62 pointToFace::typeName,
63 "\n Usage: pointToFace <pointSet> any|all|edge\n\n" 64 " Select faces with\n" 65 " -any point in the pointSet\n" 66 " -all points in the pointSet\n\n" 67 " -two consecutive points (an edge) in the pointSet\n\n" 75 Foam::pointToFace::pointActionNames_
77 { pointAction::ANY,
"any" },
78 { pointAction::ALL,
"all" },
79 { pointAction::EDGE,
"edge" },
85 void Foam::pointToFace::combine
93 pointSet loadedSet(
mesh_, setName);
107 else if (option_ ==
ALL)
118 for (
const label facei :
pFaces)
120 ++(numPoints(facei, 0));
129 const label facei = iter.key();
130 const label
count = iter.val();
138 else if (option_ ==
EDGE)
144 const face&
f = faces[facei];
167 const polyMesh&
mesh,
169 const pointAction option
173 names_(
one{}, setName),
180 const polyMesh&
mesh,
181 const dictionary&
dict 184 topoSetFaceSource(
mesh),
186 option_(pointActionNames_.
get(
"option",
dict))
189 if (!
dict.readIfPresent(
"sets", names_))
199 const polyMesh&
mesh,
203 topoSetFaceSource(
mesh),
204 names_(one{}, word(checkIs(is))),
205 option_(pointActionNames_.read(checkIs(is)))
221 Info<<
" Adding faces according to point sets: " 225 for (
const word& setName : names_)
234 Info<<
" Removing faces according to point sets: " 238 for (
const word& setName : names_)
List< ReturnType > get(const UPtrList< T > &list, const AccessOp &aop)
List of values generated by applying the access operation to each list item.
void size(const label n)
Older name for setAddressableSize.
labelList pointLabels(nPoints, -1)
void resize(const label len)
Adjust allocated size of list.
Create a new set and ADD elements to it.
Add elements to current set.
constexpr char nl
The newline '\n' character (0x0a)
T & front()
Access first element of the list, position [0].
pointToFace(const polyMesh &mesh, const word &setName, const pointAction option)
Construct from components.
void addOrDelete(topoSet &set, const label id, const bool add) const
Add or delete id from set. Add when 'add' is true.
Macros for easy insertion into run-time selection tables.
addNamedToRunTimeSelectionTable(topoSetCellSource, badQualityToCell, word, badQuality)
#define forAll(list, i)
Loop across all elements in list.
pointAction
Enumeration defining the valid options.
HashSet< label, Hash< label > > labelHashSet
A HashSet of labels, uses label hasher.
List< face > faceList
List of faces.
unsigned int count(const UList< bool > &bools, const bool val=true)
Count number of 'true' entries.
AccessType combine(const UList< T > &lists, AccessOp aop=accessOp< T >())
Combines sub-lists into a single list.
The topoSetFaceSource is a intermediate class for handling topoSet sources for selecting faces...
setAction
Enumeration defining various actions.
virtual const faceList & faces() const
Return raw faces.
const polyMesh & mesh_
Reference to the mesh.
void add(FieldField< Field1, typename typeOfSum< Type1, Type2 >::type > &f, const FieldField< Field1, Type1 > &f1, const FieldField< Field2, Type2 > &f2)
defineTypeNameAndDebug(combustionModel, 0)
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]
General set of labels of mesh quantity (points, cells, faces).
addToRunTimeSelectionTable(decompositionMethod, kahipDecomp, dictionary)
Subtract elements from current set.
vector point
Point is a vector.
Enum is a wrapper around a list of names/values that represent particular enumeration (or int) values...
Class with constructor to add usage string to table.
messageStream Info
Information stream (stdout output on master, null elsewhere)
const labelListList & pointFaces() const
List< label > labelList
A List of labels.
virtual void applyToSet(const topoSetSource::setAction action, topoSet &set) const
Apply specified action to the topoSet.
forAllConstIters(mixture.phases(), phase)
A class representing the concept of 1 (one) that can be used to avoid manipulating objects known to b...
FlatOutput::OutputAdaptor< Container, Delimiters > flatOutput(const Container &obj, Delimiters delim)
Global flatOutput() function with specified output delimiters.