An invertible transform for efficient string matching in labeled digraphs

May 09, 2019 Β· Declared Dead Β· πŸ› Annual Symposium on Combinatorial Pattern Matching

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Authors Abhinav Nellore, Austin Nguyen, Reid F. Thompson arXiv ID 1905.03424 Category cs.DS: Data Structures & Algorithms Citations 3 Venue Annual Symposium on Combinatorial Pattern Matching Last Checked 4 months ago
Abstract
Let $G = (V, E)$ be a digraph where each vertex is unlabeled, each edge is labeled by a character in some alphabet $Ξ©$, and any two edges with both the same head and the same tail have different labels. The powerset construction gives a transform of $G$ into a weakly connected digraph $G' = (V', E')$ that enables solving the decision problem of whether there is a walk in $G$ matching an arbitrarily long query string $q$ in time linear in $|q|$ and independent of $|E|$ and $|V|$. We show $G$ is uniquely determined by $G'$ when for every $v_\ell \in V$, there is some distinct string $s_\ell$ on $Ξ©$ such that $v_\ell$ is the origin of a closed walk in $G$ matching $s_\ell$, and no other walk in $G$ matches $s_\ell$ unless it starts and ends at $v_\ell$. We then exploit this invertibility condition to strategically alter any $G$ so its transform $G'$ enables retrieval of all $t$ terminal vertices of walks in the unaltered $G$ matching $q$ in $O(|q| + t \log |V|)$ time. We conclude by proposing two defining properties of a class of transforms that includes the Burrows-Wheeler transform and the transform presented here.
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