English

An Efficient Data Structure and Algorithm for Long-Match Query in Run-Length Compressed BWT

Data Structures and Algorithms 2025-05-22 v1

Abstract

In this paper, we describe a new type of match between a pattern and a text that aren't necessarily maximal in the query, but still contain useful matching information: locally maximal exact matches (LEMs). There are usually a large amount of LEMs, so we only consider those above some length threshold L\mathcal{L}. These are referred to as long LEMs. The purpose of long LEMs is to capture substring matches between a query and a text that are not necessarily maximal in the pattern but still long enough to be important. Therefore efficient long LEMs finding algorithms are desired for these datasets. However, these datasets are too large to query on traditional string indexes. Fortunately, these datasets are very repetitive. Recently, compressed string indexes that take advantage of the redundancy in the data but retain efficient querying capability have been proposed as a solution. We therefore give an efficient algorithm for computing all the long LEMs of a query and a text in a BWT runs compressed string index. We describe an O(m+occ)O(m+occ) expected time algorithm that relies on an O(r)O(r) words space string index for outputting all long LEMs of a pattern with respect to a text given the matching statistics of the pattern with respect to the text. Here mm is the length of the query, occocc is the number of long LEMs outputted, and rr is the number of runs in the BWT of the text. The O(r)O(r) space string index we describe relies on an adaptation of the move data structure by Nishimoto and Tabei. We are able to support LCP[i]LCP[i] queries in constant time given SA[i]SA[i]. In other words, we answer PLCP[i]PLCP[i] queries in constant time. Long LEMs may provide useful similarity information between a pattern and a text that MEMs may ignore. This information is particularly useful in pangenome and biobank scale haplotype panel contexts.

Keywords

Cite

@article{arxiv.2505.15698,
  title  = {An Efficient Data Structure and Algorithm for Long-Match Query in Run-Length Compressed BWT},
  author = {Ahsan Sanaullah and Degui Zhi and Shaojie Zhang},
  journal= {arXiv preprint arXiv:2505.15698},
  year   = {2025}
}

Comments

20 pages, 2 figures

R2 v1 2026-07-01T02:29:03.547Z