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59 w = neighbFaceCentresCn
79 procPolyPatch_.neighbFaceCentres()
80 - procPolyPatch_.neighbFaceCellCentres()
91 procPolyPatch_.neighbFaceCentres()
92 - procPolyPatch_.neighbFaceCellCentres()
109 return patchInternalField(internalData);
119 send(commsType, patchInternalField(iF)());
129 return receive<label>(commsType, this->size());
addToRunTimeSelectionTable(decompositionMethod, kahipDecomp, dictionary)
A class for managing temporary objects.
virtual tmp< vectorField > delta() const =0
Return delta (P to N) vectors across coupled patch.
static bool & parRun()
Is this a parallel run?
dimensionSet transform(const dimensionSet &ds)
Return the argument; transformations do not change the dimensions.
const vectorField & neighbFaceAreas() const
Return processor-neighbour patch face areas.
virtual tmp< labelField > internalFieldTransfer(const Pstream::commsTypes commsType, const labelUList &internalData) const
Return neighbour field.
tmp< vectorField > nf() const
Return face normals.
virtual void initInternalFieldTransfer(const Pstream::commsTypes commsType, const labelUList &internalData) const
Initialise neighbour field transfer.
const vectorField & neighbFaceCellCentres() const
Return processor-neighbour patch neighbour cell centres.
void makeWeights(scalarField &) const
Make patch weighting factors.
virtual tmp< vectorField > delta() const
Return delta (P to N) vectors across coupled patch.
Macros for easy insertion into run-time selection tables.
const vectorField & neighbFaceCentres() const
Return processor-neighbour patch face centres.
commsTypes
Types of communications.
dimensioned< typename typeOfMag< Type >::type > mag(const dimensioned< Type > &dt)
virtual tmp< labelField > interfaceInternalField(const labelUList &internalData) const
Return the values of the given internal data adjacent to.
defineTypeNameAndDebug(combustionModel, 0)