Pointer-Machine Algorithms for Fully-Online Construction of Suffix Trees and DAWGs on Multiple Strings

May 02, 2020 Β· Declared Dead Β· πŸ› Prague Stringology Conference

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Authors Shunsuke Inenaga arXiv ID 2005.00681 Category cs.DS: Data Structures & Algorithms Citations 1 Venue Prague Stringology Conference Last Checked 4 months ago
Abstract
We deal with the problem of maintaining the suffix tree indexing structure for a fully-online collection of multiple strings, where a new character can be prepended to any string in the collection at any time. The only previously known algorithm for the problem, recently proposed by Takagi et al. [Algorithmica 82(5): 1346-1377 (2020)], runs in $O(N \log Οƒ)$ time and $O(N)$ space on the word RAM model, where $N$ denotes the total length of the strings and $Οƒ$ denotes the alphabet size. Their algorithm makes heavy use of the nearest marked ancestor (NMA) data structure on semi-dynamic trees, that can answer queries and supports insertion of nodes in $O(1)$ amortized time on the word RAM model. In this paper, we present a simpler fully-online right-to-left algorithm that builds the suffix tree for a given string collection in $O(N (\log Οƒ+ \log d))$ time and $O(N)$ space, where $d$ is the maximum number of in-coming Weiner links to a node of the suffix tree. We note that $d$ is bounded by the height of the suffix tree, which is further bounded by the length of the longest string in the collection. The advantage of this new algorithm is that it works on the pointer machine model, namely, it does not use the complicated NMA data structures that involve table look-ups. As a byproduct, we also obtain a pointer-machine algorithm for building the directed acyclic word graph (DAWG) for a fully-online left-to-right collection of multiple strings, which runs in $O(N (\log Οƒ+ \log d))$ time and $O(N)$ space again without the aid of the NMA data structures.
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