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| static constexpr Perm< dim+1 > | ordering (int face) |
| | Given a subdim-face number within a dim-dimensional simplex, returns the corresponding canonical ordering of the simplex vertices. More...
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| static constexpr int | faceNumber (Perm< dim+1 > vertices) |
| | Identifies which subdim-face in a dim-dimensional simplex is represented by the first (subdim + 1) elements of the given permutation. More...
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| static constexpr bool | containsVertex (int face, int vertex) |
| | Tests whether the given subdim-face of a dim-dimensional simplex contains the given vertex of the simplex. More...
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| static constexpr int | oppositeDim |
| | The dimension of the faces opposite these in a top-dimensional simplex of a dim-dimensional triangulation. More...
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| static constexpr bool | lexNumbering |
| | true if faces are numbered in lexicographical order according to their vertices, or false if faces are numbered in reverse lexicographical order. More...
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| static constexpr int | nFaces |
| | The total number of subdim-dimensional faces in each dim-dimensional simplex. More...
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| static constexpr int | lexDim |
| | Whichever of subdim or oppositeDim uses lexicographical face numbering. More...
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◆ containsVertex()
Tests whether the given subdim-face of a dim-dimensional simplex contains the given vertex of the simplex.
- Parameters
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| face | a subdim-face number in a dim-simplex; this must be between 0 and (dim+1 choose subdim+1)-1 inclusive. |
| vertex | a vertex number in a dim-simplex; this must be between 0 and dim inclusive. |
- Returns
true if and only if the given subdim-face contains the given vertex.
◆ faceNumber()
Identifies which subdim-face in a dim-dimensional simplex is represented by the first (subdim + 1) elements of the given permutation.
In other words, this routine identifies which subdim-face number within a dim-dimensional simplex spans vertices vertices[0, ..., subdim].
- Parameters
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| vertices | a permutation whose first (subdim + 1) elements represent some vertex numbers in a dim-simplex. |
- Returns
- the corresponding subdim-face number in the dim-simplex. This will be between 0 and (dim+1 choose subdim+1)-1 inclusive.
◆ ordering()
Given a subdim-face number within a dim-dimensional simplex, returns the corresponding canonical ordering of the simplex vertices.
If this canonical ordering is c, then c[0,...,subdim] will be the vertices of the given face in increasing numerical order. That is, c[0] < ... < c[subdim]. The remaining images c[(subdim + 1),...,dim] will be ordered arbitrarily.
Note that this is not the same permutation as returned by Simplex<dim>::faceMapping<subdim>():
- ordering() is a static function, which returns the same permutation for the same face number, regardless of which dim-simplex we are looking at. The images of 0,...,subdim will always appear in increasing order, and the images of (subdim + 1),...,dim will be arbitrary.
- faceMapping() examines the underlying face F of the triangulation and, across all appearances of F in different dim-simplices: (i) chooses the images of 0,...,subdim to map to the same respective vertices of F; and (ii) chooses the images of (subdim + 1),...,dim to maintain a "consistent
orientation" constraint.
- Parameters
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| face | identifies which subdim-face of a dim-dimensional simplex to query. This must be between 0 and (dim+1 choose subdim+1)-1 inclusive. |
- Returns
- the corresponding canonical ordering of the simplex vertices.
◆ lexDim
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staticconstexprprotectedinherited |
Whichever of subdim or oppositeDim uses lexicographical face numbering.
◆ lexNumbering
true if faces are numbered in lexicographical order according to their vertices, or false if faces are numbered in reverse lexicographical order.
◆ nFaces
The total number of subdim-dimensional faces in each dim-dimensional simplex.
◆ oppositeDim
The dimension of the faces opposite these in a top-dimensional simplex of a dim-dimensional triangulation.
The documentation for this class was generated from the following file:
