Computing palindromes on a trie in linear time

November 08, 2022 Β· Declared Dead Β· πŸ› International Symposium on Algorithms and Computation

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Authors Takuya Mieno, Mitsuru Funakoshi, Shunsuke Inenaga arXiv ID 2211.03995 Category cs.DS: Data Structures & Algorithms Citations 3 Venue International Symposium on Algorithms and Computation Last Checked 4 months ago
Abstract
A trie $\mathcal{T}$ is a rooted tree such that each edge is labeled by a single character from the alphabet, and the labels of out-going edges from the same node are mutually distinct. Given a trie $\mathcal{T}$ with $n$ edges, we show how to compute all distinct palindromes and all maximal palindromes on $\mathcal{T}$ in $O(n)$ time, in the case of integer alphabets of size polynomial in $n$. This improves the state-of-the-art $O(n \log h)$-time algorithms by Funakoshi et al. [PCS 2019], where $h$ is the height of $\mathcal{T}$. Using our new algorithms, the eertree with suffix links for a given trie $\mathcal{T}$ can readily be obtained in $O(n)$ time. Further, our trie-based $O(n)$-space data structure allows us to report all distinct palindromes and maximal palindromes in a query string represented in the trie $\mathcal{T}$, in output optimal time. This is an improvement over an existing (naΓ―ve) solution that precomputes and stores all distinct palindromes and maximal palindromes for each and every string in the trie $\mathcal{T}$ separately, using a total $O(n^2)$ preprocessing time and space, and reports them in output optimal time upon query.
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