org.tukaani.xz.lz.HC4 Maven / Gradle / Ivy
/*
* Hash Chain match finder with 2-, 3-, and 4-byte hashing
*
* Authors: Lasse Collin
* Igor Pavlov LZEncoder.getInstance for parameter descriptions.
*/
HC4(int dictSize, int beforeSizeMin, int readAheadMax,
int niceLen, int matchLenMax, int depthLimit) {
super(dictSize, beforeSizeMin, readAheadMax, niceLen, matchLenMax);
hash = new Hash234(dictSize);
// +1 because we need dictSize bytes of history + the current byte.
cyclicSize = dictSize + 1;
chain = new int[cyclicSize];
lzPos = cyclicSize;
// Substracting 1 because the shortest match that this match
// finder can find is 2 bytes, so there's no need to reserve
// space for one-byte matches.
matches = new Matches(niceLen - 1);
// Use a default depth limit if no other value was specified.
// The default is just something based on experimentation;
// it's nothing magic.
this.depthLimit = (depthLimit > 0) ? depthLimit : 4 + niceLen / 4;
}
/**
* Moves to the next byte, checks that there is enough available space,
* and possibly normalizes the hash tables and the hash chain.
*
* @return number of bytes available, including the current byte
*/
private int movePos() {
int avail = movePos(4, 4);
if (avail != 0) {
if (++lzPos == Integer.MAX_VALUE) {
int normalizationOffset = Integer.MAX_VALUE - cyclicSize;
hash.normalize(normalizationOffset);
normalize(chain, normalizationOffset);
lzPos -= normalizationOffset;
}
if (++cyclicPos == cyclicSize)
cyclicPos = 0;
}
return avail;
}
public Matches getMatches() {
matches.count = 0;
int matchLenLimit = matchLenMax;
int niceLenLimit = niceLen;
int avail = movePos();
if (avail < matchLenLimit) {
if (avail == 0)
return matches;
matchLenLimit = avail;
if (niceLenLimit > avail)
niceLenLimit = avail;
}
hash.calcHashes(buf, readPos);
int delta2 = lzPos - hash.getHash2Pos();
int delta3 = lzPos - hash.getHash3Pos();
int currentMatch = hash.getHash4Pos();
hash.updateTables(lzPos);
chain[cyclicPos] = currentMatch;
int lenBest = 0;
// See if the hash from the first two bytes found a match.
// The hashing algorithm guarantees that if the first byte
// matches, also the second byte does, so there's no need to
// test the second byte.
if (delta2 < cyclicSize && buf[readPos - delta2] == buf[readPos]) {
lenBest = 2;
matches.len[0] = 2;
matches.dist[0] = delta2 - 1;
matches.count = 1;
}
// See if the hash from the first three bytes found a match that
// is different from the match possibly found by the two-byte hash.
// Also here the hashing algorithm guarantees that if the first byte
// matches, also the next two bytes do.
if (delta2 != delta3 && delta3 < cyclicSize
&& buf[readPos - delta3] == buf[readPos]) {
lenBest = 3;
matches.dist[matches.count++] = delta3 - 1;
delta2 = delta3;
}
// If a match was found, see how long it is.
if (matches.count > 0) {
while (lenBest < matchLenLimit && buf[readPos + lenBest - delta2]
== buf[readPos + lenBest])
++lenBest;
matches.len[matches.count - 1] = lenBest;
// Return if it is long enough (niceLen or reached the end of
// the dictionary).
if (lenBest >= niceLenLimit)
return matches;
}
// Long enough match wasn't found so easily. Look for better matches
// from the hash chain.
if (lenBest < 3)
lenBest = 3;
int depth = depthLimit;
while (true) {
int delta = lzPos - currentMatch;
// Return if the search depth limit has been reached or
// if the distance of the potential match exceeds the
// dictionary size.
if (depth-- == 0 || delta >= cyclicSize)
return matches;
currentMatch = chain[cyclicPos - delta
+ (delta > cyclicPos ? cyclicSize : 0)];
// Test the first byte and the first new byte that would give us
// a match that is at least one byte longer than lenBest. This
// too short matches get quickly skipped.
if (buf[readPos + lenBest - delta] == buf[readPos + lenBest]
&& buf[readPos - delta] == buf[readPos]) {
// Calculate the length of the match.
int len = 0;
while (++len < matchLenLimit)
if (buf[readPos + len - delta] != buf[readPos + len])
break;
// Use the match if and only if it is better than the longest
// match found so far.
if (len > lenBest) {
lenBest = len;
matches.len[matches.count] = len;
matches.dist[matches.count] = delta - 1;
++matches.count;
// Return if it is long enough (niceLen or reached the
// end of the dictionary).
if (len >= niceLenLimit)
return matches;
}
}
}
}
public void skip(int len) {
assert len >= 0;
while (len-- > 0) {
if (movePos() != 0) {
// Update the hash chain and hash tables.
hash.calcHashes(buf, readPos);
chain[cyclicPos] = hash.getHash4Pos();
hash.updateTables(lzPos);
}
}
}
}