Available versions of this document: latest release, release 4.13, release 4.12, release 4.11, release 4.10, release 4.9, release 4.8, release 4.7, release 4.6, release 4.5, release 4.4, release 4.3, release 4.2, release 4.1, release 4.0, release 3.6, release 3.5, nightly master
Reference documentation for older polymake versions: release 3.4, release 3.3, release 3.2
BigObject GeometricSimplicialComplex<Scalar>
from application topaz
A geometric simplicial complex, i.e., a simplicial complex with a geometric realization. Scalar is the numeric data type used for the coordinates.
- Type Parameters:
Scalar
: default:Rational
- derived from:
Properties
no category
-
COORDINATES
Coordinates for the vertices of the simplicial complex, such that the complex is embedded without crossings in some Re. Vector (x1, …. xe) represents a point in Euclidean e-space.
- Type:
Matrix<Scalar,NonSymmetric>
-
G_DIM
Dimension e of the space in which the
COORDINATES
of the complex is embedded.- Type:
-
N_UNIMODULAR
Count how many simplices of a geometric simplicial complex are unimodular.
- Type:
- Example:
Non-regular quadrangle, triangulated.
> $C = new GeometricSimplicialComplex(COORDINATES=>[[0,0],[1,0],[0,1],[2,1]],FACETS=>[[0,1,2],[1,2,3]]); > print $C->N_UNIMODULAR 1
-
SIGNATURE
Signature of a geometric simplicial complex embedded in the integer lattice. Like
DUAL_GRAPH_SIGNATURE
, but only simplices with odd normalized volume are counted.- Type:
-
UNIMODULAR
A geometric simplicial complex is unimodular if all simplices have unit normalized volume.
- Type:
- Example:
Unit square, triangulated.
> $C = new GeometricSimplicialComplex(COORDINATES=>[[0,0],[1,0],[0,1],[1,1]], FACETS=>[[0,1,2],[1,2,3]]); > print $C->UNIMODULAR true
-
VOLUME
Volume of a geometric simplicial complex.
- Type:
Scalar
Methods
no category
-
VISUAL()
TODO: consider all inherited user methods; then: user_method … : COORDINATES …
- Options:
- option list
Visual::Polygon::decorations
- option list
Visual::Graph::decorations