127 research outputs found
Improved Approximate String Matching and Regular Expression Matching on Ziv-Lempel Compressed Texts
We study the approximate string matching and regular expression matching
problem for the case when the text to be searched is compressed with the
Ziv-Lempel adaptive dictionary compression schemes. We present a time-space
trade-off that leads to algorithms improving the previously known complexities
for both problems. In particular, we significantly improve the space bounds,
which in practical applications are likely to be a bottleneck
Searching and Indexing Genomic Databases via Kernelization
The rapid advance of DNA sequencing technologies has yielded databases of
thousands of genomes. To search and index these databases effectively, it is
important that we take advantage of the similarity between those genomes.
Several authors have recently suggested searching or indexing only one
reference genome and the parts of the other genomes where they differ. In this
paper we survey the twenty-year history of this idea and discuss its relation
to kernelization in parameterized complexity
Efficient LZ78 factorization of grammar compressed text
We present an efficient algorithm for computing the LZ78 factorization of a
text, where the text is represented as a straight line program (SLP), which is
a context free grammar in the Chomsky normal form that generates a single
string. Given an SLP of size representing a text of length , our
algorithm computes the LZ78 factorization of in time
and space, where is the number of resulting LZ78 factors.
We also show how to improve the algorithm so that the term in the
time and space complexities becomes either , where is the length of the
longest LZ78 factor, or where is a quantity
which depends on the amount of redundancy that the SLP captures with respect to
substrings of of a certain length. Since where
is the alphabet size, the latter is asymptotically at least as fast as
a linear time algorithm which runs on the uncompressed string when is
constant, and can be more efficient when the text is compressible, i.e. when
and are small.Comment: SPIRE 201
Regular Expression Search on Compressed Text
We present an algorithm for searching regular expression matches in
compressed text. The algorithm reports the number of matching lines in the
uncompressed text in time linear in the size of its compressed version. We
define efficient data structures that yield nearly optimal complexity bounds
and provide a sequential implementation --zearch-- that requires up to 25% less
time than the state of the art.Comment: 10 pages, published in Data Compression Conference (DCC'19
Matching of Compressed Patterns with Character-Variables
We consider the problem of finding an instance of a string-pattern s in a given string under compression by straight line programs (SLP). The variables of the string pattern can be instantiated by single characters. This is a generalisation of the fully compressed pattern match, which is the task of finding a compressed string in another compressed string, which is known to have a polynomial time algorithm.
We mainly investigate patterns s that are linear in the variables, i.e. variables occur at most once in s, also known as partial words.
We show that fully compressed pattern matching with linear patterns can be performed in polynomial time. A polynomial-sized representation of all matches and all substitutions is also computed.
Also, a related algorithm is given that computes all periods of a compressed linear pattern in polynomial time. A technical key result on the structure of partial words shows that an overlap of h+2 copies of a partial word w with at most h holes implies that w is strongly periodic
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