Provided by: libtext-wagnerfischer-perl_0.04-2_all bug

NAME

       Text::WagnerFischer - An implementation of the Wagner-Fischer edit distance

SYNOPSIS

        use Text::WagnerFischer qw(distance);

        print distance("foo","four");# prints "2"

        print distance([0,1,2],"foo","four");# prints "3"

        my @words=("four","foo","bar");

        my @distances=distance("foo",@words);
        print "@distances"; # prints "2 0 3"

        @distances=distance([0,2,1],"foo",@words);
        print "@distances"; # prints "3 0 3"

DESCRIPTION

       This module implements the Wagner-Fischer dynamic programming technique, used here to
       calculate the edit distance of two strings.  The edit distance is a measure of the degree
       of proximity between two strings, based on "edits": the operations of substitutions,
       deletions or insertions needed to transform the string into the other one (and vice
       versa).  A cost (weight) is needed for every of the operation defined above:

                   / a if x=y (cost for letter match)
        w(x,y) =  |  b if x=- or y=- (cost for insertion/deletion operation)
                   \ c if x!=y (cost for letter mismatch)

       These costs are given through an array reference as first argument of the distance
       subroutine: [a,b,c].  If the costs are not given, a default array cost is used: [0,1,1]
       that is the case of the Levenshtein edit distance:

                   / 0 if x=y (cost for letter match)
        w(x,y) =  |  1 if x=- or y=- (cost for insertion/deletion operation)
                   \ 1 if x!=y (cost for letter mismatch)

       This particular distance is the exact number of edit needed to transform the string into
       the other one (and vice versa).  When two strings have distance 0, they are the same.
       Note that the distance is calculated to reach the _minimum_ cost, i.e.  choosing the most
       economic operation for each edit.

EXTENDING (by Daniel Yacob)

       New modules may build upon Text::WagnerFischer as a base class.  This is practical when
       you would like to apply the algorithm to non-Roman character sets or would like to change
       some part of the algorithm but not another.

       The following example demonstrates how to use the WagnerFisher distance algorithm but
       apply your own weight function in a new package:

         package Text::WagnerFischer::MyModule;
         use base qw( Text::WagnerFischer );

         #
         # Link to the WagnerFisher "distance" function so that the
         # new module may also export it:
         #
         use vars qw(@EXPORT_OK);

         @EXPORT_OK = qw(&distance);

         *distance = \&Text::WagnerFischer::distance;

         #
         # "override" the _weight function with the a one:
         #
         *Text::WagnerFischer::_weight = \&_my_weight;

         #
         # "override" the default WagnerFischer "costs" table:
         #
         $Text::WagnerFischer::REFC = [0,2,3,1,1];

         sub _my_weight {
           :
           :
           :
         }

AUTHOR

       Copyright 2002,2003 Dree Mistrut <dree@friul.it>

       This package is free software and is provided "as is" without express or implied warranty.
       You can redistribute it and/or modify it under the same terms as Perl itself.

SEE ALSO

       "Text::Levenshtein", "Text::PhraseDistance"