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Reference documentation for older polymake versions: release 3.4, release 3.3, release 3.2
BigObject HyperplaneArrangement<Scalar>
from application fan
A hyperplane arrangement. The hyperplane arrangement is given by a matrix HYPERPLANES
whose rows are the linear equations of the hyperplanes and an optional support cone. The support cone defaults to being the whole space. Duplicate hyperplanes are ignored, as well as hyperplanes that intersect the support cone trivially. The support cone is subdivided by the hyperplanes resulting in a fan CELL_DECOMPOSITION
.
- Type Parameters:
Scalar
: numeric data type used for the coordinates, must be an ordered field. Default isRational
.- derived from:
- Example:
Take the 2-dimensional positive orthant and slice it along the ray through (1,1)
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[-1,1]], "SUPPORT.INPUT_RAYS"=>[[1,0],[0,1]]); > $CD = $HA->CELL_DECOMPOSITION; > print $CD->RAYS; 0 1 1 0 1 1
> print $CD->MAXIMAL_CONES; {1 2} {0 2}
- Example:
Coxeter hyperplane arrangement of type E8.
> $E8 = new HyperplaneArrangement(HYPERPLANES=>root_system("E8")->VECTORS->minor(All,~[0]));
Note that the roots lie “at infinity”, which is why the leading zero column of the root vectors is eliminated.
- Permutations:
- ConesPerm:
permuting the
RAYS
Properties
Input property
These properties are for input only. They allow redundant information.
-
SUPPORT
A cone being subdivided by the
HYPERPLANES
defaults to the whole space.- Type:
Cone<Scalar>
- Example:
Take the 2-dimensional positive orthant and slice it along the ray through (1,1)
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[-1,1]], "SUPPORT.INPUT_RAYS"=>[[1,0],[0,1]]); > $CD = $HA->CELL_DECOMPOSITION; > print $CD->RAYS; 0 1 1 0 1 1
> print $CD->MAXIMAL_CONES; {1 2} {0 2}
- Example:
Subdivide the two-dimensional space along the axes
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[1,0],[0,1]]); > $CD = $HA->CELL_DECOMPOSITION; > print $CD->RAYS; -1 0 0 -1 0 1 1 0
> print $CD->MAXIMAL_CONES; {2 3} {1 3} {0 2} {0 1}
> print $CD->COMPLETE; true
Combinatorics
These properties capture combinatorial information of the object. Combinatorial properties only depend on combinatorial data of the object like, e.g., the face lattice.
-
CELL_SIGNATURES
The i-th entry is the signature of the i-th maximal cone of the
CELL_DECOMPOSITION
as Set<Int> # of indices of theHYPERPLANES
that evaluate positively on this cone.- Type:
- Example:
Take the 2-dimensional positive orthant and slice it along the ray through (1,1)
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[-1,1]], "SUPPORT.INPUT_RAYS"=>[[1,0],[0,1]]); > $CD = $HA->CELL_DECOMPOSITION; > print $CD->MAXIMAL_CONES; {1 2} {0 2}
> print $HA->CELL_SIGNATURES; {} {0}
> print $HA->cell_to_signature($CD->MAXIMAL_CONES->[0]); {}
> print $HA->cell_to_signature($CD->MAXIMAL_CONES->[1]); {0}
> print $HA->signature_to_cell($HA->CELL_SIGNATURES->[0]); 0
> print $CD->MAXIMAL_CONES->[$HA->signature_to_cell($HA->CELL_SIGNATURES->[0])]; {1 2}
-
N_HYPERPLANES
Number of
HYPERPLANES
. Alias for propertyN_VECTORS
.- Type:
- Example:
Coordinate hyperplane arrangement in the plane.
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[1,0],[0,1]]); > print $HA->N_HYPERPLANES; 2
-
RAYS_IN_HYPERPLANES
Incidences between
RAYS
andHYPERPLANES
.- Type:
Geometry
These properties capture geometric information of the object. Geometric properties depend on geometric information of the object, like, e.g., vertices or facets.
-
CELL_DECOMPOSITION
Slicing the
SUPPORT
along every hyperplane ofHYPERPLANES
one gets a polyhedral fan.- Type:
PolyhedralFan<Scalar>
- Example:
Take the 2-dimensional positive orthant and slice it along the ray through (1,1)
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[-1,1]], "SUPPORT.INPUT_RAYS"=>[[1,0],[0,1]]); > $CD = $HA->CELL_DECOMPOSITION; > print $CD->RAYS; 0 1 1 0 1 1
> print $CD->MAXIMAL_CONES; {1 2} {0 2}
-
HYPERPLANES
A matrix containing the hyperplanes of the arrangement as rows. Alias for property
VECTORS
.- Type:
Matrix<Scalar,NonSymmetric>
- Example:
The same hyperplane with opposing directions.
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[1,-1],[-1,1],[1,1]]); > print $HA->HYPERPLANES; 1 -1 -1 1 1 1
- Example:
A hyperplane that does not cut through the
SUPPORT
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[1,1]], "SUPPORT.INEQUALITIES"=>unit_matrix(2)); > print $HA->HYPERPLANES; 1 1
-
HYPERPLANE_AMBIENT_DIM
Dimension of the space which contains the hyperplane arrangement. Alias for property
VECTOR_AMBIENT_DIM
.- Type:
-
LINEALITY_SPACE
A basis of the lineality space of the hyperplane arrangement.
- Type:
Matrix<Scalar,NonSymmetric>
no category
-
HYPERPLANE_LABELS
For a polyhedral fan built from scratch, you should create this property by yourself, either manually in a text editor, or with a client program.
- Type:
Methods
Combinatorics
These methods capture combinatorial information of the object. Combinatorial properties only depend on combinatorial data of the object like, e.g., the face lattice.
-
cell_to_signature
Given a maximal cone of
CELL_DECOMPOSITION
as Set<Int> containing the indices of the rays spanning it, return the signature of the cone as Set<Int> of indices of theHYPERPLANES
that evaluate negatively on this cone.- Example:
Take the 2-dimensional positive orthant and slice it along the ray through (1,1)
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[-1,1]], "SUPPORT.INPUT_RAYS"=>[[1,0],[0,1]]); > $CD = $HA->CELL_DECOMPOSITION; > print $CD->MAXIMAL_CONES; {1 2} {0 2}
> print $HA->CELL_SIGNATURES; {} {0}
> print $HA->cell_to_signature($CD->MAXIMAL_CONES->[0]); {}
> print $HA->cell_to_signature($CD->MAXIMAL_CONES->[1]); {0}
> print $HA->signature_to_cell($HA->CELL_SIGNATURES->[0]); 0
> print $CD->MAXIMAL_CONES->[$HA->signature_to_cell($HA->CELL_SIGNATURES->[0])]; {1 2}
-
signature_to_cell
Given a signature as a Set<Int> of indices that indicate which
HYPERPLANES
should evaluate negatively (the remaining evaluate positively), return the maximal cone ofCELL_DECOMPOSITION
associated to this signature. The result the index of the maximal cone in the maximal cones ofCELL_DECOMPOSITION
.- Example:
Take the 2-dimensional positive orthant and slice it along the ray through (1,1)
> $HA = new HyperplaneArrangement(HYPERPLANES=>[[-1,1]], "SUPPORT.INPUT_RAYS"=>[[1,0],[0,1]]); > $CD = $HA->CELL_DECOMPOSITION; > print $CD->MAXIMAL_CONES; {1 2} {0 2}
> print $HA->CELL_SIGNATURES; {} {0}
> print $HA->cell_to_signature($CD->MAXIMAL_CONES->[0]); {}
> print $HA->cell_to_signature($CD->MAXIMAL_CONES->[1]); {0}
> print $HA->signature_to_cell($HA->CELL_SIGNATURES->[0]); 0
> print $CD->MAXIMAL_CONES->[$HA->signature_to_cell($HA->CELL_SIGNATURES->[0])]; {1 2}
Visualization
These methods are for visualization.
-
VISUAL()
Visualizes the fan, intersected with the unit ball.
- Options:
- option list
geometric_options_linear
- Returns: