Longest substring palindrome after edit

Annual Symposium on Combinatorial Pattern Matching Pub Date : 2018-05-01 DOI:10.4230/LIPIcs.CPM.2018.12
Mitsuru Funakoshi, Yuto Nakashima, Shunsuke Inenaga, H. Bannai, M. Takeda
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引用次数: 10

Abstract

It is known that the length of the longest substring palindromes (LSPals) of a given string T of length n can be computed in O(n) time by Manacher's algorithm [J. ACM '75]. In this paper, we consider the problem of finding the LSPal after the string is edited. We present an algorithm that uses O(n) time and space for preprocessing, and answers the length of the LSPals in O(log (min {sigma, log n })) time after single character substitution, insertion, or deletion, where sigma denotes the number of distinct characters appearing in T. We also propose an algorithm that uses O(n) time and space for preprocessing, and answers the length of the LSPals in O(l + log n) time, after an existing substring in T is replaced by a string of arbitrary length l.
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编辑后最长的子串回文
已知给定长度为n的字符串T的最长子串回文(LSPals)的长度可以用Manacher算法在O(n)时间内计算出来[J]。ACM的75]。在本文中,我们考虑了字符串被编辑后查找LSPal的问题。我们提出一种算法,它使用O (n)时间和空间预处理,和答案的长度LSPals在O (log (min{σ,O (log n)}))时间单个字符替换后,插入,删除,其中σ表示不同的字符数出现在T .我们也提出了一个算法,使用O (n)时间和空间进行预处理,和答案的长度LSPals O (l + O (log n)),在现有的子串T被任意长度的字符串。
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Annual Symposium on Combinatorial Pattern Matching
Annual Symposium on Combinatorial Pattern Matching
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