Use this if you are using igraph from R
A graph is chordal (or triangulated) if each of its cycles of four or more nodes has a chord, which is an edge joining two nodes that are not adjacent in the cycle. An equivalent definition is that any chordless cycles have at most three nodes.
is_chordal( graph, alpha = NULL, alpham1 = NULL, fillin = FALSE, newgraph = FALSE )
graph |
The input graph. It may be directed, but edge directions are ignored, as the algorithm is defined for undirected graphs. |
alpha |
Numeric vector, the maximal chardinality ordering of the
vertices. If it is |
alpham1 |
Numeric vector, the inverse of |
fillin |
Logical scalar, whether to calculate the fill-in edges. |
newgraph |
Logical scalar, whether to calculate the triangulated graph. |
The chordality of the graph is decided by first performing maximum
cardinality search on it (if the alpha
and alpham1
arguments
are NULL
), and then calculating the set of fill-in edges.
The set of fill-in edges is empty if and only if the graph is chordal.
It is also true that adding the fill-in edges to the graph makes it chordal.
A list with three members:
chordal |
Logical scalar, it is
|
fillin |
If requested,
then a numeric vector giving the fill-in edges. |
newgraph |
If requested, then the triangulated graph, an |
Gabor Csardi csardi.gabor@gmail.com
Robert E Tarjan and Mihalis Yannakakis. (1984). Simple linear-time algorithms to test chordality of graphs, test acyclicity of hypergraphs, and selectively reduce acyclic hypergraphs. SIAM Journal of Computation 13, 566–579.
## The examples from the Tarjan-Yannakakis paper g1 <- graph_from_literal(A-B:C:I, B-A:C:D, C-A:B:E:H, D-B:E:F, E-C:D:F:H, F-D:E:G, G-F:H, H-C:E:G:I, I-A:H) max_cardinality(g1) is_chordal(g1, fillin=TRUE) g2 <- graph_from_literal(A-B:E, B-A:E:F:D, C-E:D:G, D-B:F:E:C:G, E-A:B:C:D:F, F-B:D:E, G-C:D:H:I, H-G:I:J, I-G:H:J, J-H:I) max_cardinality(g2) is_chordal(g2, fillin=TRUE)