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/* ****************************************************************************
Copyright (C) 2003-2004 Eva Brucherseifer <eva.brucherseifer@basyskom.com>
2005 Stanislav visnovsky <visnovsky@kde.org>
This file is part of the KDE project
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
In addition, as a special exception, the copyright holders give
permission to link the code of this program with any edition of
the TQt library by Trolltech AS, Norway (or with modified versions
of TQt that use the same license as TQt), and distribute linked
combinations including the two. You must obey the GNU General
Public License in all respects for all of the code used other than
TQt. If you modify this file, you may extend this exception to
your version of the file, but you are not obligated to do so. If
you do not wish to do so, delete this exception statement from
your version.
**************************************************************************** */
#include "stringdistance.h"
using namespace std;
//! Debug-Messages 0 : off 1 : a few 10 : more
int Distance::debug = 0;
const int Distance::editCost_replace_base = 1;
const int HammingDistance::editCost = 1;
const int LevenshteinDistance::editCost_tqreplace = 1;
const int LevenshteinDistance::editCost_insert = 1;
const int LevenshteinDistance::editCost_delete = 1;
double relativeDistance(double distance, const TQString& left_string, const TQString& right_string)
{
double maxsize=0;
double compsize=0;
maxsize = left_string.length();
compsize=right_string.length();
if (compsize>maxsize)
maxsize=compsize;
return distance/(double)maxsize;
}
/** This function walk trough the treeS(left & right) at the same time.
* There are in both entities the same number of trees!
* This function sums all the distances between all trees.
* For the calculation of the distance between two trees, it calls the function calculate.
*/
double Distance::operator()(const TQString& left_string, const TQString& right_string)
{
m_distance = 0.00;
if (left_string == right_string)
return 0.00; // saves calculation time, both entities are the same
// swap strings, our matrix requires that
if (left_string.length () < right_string.length() )
{
m_distance = calculate(right_string, left_string);
}
else
{
m_distance = calculate(left_string, right_string);
}
// if (debug > 0) cout << " --> total distance: " << m_distance << endl;
return m_distance;
}
/** This function calculates the distance between two nodes.
* For the calculation you can specify two variables gap & distance.
*/
int Distance::nodeDistance(const TQString& left_letter, const TQString& right_letter)
{
if ( left_letter == right_letter )
{
// if (debug > 0) cout << ".";
return 0;
}
else
{
// if (debug > 0) cout << "!";
return editCostReplace();
}
}
/** This function walks along the treeS(left & right) at the same time.
* There are in both entities the same number of nodes, hopefully! But it doesn't care.
* This function sums all the distances between all nodes.
* For the calculation you can specify the distance between two nodes in variable distance
*/
double HammingDistance::calculate(const TQString& left_string, const TQString& right_string)
{
double hammingDistance = 0.00;
// if (debug > 0)
// cout << left_string.length() << " " << right_string.length() << "\t";
unsigned int i=0;
unsigned int j=0;
for ( ; i != left_string.length() && j != right_string.length() ;
++i,++j)
hammingDistance += double(nodeDistance(left_string[i], right_string[i]));
for ( ; i != left_string.length() ; ++i )
{
++hammingDistance;
// if (debug > 9) cout << "!";
}
for ( ; j != right_string.length() ; ++j)
{
++hammingDistance;
// if (debug > 9) cout << "!";
}
return hammingDistance;
}
/** This function walk along the treeS(left & right) at the same time.
* It uses the Levenshtein-algorithm for the calculation of the distance between two trees.
* A matrice D is generated which represent the distribution of distances between two trees.
* The last element represent the Levenshtein-distance.
*/
double LevenshteinDistance::calculate(const TQString& left_string, const TQString& right_string)
{
// if (debug > 0)
// cout << left_string.length() << " " << right_string.length() << "\t";
unsigned int left_size = left_string.length()+1;
unsigned int right_size = right_string.length()+1;
int *_D = new int[left_size * right_size];
for (unsigned int i = 0 ; i < left_size * right_size; i++ )
_D[i] = 0;
#define D(a,b) (_D[(a)+(b)*left_size])
// boost::numeric::ublas::matrix<int> D(left_size, right_size);
// D = zero_boost::numeric::ublas::matrix<int>(left_size, right_size);
unsigned int l,r;
D(0,0) = 0;
for(l = 1; l < left_size; l++)
D(l,0) = D(l-1,0) + editCost_delete;
for(r = 1; r < right_size; r++)
D(0,r) = D(0,r-1) + editCost_insert;
int tmp_value;
for(l = 1; l < left_size; l++)
{
for(r = 1; r < right_size; r++)
{
tmp_value = TQMIN( ( D(l-1,r) + editCost_delete ),
( D(l-1,r-1) + nodeDistance(left_string[l-1], right_string[r-1]) ) ) ;
D(l,r) = TQMIN( tmp_value,
( D(l,r-1) + editCost_insert ) );
}
}
double res (D(left_size-1,right_size-1));
delete[] _D;
return res;
}
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