Efficient algorithms to compute compressed longest common substrings and compressed palindromes

Wataru Matsubara; Shunsuke Inenaga; Akira Ishino; Ayumi Shinohara; Tomoyuki Nakamura; Kazuo Hashimoto

doi:10.1016/j.tcs.2008.12.016

Efficient algorithms to compute compressed longest common substrings and compressed palindromes

Wataru Matsubara, Shunsuke Inenaga^*, Akira Ishino, Ayumi Shinohara, Tomoyuki Nakamura, Kazuo Hashimoto

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

57 Citations (Scopus)

Abstract

This paper studies two problems on compressed strings described in terms of straight line programs (SLPs). One is to compute the length of the longest common substring of two given SLP-compressed strings, and the other is to compute all palindromes of a given SLP-compressed string. In order to solve these problems efficiently (in polynomial time w.r.t. the compressed size) decompression is never feasible, since the decompressed size can be exponentially large. We develop combinatorial algorithms that solve these problems in O (n⁴ log n) time with O (n³) space, and in O (n⁴) time with O (n²) space, respectively, where n is the size of the input SLP-compressed strings.

Original language	English
Pages (from-to)	900-913
Number of pages	14
Journal	Theoretical Computer Science
Volume	410
Issue number	8-10
DOIs	https://doi.org/10.1016/j.tcs.2008.12.016
Publication status	Published - 2009 Mar 1
Externally published	Yes

Keywords

Longest common substring
Palindromes
Straight line program
String processing algorithms
Text compression

ASJC Scopus subject areas

Theoretical Computer Science
Computer Science(all)

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10.1016/j.tcs.2008.12.016

Cite this

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title = "Efficient algorithms to compute compressed longest common substrings and compressed palindromes",

abstract = "This paper studies two problems on compressed strings described in terms of straight line programs (SLPs). One is to compute the length of the longest common substring of two given SLP-compressed strings, and the other is to compute all palindromes of a given SLP-compressed string. In order to solve these problems efficiently (in polynomial time w.r.t. the compressed size) decompression is never feasible, since the decompressed size can be exponentially large. We develop combinatorial algorithms that solve these problems in O (n4 log n) time with O (n3) space, and in O (n4) time with O (n2) space, respectively, where n is the size of the input SLP-compressed strings.",

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AU - Matsubara, Wataru

AU - Inenaga, Shunsuke

AU - Ishino, Akira

AU - Shinohara, Ayumi

AU - Nakamura, Tomoyuki

AU - Hashimoto, Kazuo

PY - 2009/3/1

Y1 - 2009/3/1

N2 - This paper studies two problems on compressed strings described in terms of straight line programs (SLPs). One is to compute the length of the longest common substring of two given SLP-compressed strings, and the other is to compute all palindromes of a given SLP-compressed string. In order to solve these problems efficiently (in polynomial time w.r.t. the compressed size) decompression is never feasible, since the decompressed size can be exponentially large. We develop combinatorial algorithms that solve these problems in O (n4 log n) time with O (n3) space, and in O (n4) time with O (n2) space, respectively, where n is the size of the input SLP-compressed strings.

AB - This paper studies two problems on compressed strings described in terms of straight line programs (SLPs). One is to compute the length of the longest common substring of two given SLP-compressed strings, and the other is to compute all palindromes of a given SLP-compressed string. In order to solve these problems efficiently (in polynomial time w.r.t. the compressed size) decompression is never feasible, since the decompressed size can be exponentially large. We develop combinatorial algorithms that solve these problems in O (n4 log n) time with O (n3) space, and in O (n4) time with O (n2) space, respectively, where n is the size of the input SLP-compressed strings.

KW - Longest common substring

KW - Palindromes

KW - Straight line program

KW - String processing algorithms

KW - Text compression

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Efficient algorithms to compute compressed longest common substrings and compressed palindromes

Abstract

Keywords

ASJC Scopus subject areas

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