English

Computing maximal palindromes in non-standard matching models

Data Structures and Algorithms 2025-02-18 v4

Abstract

Palindromes are popular and important objects in textual data processing, bioinformatics, and combinatorics on words. Let S=XaYS = XaY be a string where XX and YY are of the same length, and aa is either a single character or the empty string. Then, there exist two alternative definitions for palindromes: SS is said to be a palindrome if SS is equal to its reversal SRS^R (Reversal-based definition); or if its right-arm YY is equal to the reversal of its left-arm XRX^R (Symmetry-based definition). It is clear that if the ``equality'' (\approx) used in both definitions is exact character matching (==), then the two definitions are the same. However, if we apply other string-equality criteria \approx, including the complementary-matching model for biological sequences, the Cartesian-tree model [Park et al., TCS 2020], the parameterized model [Baker, JCSS 1996], the order-preserving model [Kim et al., TCS 2014], and the palindromic-structure model [I et al., TCS 2013], then are the reversal-based palindromes and the symmetry-based palindromes the same? To the best of our knowledge, no previous work has considered or answered this natural question. In this paper, we first provide answers to this question, and then present efficient algorithms for computing all maximal palindromes under the non-standard matching models in a given string. After confirming that Gusfield's offline suffix-tree-based algorithm for computing maximal symmetry-based palindromes can be readily extended to the aforementioned matching models, we show how to extend Manacher's online algorithm for computing maximal reversal-based palindromes in linear time for all the aforementioned matching models.

Keywords

Cite

@article{arxiv.2210.02067,
  title  = {Computing maximal palindromes in non-standard matching models},
  author = {Takuya Mieno and Mitsuru Funakoshi and Yuto Nakashima and Shunsuke Inenaga and Hideo Bannai and Masayuki Takeda},
  journal= {arXiv preprint arXiv:2210.02067},
  year   = {2025}
}
R2 v1 2026-06-28T02:49:55.111Z