Nearest Common Ancestors: Universal Trees and Improved Labeling Schemes

Abstract

We investigate the nearest common ancestor (NCA) function in rooted trees. As the main conceptual contribution, the paper introduces universal trees for the NCA function: For a given family of rooted trees, an NCA-universal tree S is a rooted tree such that any tree T of the family can be embedded into S such that the embedding of the NCA in T of two nodes of T is equal to the NCA in S of the embeddings of the two nodes. As the main technical result we give explicit constructions of NCA-universal trees of size n2.318 for the family of rooted n-vertex trees and of size n1.894 for the family of rooted binary n-vertex trees. A direct consequence is the explicit construction of NCA-labeling schemes with labels of size 2.3182 n and 1.8942 n for the two families of rooted trees. This improves on the best known such labeling schemes established by Alstrup, Halvorsen and Larsen [SODA 2014].