvPatch::delta());
    const scalarField nbrDeltas(nbrPatch.nf() & nbrPatch.fvPatch::delta());

    forAll(deltas, facei)
    {
        scalar di = deltas[facei];
        scalar dni = nbrDeltas[facei];

        w[facei] = dni/(di + dni);
    }

示例#7

文件： cyclicACMIFvPatch.C 项目： OpenFOAM/OpenFOAM-dev

void Foam::cyclicACMIFvPatch::updateAreas() const
{
    if (cyclicACMIPatch().updated())
    {
        if (debug)
        {
            Pout<< "cyclicACMIFvPatch::updateAreas() : updating fv areas for "
                << name() << " and " << nonOverlapFvPatch().name()
                << endl;
        }

        // owner couple
        const_cast<vectorField&>(Sf()) = patch().faceAreas();
        const_cast<scalarField&>(magSf()) = mag(patch().faceAreas());

        // owner non-overlapping
        const fvPatch& nonOverlapPatch = nonOverlapFvPatch();
        const_cast<vectorField&>(nonOverlapPatch.Sf()) =
            nonOverlapPatch.patch().faceAreas();
        const_cast<scalarField&>(nonOverlapPatch.magSf()) =
            mag(nonOverlapPatch.patch().faceAreas());

        // neighbour couple
        const cyclicACMIFvPatch& nbrACMI = neighbFvPatch();
        const_cast<vectorField&>(nbrACMI.Sf()) =
            nbrACMI.patch().faceAreas();
        const_cast<scalarField&>(nbrACMI.magSf()) =
            mag(nbrACMI.patch().faceAreas());

        // neighbour non-overlapping
        const fvPatch& nbrNonOverlapPatch = nbrACMI.nonOverlapFvPatch();
        const_cast<vectorField&>(nbrNonOverlapPatch.Sf()) =
            nbrNonOverlapPatch.patch().faceAreas();
        const_cast<scalarField&>(nbrNonOverlapPatch.magSf()) =
            mag(nbrNonOverlapPatch.patch().faceAreas());

        // set the updated flag
        cyclicACMIPatch().setUpdated(false);
    }
}

示例#8

文件： cyclicACMIFvPatch.C 项目： EricAlex/OpenFOAM-dev

void Foam::cyclicACMIFvPatch::makeWeights(scalarField& w) const
{
    if (coupled())
    {
        const cyclicACMIFvPatch& nbrPatch = neighbFvPatch();
        const scalarField deltas(nf() & coupledFvPatch::delta());

        // These deltas are of the cyclic part alone - they are
        // not affected by the amount of overlap with the nonOverlapPatch
        scalarField nbrDeltas
        (
            interpolate
            (
                nbrPatch.nf() & nbrPatch.coupledFvPatch::delta()
            )
        );

        scalar tol = cyclicACMIPolyPatch::tolerance();


        forAll(deltas, facei)
        {
            scalar di = deltas[facei];
            scalar dni = nbrDeltas[facei];

            if (dni < tol)
            {
                // Avoid zero weights on disconnected faces. This value
                // will be weighted with the (zero) face area so will not
                // influence calculations.
                w[facei] = 1.0;
            }
            else
            {
                w[facei] = dni/(di + dni);
            }
        }
    }

示例#9

文件： cyclicAMIFvPatch.C 项目： BijanZarif/OpenFOAM-2.4.0-MNF

bool Foam::cyclicAMIFvPatch::coupled() const
{
    return Pstream::parRun() || (this->size() && neighbFvPatch().size());
}

示例#10

文件： cyclicACMIFvPatch.C 项目： Kiiree/RapidCFD-dev

Foam::tmp<Foam::vectorgpuField> Foam::cyclicACMIFvPatch::delta() const
{
    if (coupled())
    {
        const cyclicACMIFvPatch& nbrPatchCoupled = neighbFvPatch();
        const fvPatch& nbrPatchNonOverlap = nonOverlapPatch();

        const vectorgpuField patchD(coupledFvPatch::delta());

        vectorgpuField nbrPatchD
        (
            interpolate
            (
                nbrPatchCoupled.coupledFvPatch::delta(),
                nbrPatchNonOverlap.delta()
            )
        );

        const vectorgpuField nbrPatchD0
        (
            interpolate
            (
                vectorgpuField(nbrPatchCoupled.size(), vector::zero),
                nbrPatchNonOverlap.delta()()
            )
        );

        nbrPatchD -= nbrPatchD0;

        tmp<vectorgpuField> tpdv(new vectorgpuField(patchD.size()));
        vectorgpuField& pdv = tpdv();

        // do the transformation if necessary
        if (parallel())
        {
            thrust::transform
            (
                patchD.begin(),
                patchD.end(),
                nbrPatchD.begin(),
                pdv.begin(),
                subtractOperatorFunctor<vector,vector,vector>()
            );
        }
        else
        {
            tensor t = forwardT()[0];
			
            thrust::transform
            (
                patchD.begin(),
                patchD.end(),
                thrust::make_transform_iterator
                (
                    nbrPatchD.begin(),
                    transformBinaryFunctionSFFunctor<tensor,vector,vector>(t)
                ),
                pdv.begin(),
                subtractOperatorFunctor<vector,vector,vector>()
            );
        }

        return tpdv;
    }
    else
    {
        return coupledFvPatch::delta();
    }
}