org.eclipse.compare.rangedifferencer.RangeDifferencer Maven / Gradle / Ivy
Show all versions of docx4j-diffx Show documentation
/*******************************************************************************
* Copyright (c) 2000, 2007 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM Corporation - initial API and implementation
*******************************************************************************/
package org.eclipse.compare.rangedifferencer;
import java.util.ArrayList;
import java.util.List;
import org.eclipse.compare.internal.CompareMessages;
import org.eclipse.compare.internal.LCSSettings;
/**
* A RangeDifferencer finds the differences between two or three
* IRangeComparators.
*
* To use the differencer, clients provide an IRangeComparator
* that breaks their input data into a sequence of comparable entities. The
* differencer returns the differences among these sequences as an array of
* RangeDifference objects (findDifferences
* methods). Every RangeDifference represents a single kind of
* difference and the corresponding ranges of the underlying comparable entities
* in the left, right, and optionally ancestor sides.
*
* Alternatively, the findRanges methods not only return objects
* for the differing ranges but for non-differing ranges too.
*
* The algorithm used is an objectified version of one described in: A File
* Comparison Program, by Webb Miller and Eugene W. Myers, Software
* Practice and Experience, Vol. 15, Nov. 1985.
*
* @see IRangeComparator
* @see RangeDifference
*/
public final class RangeDifferencer {
private static final RangeDifference[] EMPTY_RESULT = new RangeDifference[0];
/*
* (non Javadoc) Cannot be instantiated!
*/
private RangeDifferencer() {
// nothing to do
}
/**
* Finds the differences between two IRangeComparators. The
* differences are returned as an array of RangeDifferences.
* If no differences are detected an empty array is returned.
*
* @param left
* the left range comparator
* @param right
* the right range comparator
* @return an array of range differences, or an empty array if no
* differences were found
*/
// public static RangeDifference[] findDifferences(LCSSettings settings,
// IRangeComparator left, IRangeComparator right) {
// return findDifferences( settings, left, right);
// }
/**
* Finds the differences between two IRangeComparators. The
* differences are returned as an array of RangeDifferences.
* If no differences are detected an empty array is returned.
*
* @param left
* the left range comparator
* @param right
* the right range comparator
* @return an array of range differences, or an empty array if no
* differences were found
*/
public static RangeDifference[] findDifferences(IRangeComparator left,
IRangeComparator right) {
return findDifferences( new LCSSettings(),
left, right);
}
/**
* Finds the differences between two IRangeComparators. The
* differences are returned as an array of RangeDifferences.
* If no differences are detected an empty array is returned.
*
* @param pm
* if not null used to report progress
* @param left
* the left range comparator
* @param right
* the right range comparator
* @return an array of range differences, or an empty array if no
* differences were found
* @since 2.0
*/
public static RangeDifference[] findDifferences(
LCSSettings settings, IRangeComparator left, IRangeComparator right) {
if (!settings.isUseGreedyMethod()) {
return OldDifferencer.findDifferences( left, right);
}
return RangeComparatorLCS.findDifferences( settings, left, right);
}
/**
* Finds the differences among three IRangeComparators. The
* differences are returned as a list of RangeDifferences.
* If no differences are detected an empty list is returned. If the ancestor
* range comparator is null, a two-way comparison is
* performed.
*
* @param pm
* if not null used to report progress
* @param ancestor
* the ancestor range comparator or null
* @param left
* the left range comparator
* @param right
* the right range comparator
* @return an array of range differences, or an empty array if no
* differences were found
* @since 2.0
*/
public static RangeDifference[] findDifferences(
LCSSettings settings, IRangeComparator ancestor,
IRangeComparator left, IRangeComparator right) {
if (ancestor == null)
return findDifferences( settings, left, right);
RangeDifference[] leftAncestorScript = null;
RangeDifference[] rightAncestorScript = findDifferences( settings, ancestor, right);
if (rightAncestorScript != null) {
leftAncestorScript = findDifferences(settings, ancestor, left);
}
if (rightAncestorScript == null || leftAncestorScript == null)
return null;
DifferencesIterator myIter = new DifferencesIterator(
rightAncestorScript);
DifferencesIterator yourIter = new DifferencesIterator(
leftAncestorScript);
List diff3 = new ArrayList();
diff3.add(new RangeDifference(RangeDifference.ERROR)); // add a
// sentinel
int changeRangeStart = 0;
int changeRangeEnd = 0;
//
// Combine the two two-way edit scripts into one
//
while (myIter.fDifference != null || yourIter.fDifference != null) {
DifferencesIterator startThread;
myIter.removeAll();
yourIter.removeAll();
//
// take the next diff that is closer to the start
//
if (myIter.fDifference == null)
startThread = yourIter;
else if (yourIter.fDifference == null)
startThread = myIter;
else { // not at end of both scripts take the lowest range
if (myIter.fDifference.fLeftStart <= yourIter.fDifference.fLeftStart) // 2 ->
// common
// (Ancestor)
// change
// range
startThread = myIter;
else
startThread = yourIter;
}
changeRangeStart = startThread.fDifference.fLeftStart;
changeRangeEnd = startThread.fDifference.leftEnd();
startThread.next();
//
// check for overlapping changes with other thread
// merge overlapping changes with this range
//
DifferencesIterator other = startThread.other(myIter, yourIter);
while (other.fDifference != null
&& other.fDifference.fLeftStart <= changeRangeEnd) {
int newMax = other.fDifference.leftEnd();
other.next();
if (newMax >= changeRangeEnd) {
changeRangeEnd = newMax;
other = other.other(myIter, yourIter);
}
}
diff3.add(createRangeDifference3(myIter, yourIter, diff3,
right, left, changeRangeStart, changeRangeEnd));
}
// remove sentinel
diff3.remove(0);
return (RangeDifference[]) diff3.toArray(EMPTY_RESULT);
}
/**
* Finds the differences among two IRangeComparators. In
* contrast to findDifferences, the result contains
* RangeDifference elements for non-differing ranges too.
*
* @param left
* the left range comparator
* @param right
* the right range comparator
* @return an array of range differences
* @since 2.0
*/
public static RangeDifference[] findRanges(
LCSSettings settings, IRangeComparator left, IRangeComparator right) {
RangeDifference[] in = findDifferences( settings, left, right);
List out = new ArrayList();
RangeDifference rd;
int mstart = 0;
int ystart = 0;
for (int i = 0; i < in.length; i++) {
RangeDifference es = in[i];
rd = new RangeDifference(RangeDifference.NOCHANGE, mstart, es
.rightStart()
- mstart, ystart, es.leftStart() - ystart);
if (rd.maxLength() != 0)
out.add(rd);
out.add(es);
mstart = es.rightEnd();
ystart = es.leftEnd();
}
rd = new RangeDifference(RangeDifference.NOCHANGE, mstart, right
.getRangeCount()
- mstart, ystart, left.getRangeCount() - ystart);
if (rd.maxLength() > 0)
out.add(rd);
return (RangeDifference[]) out.toArray(EMPTY_RESULT);
}
/**
* Finds the differences among three IRangeComparators. In
* contrast to findDifferences, the result contains
* RangeDifference elements for non-differing ranges too. If
* the ancestor range comparator is null, a two-way
* comparison is performed.
*
* @param ancestor
* the ancestor range comparator or null
* @param left
* the left range comparator
* @param right
* the right range comparator
* @return an array of range differences
*/
// public static RangeDifference[] findRanges(LCSSettings settings,
// IRangeComparator ancestor, IRangeComparator left,
// IRangeComparator right) {
// return findRanges( settings, ancestor, left, right);
// }
/**
* Finds the differences among three IRangeComparators. In
* contrast to findDifferences, the result contains
* RangeDifference elements for non-differing ranges too. If
* the ancestor range comparator is null, a two-way
* comparison is performed.
*
* @param pm
* if not null used to report progress
* @param ancestor
* the ancestor range comparator or null
* @param left
* the left range comparator
* @param right
* the right range comparator
* @return an array of range differences
* @since 2.0
*/
public static RangeDifference[] findRanges(
LCSSettings settings, IRangeComparator ancestor,
IRangeComparator left, IRangeComparator right) {
if (ancestor == null)
return findRanges(settings, left, right);
RangeDifference[] in = findDifferences(settings, ancestor, left,
right);
List out = new ArrayList();
RangeDifference rd;
int mstart = 0;
int ystart = 0;
int astart = 0;
for (int i = 0; i < in.length; i++) {
RangeDifference es = in[i];
rd = new RangeDifference(RangeDifference.NOCHANGE, mstart, es
.rightStart()
- mstart, ystart, es.leftStart() - ystart, astart, es
.ancestorStart()
- astart);
if (rd.maxLength() > 0)
out.add(rd);
out.add(es);
mstart = es.rightEnd();
ystart = es.leftEnd();
astart = es.ancestorEnd();
}
rd = new RangeDifference(RangeDifference.NOCHANGE, mstart, right
.getRangeCount()
- mstart, ystart, left.getRangeCount() - ystart, astart,
ancestor.getRangeCount() - astart);
if (rd.maxLength() > 0)
out.add(rd);
return (RangeDifference[]) out.toArray(EMPTY_RESULT);
}
// ---- private methods
/*
* Creates a RangeDifference3 given the state of two
* DifferenceIterators.
*/
private static RangeDifference createRangeDifference3(
DifferencesIterator myIter, DifferencesIterator yourIter,
List diff3, IRangeComparator right, IRangeComparator left,
int changeRangeStart, int changeRangeEnd) {
int rightStart, rightEnd;
int leftStart, leftEnd;
int kind = RangeDifference.ERROR;
RangeDifference last = (RangeDifference) diff3.get(diff3.size() - 1);
// Assert.isTrue((myIter.getCount() != 0 || yourIter.getCount() != 0)); // At
// least
// one
// range
// array
// must
// be
// non-empty
//
// find corresponding lines to fChangeRangeStart/End in right and left
//
if (myIter.getCount() == 0) { // only left changed
rightStart = changeRangeStart - last.ancestorEnd()
+ last.rightEnd();
rightEnd = changeRangeEnd - last.ancestorEnd() + last.rightEnd();
kind = RangeDifference.LEFT;
} else {
RangeDifference f = (RangeDifference) myIter.fRange.get(0);
RangeDifference l = (RangeDifference) myIter.fRange
.get(myIter.fRange.size() - 1);
rightStart = changeRangeStart - f.fLeftStart + f.fRightStart;
rightEnd = changeRangeEnd - l.leftEnd() + l.rightEnd();
}
if (yourIter.getCount() == 0) { // only right changed
leftStart = changeRangeStart - last.ancestorEnd() + last.leftEnd();
leftEnd = changeRangeEnd - last.ancestorEnd() + last.leftEnd();
kind = RangeDifference.RIGHT;
} else {
RangeDifference f = (RangeDifference) yourIter.fRange.get(0);
RangeDifference l = (RangeDifference) yourIter.fRange
.get(yourIter.fRange.size() - 1);
leftStart = changeRangeStart - f.fLeftStart + f.fRightStart;
leftEnd = changeRangeEnd - l.leftEnd() + l.rightEnd();
}
if (kind == RangeDifference.ERROR) { // overlapping change (conflict)
// -> compare the changed ranges
if (rangeSpansEqual(right, rightStart, rightEnd - rightStart, left,
leftStart, leftEnd - leftStart))
kind = RangeDifference.ANCESTOR;
else
kind = RangeDifference.CONFLICT;
}
return new RangeDifference(kind, rightStart, rightEnd - rightStart,
leftStart, leftEnd - leftStart, changeRangeStart,
changeRangeEnd - changeRangeStart);
}
/*
* Tests whether right and left changed in the
* same way
*/
private static boolean rangeSpansEqual(IRangeComparator right,
int rightStart, int rightLen, IRangeComparator left, int leftStart,
int leftLen) {
if (rightLen == leftLen) {
int i = 0;
for (i = 0; i < rightLen; i++) {
if (!rangesEqual(right, rightStart + i, left, leftStart + i))
break;
}
if (i == rightLen)
return true;
}
return false;
}
/*
* Tests if two ranges are equal
*/
private static boolean rangesEqual(IRangeComparator a, int ai,
IRangeComparator b, int bi) {
return a.rangesEqual(ai, b, bi);
}
}