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Substring index

From Wikipedia, the free encyclopedia

In computer science, a substring index is a data structure which gives substring search in a text or text collection in sublinear time. Once constructed from a document or set of documents, a substring index can be used to locate all occurrences of a pattern in time linear or near-linear in the pattern size, with no dependence or only logarithmic dependence on the document size.[1]

The phrase full-text index is often used for substring indexes. But this is ambiguous, as it is also used for regular word indexes such as inverted files and document retrieval. See full text search.

General considerations

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These data structures typically treat their text and pattern as strings over a fixed alphabet, and search for locations where the pattern occurs as a substring of the text. The symbols of the alphabet may be characters (for instance in Unicode) but in practical applications for text retrieval it may be preferable to treat the (stemmed) words of a document as the symbols of its alphabet, because doing this reduces the lengths of both the text and pattern as measured in numbers of symbols.[2]

Examples

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Specific data structures that can be used as substring indexes include:

References

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  1. ^ a b c d Barsky, Marina; Stege, Ulrike; Thomo, Alex (2012), "Chapter 1: Structures for Indexing Substrings", Full-Text (Substring) Indexes in External Memory, Synthesis Lectures on Data Management, Springer International Publishing, pp. 1–15, doi:10.1007/978-3-031-01885-5_1, ISBN 9783031018855
  2. ^ Risvik, Knut Magne (1998), "Approximate word sequence matching over sparse suffix trees", in Farach-Colton, Martin (ed.), Combinatorial Pattern Matching, 9th Annual Symposium, CPM 98, Piscataway, New Jersey, USA, July 20–22, 1998, Proceedings, Lecture Notes in Computer Science, vol. 1448, Springer, pp. 65–79, doi:10.1007/BFB0030781
  3. ^ a b c Grossi, Roberto; Vitter, Jeffrey Scott (2005), "Compressed suffix arrays and suffix trees with applications to text indexing and string matching" (PDF), SIAM Journal on Computing, 35 (2): 378–407, doi:10.1137/S0097539702402354, MR 2191449
  4. ^ Blumer, Anselm; Blumer, J.; Ehrenfeucht, Andrzej; Haussler, David; McConnell, Ross M. (1984), "Building the minimal DFA for the set of all subwords of a word on-line in linear time", in Paredaens, Jan (ed.), Automata, Languages and Programming, 11th Colloquium, Antwerp, Belgium, July 16–20, 1984, Proceedings, Lecture Notes in Computer Science, vol. 172, Springer, pp. 109–118, doi:10.1007/3-540-13345-3_9
  5. ^ Manber, Udi; Myers, Gene (1993), "Suffix arrays: a new method for on-line string searches", SIAM Journal on Computing, 22 (5): 935–948, doi:10.1137/0222058, MR 1237156
  6. ^ Ferragina, Paolo; Manzini, Giovanni (2005), "Indexing compressed text", Journal of the ACM, 52 (4): 552–581, doi:10.1145/1082036.1082039, MR 2164632