// Diff.java // --------- // part of YaCy // (C) by Michael Peter Christen; mc@yacy.net // first published on http://www.anomic.de // Frankfurt, Germany, 2007 // Created 03.02.2007 // // This file is contributed by Franz Brausze // // $LastChangedDate: $ // $LastChangedRevision: $ // $LastChangedBy: $ // // 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA package de.anomic.data; import java.util.ArrayList; import de.anomic.htmlFilter.htmlFilterCharacterCoding; /** * This class provides a diff-functionality. */ public class diff { private final ArrayList parts = new ArrayList(); private final Object[] o; private final Object[] n; /** * @param o the original String * @param n the new String * @throws NullPointerException if one of the arguments is null */ public diff(final String o, final String n) { this(o, n, 1); } /** * @param o the original String * @param n the new String * @param minConsecutive the minimum number of consecutive equal characters in * both Strings. Smaller seperations will only be performed on the end of either * String if needed * @throws NullPointerException if o or n is * null */ public diff(final String o, final String n, final int minConsecutive) { if (o == null || n == null) throw new NullPointerException("neither o nor n must be null"); this.o = new Comparable[o.length()]; for (int i=0; i 0) ? minConsecutive : 1); } public diff(final Object[] o, final Object[] n, final int minConsecutive) { if (o == null || n == null) throw new NullPointerException("neither o nor n must be null"); this.o = o; this.n = n; parse((minConsecutive > 0) ? minConsecutive : 1); } private void parse(final int minLength) { /* Matrix: find as long diagonals as possible, * delete the old horizontally and add the new vertically * * ~ OLD ~ * |T|H|E| |F|I|R|S|T| |S|E|N|T|E|N|C|E| * T|#| | | | | | | |#| | | | |#| | | | | * H| |#| | | | | | | | | | | | | | | | | * E| | |#| | | | | | | | |#| | |#| | |#| * | | | |#| | | | | |#| | | | | | | | | * N| | | | | | | | | | | | |#| | |#| | | * E| | |#| | | | | | | | |#| | |#| | |#| * ~ X| | | | | | | | | | | | | | | | | | | * N T|#| | | | | | | |#| | | | |#| | | | | * E | | | |#| | | | | |#| | | | | | | | | * W S| | | | | | | |#| | |#| | | | | | | | * ~ E| | |#| | | | | | | | |#| | |#| | |#| * N| | | | | | | | | | | | |#| | |#| | | * T|#| | | | | | | |#| | | | |#| | | | | * E| | |#| | | | | | | | |#| | |#| | |#| * N| | | | | | | | | | | | |#| | |#| | | * C| | | | | | | | | | | | | | | | |#| | * E| | |#| | | | | | | | |#| | |#| | |#| */ final boolean[][] matrix = new boolean[this.n.length][this.o.length]; for (int y=0; yminLength line by line in a submatrix * { x, y, matrix[0].length, matrix.length} of the matrix:
*       {_1,__,__} -> X axis
*      ,{__,_1,__}
*      ,{__,__,_1}
*

search for a better algorithm on the inet!!! :)
pass only the part of the matrix where the search takes place - not the whole matrix everytime
break the inner loop if the rest of the matrix is smaller than minLength (and no diagonal has been found yet)
return diagonal topologicaly closest to the {0,0}

* @param x the starting position of the search on the optical horizontal axis * @param y the starting position of the search on the optical vertical axis
* @param matrix the matrix to search through * @param minLength the minimal desired length of a diagonal to find * @return a vector in the form { diagStartX, diagStartY, diagLength } where diagLength >= minLength */ private static int[] findDiagonal(final int x, final int y, final boolean[][] matrix, final int minLength) { int rx, ry, yy, xx, i; for (yy=y; yy= minLength) return new int[] { rx, ry, i }; // swap back the x and y axes for better readability } return null; } /** * @return the original Object[] passed to this class on instantiation */ public Object[] getOriginal() { return this.o; } /** * @return the new Object[] passed to this class on instantiation */ public Object[] getNew() { return this.n; } /** * A diff is composed of different parts. Each of these parts stands for an * operation, like "do nothing", "add" or "delete". * * @see Part * @return all parts this diff consists of in correct order */ public Part[] getParts() { return this.parts.toArray(new Part[this.parts.size()]); } public String toString() { final StringBuilder sb = new StringBuilder(this.parts.size() * 20); for (int j=0; j *

unchanged

" STRING"

added

"+ STRING"

deleted

"- STRING"

* */ public String toString() { return ((this.action == UNCHANGED) ? " " : (this.action == ADDED) ? "+" : "-") + " " + getString(); } } public static String toHTML(final diff[] diffs) { final StringBuilder sb = new StringBuilder(diffs.length * 60); diff.Part[] ps; for (int i=0; i\n"); ps = diffs[i].getParts(); for (int j=0; j").append(htmlFilterCharacterCoding.unicode2html(ps[j].getString(), true).replaceAll("\n", "
")); sb.append(""); } sb.append("

"); } return new String(sb); } }