in flexflate/deflate.go [228:360]
func (d *compressor) deflate() {
if d.windowEnd-d.index < minMatchLength+maxMatchLength && !d.sync {
return
}
d.maxInsertIndex = d.windowEnd - (minMatchLength - 1)
if d.index < d.maxInsertIndex {
d.hash = int(d.window[d.index])<<hashShift + int(d.window[d.index+1])
}
Loop:
for {
if d.index > d.windowEnd {
panic("index > windowEnd")
}
lookahead := d.windowEnd - d.index
if lookahead < minMatchLength+maxMatchLength {
if !d.sync {
break Loop
}
if d.index > d.windowEnd {
panic("index > windowEnd")
}
if lookahead == 0 {
// Flush current output block if any.
if d.byteAvailable {
// There is still one pending token that needs to be flushed
d.tokens = append(d.tokens, literalToken(uint32(d.window[d.index-1])))
d.byteAvailable = false
}
if len(d.tokens) > 0 {
if d.err = d.writeBlock(d.tokens, d.index, false); d.err != nil {
return
}
d.tokens = d.tokens[:0]
}
break Loop
}
}
if d.index < d.maxInsertIndex {
// Update the hash
d.hash = (d.hash<<hashShift + int(d.window[d.index+2])) & hashMask
d.chainHead = d.hashHead[d.hash]
d.hashPrev[d.index&windowMask] = d.chainHead
d.hashHead[d.hash] = d.index + d.hashOffset
}
prevLength := d.length
prevOffset := d.offset
d.length = minMatchLength - 1
d.offset = 0
minIndex := d.index - windowSize
if minIndex < 0 {
minIndex = 0
}
if d.chainHead-d.hashOffset >= minIndex &&
(d.fastSkipHashing != skipNever && lookahead > minMatchLength-1 ||
d.fastSkipHashing == skipNever && lookahead > prevLength && prevLength < d.lazy) {
if newLength, newOffset, ok := d.findMatch(d.index, d.chainHead-d.hashOffset, minMatchLength-1, lookahead); ok {
d.length = newLength
d.offset = newOffset
}
}
if d.fastSkipHashing != skipNever && d.length >= minMatchLength ||
d.fastSkipHashing == skipNever && prevLength >= minMatchLength && d.length <= prevLength {
// There was a match at the previous step, and the current match is
// not better. Output the previous match.
if d.fastSkipHashing != skipNever {
d.tokens = append(d.tokens, matchToken(uint32(d.length-minMatchLength), uint32(d.offset-minOffsetSize)))
} else {
d.tokens = append(d.tokens, matchToken(uint32(prevLength-minMatchLength), uint32(prevOffset-minOffsetSize)))
}
// Insert in the hash table all strings up to the end of the match.
// index and index-1 are already inserted. If there is not enough
// lookahead, the last two strings are not inserted into the hash
// table.
if d.length <= d.fastSkipHashing {
var newIndex int
if d.fastSkipHashing != skipNever {
newIndex = d.index + d.length
} else {
newIndex = d.index + prevLength - 1
}
for d.index++; d.index < newIndex; d.index++ {
if d.index < d.maxInsertIndex {
d.hash = (d.hash<<hashShift + int(d.window[d.index+2])) & hashMask
// Get previous value with the same hash.
// Our chain should point to the previous value.
d.hashPrev[d.index&windowMask] = d.hashHead[d.hash]
// Set the head of the hash chain to us.
d.hashHead[d.hash] = d.index + d.hashOffset
}
}
if d.fastSkipHashing == skipNever {
d.byteAvailable = false
d.length = minMatchLength - 1
}
} else {
// For matches this long, we don't bother inserting each individual
// item into the table.
d.index += d.length
if d.index < d.maxInsertIndex {
d.hash = (int(d.window[d.index])<<hashShift + int(d.window[d.index+1]))
}
}
if len(d.tokens) == maxFlateBlockTokens {
// The block includes the current character
if d.err = d.writeBlock(d.tokens, d.index, false); d.err != nil {
return
}
d.tokens = d.tokens[:0]
}
} else {
if d.fastSkipHashing != skipNever || d.byteAvailable {
i := d.index - 1
if d.fastSkipHashing != skipNever {
i = d.index
}
d.tokens = append(d.tokens, literalToken(uint32(d.window[i])))
if len(d.tokens) == maxFlateBlockTokens {
if d.err = d.writeBlock(d.tokens, i+1, false); d.err != nil {
return
}
d.tokens = d.tokens[:0]
}
}
d.index++
if d.fastSkipHashing == skipNever {
d.byteAvailable = true
}
}
}
}