TY - JOUR
T1 - Let sleeping files lie
T2 - Pattern matching in Z-compressed files
AU - Amir, Amihood
AU - Benson, Gary
AU - Farach, Martin
N1 - Funding Information:
* Partially supported by NSF Grants CCR-92-23699 and IRI-90-13055. -Partially supported by NSF Grants DMS-90-05833 and DMS-87-20208. Supported by DIMACS under NSF Contract STC-88-09648.
PY - 1996/4
Y1 - 1996/4
N2 - The current explosion of stored information necessitates a new model of pattern matching, that of compressed matching. In this model one tries to find all occurrences of a pattern in a compressed text in time proportional to the compressed text size, i.e., without decompressing the text. The most effective general purpose compression algorithms are adaptive, in that the text represented by each compression symbol is determined dynamically by the data. As a result, the encoding of a sub-string depends on its location. Thus the same substring may "look different" every time it appears in the compressed text. In this paper we consider pattern matching without decompression in the UNIX Z-compression. This is a variant of the Lempel-Ziv adaptive compression scheme. If n is the length of the compressed text and m is the length of the pattern, our algorithms find the first pattern occurrence in time O(n+m2) or O(n log m+m). We also introduce a new criterion to measure compressed matching algorithms, that of extra space. We show how to modify our algorithms to achieve a trade-off between the amount of extra space used and the algorithm's time complexity.
AB - The current explosion of stored information necessitates a new model of pattern matching, that of compressed matching. In this model one tries to find all occurrences of a pattern in a compressed text in time proportional to the compressed text size, i.e., without decompressing the text. The most effective general purpose compression algorithms are adaptive, in that the text represented by each compression symbol is determined dynamically by the data. As a result, the encoding of a sub-string depends on its location. Thus the same substring may "look different" every time it appears in the compressed text. In this paper we consider pattern matching without decompression in the UNIX Z-compression. This is a variant of the Lempel-Ziv adaptive compression scheme. If n is the length of the compressed text and m is the length of the pattern, our algorithms find the first pattern occurrence in time O(n+m2) or O(n log m+m). We also introduce a new criterion to measure compressed matching algorithms, that of extra space. We show how to modify our algorithms to achieve a trade-off between the amount of extra space used and the algorithm's time complexity.
UR - http://www.scopus.com/inward/record.url?scp=0030129729&partnerID=8YFLogxK
U2 - 10.1006/jcss.1996.0023
DO - 10.1006/jcss.1996.0023
M3 - Article
AN - SCOPUS:0030129729
SN - 0022-0000
VL - 52
SP - 299
EP - 307
JO - Journal of Computer and System Sciences
JF - Journal of Computer and System Sciences
IS - 2
ER -