Linearly -Bounding (P6,C4)-Free Graphs

Abstract

Given two graphs H1 and H2, a graph G is (H1,H2)-free if it contains no subgraph isomorphic to H1 or H2. Let Pt and Cs be the path on t vertices and the cycle on s vertices, respectively. In this paper we show that for any (P6,C4)-free graph G it holds that (G) 32ω(G), where (G) and ω(G) are the chromatic number and clique number of G, respectively. %Our bound is attained by C5 and the Petersen graph. Our bound is attained by several graphs, for instance, the five-cycle, the Petersen graph, the Petersen graph with an additional universal vertex, and all 4-critical (P6,C4)-free graphs other than K4 (see HH17). The new result unifies previously known results on the existence of linear -binding functions for several graph classes. Our proof is based on a novel structure theorem on (P6,C4)-free graphs that do not contain clique cutsets. Using this structure theorem we also design a polynomial time 3/2-approximation algorithm for coloring (P6,C4)-free graphs. Our algorithm computes a coloring with 32ω(G) colors for any (P6,C4)-free graph G in O(n2m) time.