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/**
*******************************************************************************
* Copyright (C) 1996-2009, International Business Machines Corporation and *
* others. All Rights Reserved. *
*******************************************************************************
*/
package com.ibm.icu.impl;
/** VERY Basic Diff program. Compares two sequences of objects fed into it, and
* lets you know where they are different.
* @author Mark Davis
* @version 1.0
*/
final public class Differ {
// public static final String copyright =
// "Copyright (C) 2010, International Business Machines Corporation and others. All Rights Reserved.";
/**
* @param stackSize The size of the largest difference you expect.
* @param matchCount The number of items that have to be the same to count as a match
*/
@SuppressWarnings("unchecked")
public Differ(int stackSize, int matchCount) {
this.STACKSIZE = stackSize;
this.EQUALSIZE = matchCount;
a = (T[]) new Object[stackSize+matchCount];
b = (T[]) new Object[stackSize+matchCount];
}
public void add (T aStr, T bStr) {
addA(aStr);
addB(bStr);
}
public void addA (T aStr) {
flush();
a[aCount++] = aStr;
}
public void addB (T bStr) {
flush();
b[bCount++] = bStr;
}
public int getALine(int offset) {
return aLine + maxSame + offset;
}
public T getA(int offset) {
if (offset < 0) return last;
if (offset > aTop-maxSame) return next;
return a[offset];
}
public int getACount() {
return aTop-maxSame;
}
public int getBCount() {
return bTop-maxSame;
}
public int getBLine(int offset) {
return bLine + maxSame + offset;
}
public T getB(int offset) {
if (offset < 0) return last;
if (offset > bTop-maxSame) return next;
return b[offset];
}
public void checkMatch(boolean finalPass) {
// find the initial strings that are the same
int max = aCount;
if (max > bCount) max = bCount;
int i;
for (i = 0; i < max; ++i) {
if (!a[i].equals(b[i])) break;
}
// at this point, all items up to i are equal
maxSame = i;
aTop = bTop = maxSame;
if (maxSame > 0) last = a[maxSame-1];
next = null;
if (finalPass) {
aTop = aCount;
bTop = bCount;
next = null;
return;
}
if (aCount - maxSame < EQUALSIZE || bCount - maxSame < EQUALSIZE) return;
// now see if the last few a's occur anywhere in the b's, or vice versa
int match = find (a, aCount-EQUALSIZE, aCount, b, maxSame, bCount);
if (match != -1) {
aTop = aCount-EQUALSIZE;
bTop = match;
next = a[aTop];
return;
}
match = find (b, bCount-EQUALSIZE, bCount, a, maxSame, aCount);
if (match != -1) {
bTop = bCount-EQUALSIZE;
aTop = match;
next = b[bTop];
return;
}
if (aCount >= STACKSIZE || bCount >= STACKSIZE) {
// flush some of them
aCount = (aCount + maxSame) / 2;
bCount = (bCount + maxSame) / 2;
next = null;
}
}
/** Convenient utility
* finds a segment of the first array in the second array.
* @return -1 if not found, otherwise start position in b
*/
public int find (T[] aArr, int aStart, int aEnd, T[] bArr, int bStart, int bEnd) {
int len = aEnd - aStart;
int bEndMinus = bEnd - len;
tryA:
for (int i = bStart; i <= bEndMinus; ++i) {
for (int j = 0; j < len; ++j) {
if (!bArr[i + j].equals(aArr[aStart + j])) continue tryA;
}
return i; // we have a match!
}
return -1;
}
// ====================== PRIVATES ======================
private void flush() {
if (aTop != 0) {
int newCount = aCount-aTop;
System.arraycopy(a, aTop, a, 0, newCount);
aCount = newCount;
aLine += aTop;
aTop = 0;
}
if (bTop != 0) {
int newCount = bCount-bTop;
System.arraycopy(b, bTop, b, 0, newCount);
bCount = newCount;
bLine += bTop;
bTop = 0;
}
}
private int STACKSIZE;
private int EQUALSIZE;
private T [] a;
private T [] b;
private T last = null;
private T next = null;
private int aCount = 0;
private int bCount = 0;
private int aLine = 1;
private int bLine = 1;
private int maxSame = 0, aTop = 0, bTop = 0;
}