Representing the suffix tree with the CDAWG

Annual Symposium on Combinatorial Pattern Matching Pub Date : 2017-05-24 DOI:10.4230/LIPIcs.CPM.2017.7

D. Belazzougui, F. Cunial

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引用次数: 29

Abstract

Given a string $T$, it is known that its suffix tree can be represented using the compact directed acyclic word graph (CDAWG) with $e_T$ arcs, taking overall $O(e_T+e_{{\overline{T}}})$ words of space, where ${\overline{T}}$ is the reverse of $T$, and supporting some key operations in time between $O(1)$ and $O(\log{\log{n}})$ in the worst case. This representation is especially appealing for highly repetitive strings, like collections of similar genomes or of version-controlled documents, in which $e_T$ grows sublinearly in the length of $T$ in practice. In this paper we augment such representation, supporting a number of additional queries in worst-case time between $O(1)$ and $O(\log{n})$ in the RAM model, without increasing space complexity asymptotically. Our technique, based on a heavy path decomposition of the suffix tree, enables also a representation of the suffix array, of the inverse suffix array, and of $T$ itself, that takes $O(e_T)$ words of space, and that supports random access in $O(\log{n})$ time. Furthermore, we establish a connection between the reversed CDAWG of $T$ and a context-free grammar that produces $T$ and only $T$, which might have independent interest.

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用CDAWG表示后缀树

给定一个字符串$T$，我们知道它的后缀树可以使用具有$e_T$弧的紧凑有向无环词图(CDAWG)来表示，占用了整个$O(e_T+e_{{\overline{T}}})$个词的空间，其中${\overline{T}}$是$T$的反转，并且在最坏的情况下支持$O(1)$和$O(\log{\log{n}})$之间的一些关键操作。这种表示对高度重复的字符串特别有吸引力，比如相似基因组的集合或版本控制文档，在这些字符串中，$e_T$实际上在$T$的长度中呈次线性增长。在本文中，我们增强了这种表示，在RAM模型中支持在$O(1)$和$O(\log{n})$之间的最坏情况下的一些额外查询，而不会逐渐增加空间复杂性。我们的技术基于后缀树的重路径分解，还支持后缀数组、反向后缀数组和$T$本身的表示，它们占用$O(e_T)$个空间单词，并支持在$O(\log{n})$时间内的随机访问。此外，我们在$T$的反向CDAWG和生成$T$且仅产生$T$的上下文无关语法之间建立了连接，这两个语法可能具有独立的兴趣。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Annual Symposium on Combinatorial Pattern Matching

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