Sliding Window String Indexing in Streams
January 23, 2023 Β· Declared Dead Β· π Annual Symposium on Combinatorial Pattern Matching
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Authors
Philip Bille, Johannes Fischer, Inge Li GΓΈrtz, Max RishΓΈj Pedersen, Tord Joakim Stordalen
arXiv ID
2301.09477
Category
cs.DS: Data Structures & Algorithms
Citations
2
Venue
Annual Symposium on Combinatorial Pattern Matching
Last Checked
4 months ago
Abstract
Given a string $S$ over an alphabet $Ξ£$, the 'string indexing problem' is to preprocess $S$ to subsequently support efficient pattern matching queries, i.e., given a pattern string $P$ report all the occurrences of $P$ in $S$. In this paper we study the 'streaming sliding window string indexing problem'. Here the string $S$ arrives as a stream, one character at a time, and the goal is to maintain an index of the last $w$ characters, called the 'window', for a specified parameter $w$. At any point in time a pattern matching query for a pattern $P$ may arrive, also streamed one character at a time, and all occurrences of $P$ within the current window must be returned. The streaming sliding window string indexing problem naturally captures scenarios where we want to index the most recent data (i.e. the window) of a stream while supporting efficient pattern matching. Our main result is a simple $O(w)$ space data structure that uses $O(\log w)$ time with high probability to process each character from both the input string $S$ and the pattern string $P$. Reporting each occurrence from $P$ uses additional constant time per reported occurrence. Compared to previous work in similar scenarios this result is the first to achieve an efficient worst-case time per character from the input stream. We also consider a delayed variant of the problem, where a query may be answered at any point within the next $Ξ΄$ characters that arrive from either stream. We present an $O(w + Ξ΄)$ space data structure for this problem that improves the above time bounds to $O(\log(w/Ξ΄))$. In particular, for a delay of $Ξ΄= Ξ΅w$ we obtain an $O(w)$ space data structure with constant time processing per character. The key idea to achieve our result is a novel and simple hierarchical structure of suffix trees of independent interest, inspired by the classic log-structured merge trees.
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