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BWT Backward Search
Author: Magnus Hagmar
ZID: z5088131

The provided code implements BWT backward searching, as proposed by Paolo
Ferragina and Giovanni Manzini, in a BWT encoded record file.

The main bottleneck of BWT backward search is counting the number of previous
occurrences of a character in the file. The number of calls to the occurrence
function (occ) is linear in the length of the search pattern when searching
for any matching occurrences. In addition to this, one call to occ is required
for every single step when backtracking from a result to determine which
record it belongs to. This could result in hundreds or even thousands of calls.
Clearly, a naive implementation of counting every character up to the desired
point is not plausible.

This implementation generates an index file to speed up the occ function. This
file is created by reading characters from the input file while keeping count
of how many of each have occurred. Every time 392 (this seemingly random number
will be explained later) characters have been read, the current occurrence
counts for all characters up to that point are written to the index file as a
block.

By utilizing an index constructed in this way, the number of characters which
have to be read from the input file can be minimized. For example, if counting
the number of 'A's which have occurred up until index 800, we could use the
index to extract the number of 'A's up until index 2*392=784 and then simply
check the remaining 16 characters to see if they are also 'A'. This is
significantly faster than reading and observing all 800 characters up to that
point.

The choice to read 392 characters into each block is not random, but rather the
optimal choice considering the specifications and limitations of the task.
First of all, there are only 98 characters which can occurr in the text file
(tab, newline, carriage return and the visible ASCII characters 32-126). As
such, the size of a block of occurrences written to disk is 98*4=392 bytes. The
four comes from using an unsigned int to store the occurrences of each
character. There is also a limitation that the index file is not permitted to
exceed the original file in size. So if a block requires 392 bytes of disk
space, then we need to include 392 bytes from the original file in each block.
If less than 392 characters were counted for each block, then the index file
would grow larger than the original file. It is possible to count more than 392
characters into each block, which would result in a smaller index file, but
that would also result in a less accurate index and more characters having to
be counted when running the occ function.



Description of the different files:

- index.h & index.cpp
    These files implement a an Index class, managing all usage of the
    occurrence index and C-table required for performing BWT backward search.
    Since the occurrence index only keeps track of 98 characters, a mapping is
    required from each character to its corresponding index in the 98 elements.
    An array "charMap" is used for this, indexed simply by the characters'
    numerical value and mapping to their new index in the compressed array.

    Creation of the index file as described above is managed by the Index
    class. The C-table is created by fetching the last occurrence block and
    then counting any remaining characters which haven't been included in the
    block. In addition to this, the C-table contains an extra entry after ASCII
    character 126. This is due to being required to look up C[c+1] in the
    backward search algorithm. Without this additional dummy character, this
    lookup would fail when c is '~', ASCII number 126. The charMap described
    above also contains dummy entries to prevent these failures.

- bwtsearch.h & bwtsearch.cpp
    These files implement the main function as well as the actual backward
    search algorithm and functions for interpreting the search results. The
    backward search is identical to Ferragina's and Manzini's algorithm, except
    for the detail that all indexing is zero-based to simplify indexing in
    arrays.

    The findRecords function implements a BWT decoder to step backwards through
    the original file in order to find the record to which a search result
    belongs to. This set of records is then either counted or printed,
    depending on the mode of searching.

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