Indexing Graph Search Trees and Applications
June 19, 2019 Β· Declared Dead Β· π International Symposium on Mathematical Foundations of Computer Science
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Authors
Sankardeep Chakraborty, Kunihiko Sadakane
arXiv ID
1906.07871
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.IR,
cs.SI
Citations
6
Venue
International Symposium on Mathematical Foundations of Computer Science
Last Checked
4 months ago
Abstract
We consider the problem of compactly representing the Depth First Search (DFS) tree of a given undirected or directed graph having $n$ vertices and $m$ edges while supporting various DFS related queries efficiently in the RAM with logarithmic word size. We study this problem in two well-known models: {\it indexing} and {\it encoding} models. While most of these queries can be supported easily in constant time using $O(n \lg n)$ bits\footnote{We use $\lg$ to denote logarithm to the base $2$.} of extra space, our goal here is, more specifically, to beat this trivial $O(n \lg n)$ bit space bound, yet not compromise too much on the running time of these queries. In the {\it indexing} model, the space bound of our solution involves the quantity $m$, hence, we obtain different bounds for sparse and dense graphs respectively. In the {\it encoding} model, we first give a space lower bound, followed by an almost optimal data structure with extremely fast query time. Central to our algorithm is a partitioning of the DFS tree into connected subtrees, and a compact way to store these connections. Finally, we also apply these techniques to compactly index the shortest path structure, biconnectivity structures among others.
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