English

On Occurrence-Preserving Morphisms

Combinatorics 2026-05-19 v1 Data Structures and Algorithms

Abstract

A \emph{morphism} is a mapping that transforms words through letter-wise substitution, where each symbol is consistently replaced by a fixed word. In the field of combinatorics on words, one topic that has attracted considerable attention is the characterization of morphisms that preserve specific properties, such as overlap-freeness, square-freeness, lexicographic order, and primitivity. Continuing this direction, we initiate the study on \emph{occurrence-preserving morphisms}, which address the following fundamental question: given a morphism ϕ\phi, two words uu and vv, and k1k \geq 1, under what conditions does the number of occurrences of uu in vv equal the number of occurrences of ϕk(u)\phi^k(u) in ϕk(v)\phi^k(v)? To answer this question, we introduce the notion of \emph{interference-free morphisms}, examine their properties, develop an efficient algorithm for deciding interference-freeness, and uncover a connection to \emph{recognizable morphisms}. We then present a precise characterization of occurrence-preserving morphisms in terms of interference-freeness. As applications of our characterization, we first show that there exists a bijection between the starting positions of the occurrences of uu in vv and those of ϕk(u)\phi^k(u) in ϕk(v)\phi^k(v). We then apply the characterization to the Fibonacci and Thue-Morse words to identify their \emph{minimal unique substrings~(MUSs)}. Finally, we exploit the connection between MUSs and \emph{net occurrences} to simplify existing proofs on net occurrences in these words.

Keywords

Cite

@article{arxiv.2605.18034,
  title  = {On Occurrence-Preserving Morphisms},
  author = {Kaisei Kishi and Peaker Guo and Cristian Urbina and Hideo Bannai},
  journal= {arXiv preprint arXiv:2605.18034},
  year   = {2026}
}

Comments

Full version of a paper at CPM 2026