We study the concept of an H-partition of the vertex set of a graph G, which includes all vertex partitioning problems into four parts which we require to be nonempty with only external constraints according to the structure of a model graph H, with the exception of two cases, one that has already been classified as polynomial, and the other one remains unclassified. In the context of more general vertex-partition problems, the problems addressed in this paper have these properties: non-list, 4-part, external constraints only (no internal constraints), each part non-empty. We describe tools that yield for each problem considered in this paper a simple and low complexity polynomial-time algorithm. Mathematics Subject Classification. 05C85, 68R10.
[1]
Yoshiharu Kohayakawa,et al.
Finding Skew Partitions Efficiently
,
2000,
J. Algorithms.
[2]
Vasek Chvátal,et al.
Star-cutsets and perfect graphs
,
1985,
J. Comb. Theory, Ser. B.
[3]
Kathie Cameron,et al.
The list partition problem for graphs
,
2004,
SODA '04.
[4]
Pavol Hell,et al.
List Homomorphisms to Reflexive Graphs
,
1998,
J. Comb. Theory, Ser. B.
[5]
Sulamita Klein,et al.
Complexity of graph partition problems
,
1999,
STOC '99.
[6]
Sulamita Klein,et al.
List Partitions
,
2003,
SIAM J. Discret. Math..
[7]
Yoshiharu Kohayakawa,et al.
Finding Skew Partitions Efficiently
,
2000,
J. Algorithms.