Linear-size suffix tries

Crochemore, Maxime; Epifanio, Chiara; Grossi, Roberto; Mignosi, Filippo

doi:10.1016/j.tcs.2016.04.002

Cited by 12 publications

(35 citation statements)

References 20 publications

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“…to edges in the suffix tree of T . This parallels the grammar implicit in [6] and explicit in [21], whose nonterminals correspond to unary paths in the suffix trie of T , i.e. to edges in the suffix tree of T .…”

Section: Cdawgmentioning

confidence: 72%

“…We achieve this by dropping the run-length-encoded representation of the Burrows-Wheeler transform of T , used in [2], and by exploiting the fact that the reversed CDAWG induces a context-free grammar that produces T and only T , as described in [1]. A related grammar, already implicit in [6], has been concurrently exploited in [21] to achieve similar bounds to ours. Note that in some strings, for example in the family T i for i ≥ 0, where T 0 = 0 and T i = T i−1 iT i−1 , the length of the string grows exponentially in the size of the CDAWG, thus shaving an O(log log n) term is identical to shaving an O(log e T ) term.…”

Section: Introductionmentioning

confidence: 99%

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Fast Label Extraction in the CDAWG

Belazzougui

Cunial

2017

Lecture Notes in Computer Science

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The compact directed acyclic word graph (CDAWG) of a string T of length n takes space proportional just to the number e of right extensions of the maximal repeats of T , and it is thus an appealing index for highly repetitive datasets, like collections of genomes from similar species, in which e grows significantly more slowly than n. We reduce from O(m log log n) to O(m) the time needed to count the number of occurrences of a pattern of length m, using an existing data structure that takes an amount of space proportional to the size of the CDAWG. This implies a reduction from O(m log log n + occ) to O(m + occ) in the time needed to locate all the occ occurrences of the pattern. We also reduce from O(k log log n) to O(k) the time needed to read the k characters of the label of an edge of the suffix tree of T , and we reduce from O(m log log n) to O(m) the time needed to compute the matching statistics between a query of length m and T , using an existing representation of the suffix tree based on the CDAWG. All such improvements derive from extracting the label of a vertex or of an arc of the CDAWG using a straight-line program induced by the reversed CDAWG.

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Section: Cdawgmentioning

confidence: 72%

Section: Introductionmentioning

confidence: 99%

Fast Label Extraction in the CDAWG

Belazzougui

Cunial

2017

Lecture Notes in Computer Science

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“…Proposition 1 (Crochemore et al [5]). For a text T of length n, the linear-size suffix trie LSTrie(T ) for T can be stored in O(n log n) bits of space supporting reconstruction of the label of a given edge in O(ℓ) time, where ℓ is the length of the edge label.…”

Section: Lstriementioning

confidence: 99%

“…Recently, Crochemore et al [5] proposed a compact variant of a suffix trie, called linear-size suffix trie (or LSTrie, for short), denoted LSTrie(T ). It is a compacted tree with the topology and the size similar to STree(T ), but has no indirect references to a text T (See Fig.…”

Section: Lstriementioning

confidence: 99%

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Linear-Size CDAWG: New Repetition-Aware Indexing and Grammar Compression

Takagi

Goto

Fujishige

et al. 2017

Lecture Notes in Computer Science

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In this paper, we propose a novel approach to combine compact directed acyclic word graphs (CDAWGs) and grammar-based compression. This leads us to an efficient self-index, called Linear-size CDAWGs (L-CDAWGs), which can be represented with O(ẽT log n) bits of space allowing for O(log n)-time random and O(1)-time sequential accesses to edge labels, and O(m log σ + occ)-time pattern matching. Here,ẽT is the number of all extensions of maximal repeats in T , n and m are respectively the lengths of the text T and a given pattern, σ is the alphabet size, and occ is the number of occurrences of the pattern in T . The repetitiveness measurẽ eT is known to be much smaller than the text length n for highly repetitive text. For constant alphabets, our L-CDAWGs achieve O(m + occ) pattern matching time with O(e r T log n) bits of space, which improves the pattern matching time of Belazzougui et al.'s run-length BWT-CDAWGs by a factor of log log n, with the same space complexity. Here, e r T is the number of right extensions of maximal repeats in T . As a byproduct, our result gives a way of constructing a straight-line program (SLP) of size O(ẽT ) for a given text T in O(n +ẽT log σ) time.

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Smaller Fully-Functional Bidirectional BWT Indexes

Belazzougui

Cunial

2020

String Processing and Information Retrieval

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Given a string T on an alphabet of size σ, we describe a bidirectional Burrows-Wheeler index that takes O(|T | log σ) bits of space, and that supports the addition and removal of one character, on the left or right side of any substring of T , in constant time. Previously known data structures that used the same space allowed constant-time addition to any substring of T , but they could support removal only from specific substrings of T . We also describe an index that supports bidirectional addition and removal in O(log log |T |) time, and that takes a number of words proportional to the number of left and right extensions of the maximal repeats of T . We use such fully-functional indexes to implement bidirectional, frequency-aware, variable-order de Bruijn graphs with no upper bound on their order, and supporting natural criteria for increasing and decreasing the order during traversal.

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Linear-size suffix tries

Cited by 12 publications

References 20 publications

Fast Label Extraction in the CDAWG

Fast Label Extraction in the CDAWG

Linear-Size CDAWG: New Repetition-Aware Indexing and Grammar Compression

Smaller Fully-Functional Bidirectional BWT Indexes

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