42 #ifndef mappedWallPolyPatch_H 43 #define mappedWallPolyPatch_H 103 const word& patchType
141 const word& patchType
word samplePatch_
Patch (if in sampleMode NEARESTPATCH*)
const vector & offset() const noexcept
Offset vector (from patch faces to destination mesh objects)
word sampleRegion_
Region to sample.
A list of keyword definitions, which are a keyword followed by a number of values (eg...
label start() const noexcept
Return start label of this patch in the polyMesh face list.
const polyPatch & patch_
Patch to sample.
const polyPatch & lookupPatch(const word &sampleRegion, const word &samplePatch) const
Lookup patch.
label max(const labelHashSet &set, label maxValue=labelMin)
Find the max value in labelHashSet, optionally limited by second argument.
virtual bool masterImplicit() const
Return implicit master.
virtual void initUpdateMesh(PstreamBuffers &)
Initialise the update of the patch topology.
const mapDistribute & map() const
Return reference to the parallel distribution map.
List< labelList > labelListList
List of labelList.
TypeName("mappedWall")
Runtime type information.
virtual void calcGeometry(PstreamBuffers &)
Calculate the patch geometry.
virtual autoPtr< polyPatch > clone(const polyBoundaryMesh &bm) const
Construct and return a clone, resetting the boundary mesh.
#define forAll(list, i)
Loop across all elements in list.
virtual void newInternalProcFaces(label &iFaces, label &pFaces) const
Return number of new internal of this polyPatch faces.
virtual word neighbRegionID() const
Return neigh region ID.
const labelUList & faceCells() const
Return face-cell addressing.
A class for handling words, derived from Foam::string.
Determines a mapping between patch face centres and mesh cell or face centres and processors they're ...
Determines a mapping between patch face centres and mesh cell or face centres and processors they're ...
mappedWallPolyPatch(const word &name, const label size, const label start, const label index, const polyBoundaryMesh &bm, const word &patchType)
Construct from components.
A polyBoundaryMesh is a polyPatch list with additional search methods and registered IO...
const word & name() const noexcept
The patch name.
An Ostream is an abstract base class for all output systems (streams, files, token lists...
A Vector of values with scalar precision, where scalar is float/double depending on the compilation f...
virtual ~mappedWallPolyPatch()
Destructor.
Buffers for inter-processor communications streams (UOPstream, UIPstream).
Info<< "Finished reading KIVA file"<< endl;cellShapeList cellShapes(nPoints);labelList cellZoning(nPoints, -1);const cellModel &hex=cellModel::ref(cellModel::HEX);labelList hexLabels(8);label activeCells=0;labelList pointMap(nPoints);forAll(pointMap, i){ pointMap[i]=i;}for(label i=0;i< nPoints;i++){ if(f[i] > 0.0) { hexLabels[0]=i;hexLabels[1]=i1tab[i];hexLabels[2]=i3tab[i1tab[i]];hexLabels[3]=i3tab[i];hexLabels[4]=i8tab[i];hexLabels[5]=i1tab[i8tab[i]];hexLabels[6]=i3tab[i1tab[i8tab[i]]];hexLabels[7]=i3tab[i8tab[i]];cellShapes[activeCells].reset(hex, hexLabels);edgeList edges=cellShapes[activeCells].edges();forAll(edges, ei) { if(edges[ei].mag(points)< SMALL) { label start=pointMap[edges[ei].start()];while(start !=pointMap[start]) { start=pointMap[start];} label end=pointMap[edges[ei].end()];while(end !=pointMap[end]) { end=pointMap[end];} label minLabel=min(start, end);pointMap[start]=pointMap[end]=minLabel;} } cellZoning[activeCells]=idreg[i];activeCells++;}}cellShapes.setSize(activeCells);cellZoning.setSize(activeCells);forAll(cellShapes, celli){ cellShape &cs=cellShapes[celli];forAll(cs, i) { cs[i]=pointMap[cs[i]];} cs.collapse();}label bcIDs[11]={-1, 0, 2, 4, -1, 5, -1, 6, 7, 8, 9};const label nBCs=12;const word *kivaPatchTypes[nBCs]={ &wallPolyPatch::typeName, &wallPolyPatch::typeName, &wallPolyPatch::typeName, &wallPolyPatch::typeName, &symmetryPolyPatch::typeName, &wedgePolyPatch::typeName, &polyPatch::typeName, &polyPatch::typeName, &polyPatch::typeName, &polyPatch::typeName, &symmetryPolyPatch::typeName, &oldCyclicPolyPatch::typeName};enum patchTypeNames{ PISTON, VALVE, LINER, CYLINDERHEAD, AXIS, WEDGE, INFLOW, OUTFLOW, PRESIN, PRESOUT, SYMMETRYPLANE, CYCLIC};const char *kivaPatchNames[nBCs]={ "piston", "valve", "liner", "cylinderHead", "axis", "wedge", "inflow", "outflow", "presin", "presout", "symmetryPlane", "cyclic"};List< SLList< face > > pFaces[nBCs]
virtual void write(Ostream &) const
Write the polyPatch data as a dictionary.
sampleMode mode() const noexcept
What to sample.
bool owner() const
Is it owner.
sampleMode
Mesh items to sample.
virtual void updateMesh(PstreamBuffers &)
Update of the patch topology.
virtual void movePoints(PstreamBuffers &, const pointField &)
Correct patches after moving points.
virtual label neighbPolyPatchID() const
Return nbr patch ID.
const word & samplePatch() const
Patch (only if NEARESTPATCHFACE)
Pointer management similar to std::unique_ptr, with some additional methods and type checking...
label index() const noexcept
The index of this patch in the boundaryMesh.
List< label > labelList
A List of labels.
const word & sampleRegion() const
Region to sample.
virtual void initMovePoints(PstreamBuffers &, const pointField &)
Initialise the patches for moving points.
virtual void initGeometry(PstreamBuffers &)
Initialise the calculation of the patch geometry.
virtual refPtr< labelListList > mapCollocatedFaces() const
Return collocated faces map.
uindirectPrimitivePatch pp(UIndirectList< face >(mesh.faces(), faceLabels), mesh.points())
virtual const labelUList & nbrCells() const
Return nbrCells.