Characterizing Block Graphs in Terms of their Vertex-Induced Partitions

Abstract

Given a finite connected simple graph G=(V,E) with vertex set V and edge set E⊂eq V2, we will show that 1. the (necessarily unique) smallest block graph with vertex set V whose edge set contains E is uniquely determined by the V-indexed family PG:=(π0(G(v)))v ∈ V of the various partitions π0(G(v)) of the set V into the set of connected components of the graph G(v):=(V,\e∈ E: v e\), 2. the edge set of this block graph coincides with set of all 2-subsets \u,v\ of V for which u and v are, for all w∈ V-\u,v\, contained in the same connected component of G(w), 3. and an arbitrary V-indexed family Pp=( pv)v ∈ V of partitions πv of the set V is of the form Pp= PpG for some connected simple graph G=(V,E) with vertex set V as above if and only if, for any two distinct elements u,v∈ V, the union of the set in pv that contains u and the set in pu that contains v coincides with the set V, and \v\∈ pv holds for all v ∈ V. As well as being of inherent interest to the theory of block graphs, these facts are also useful in the analysis of compatible decompositions and block realizations of finite metric spaces.