forked from mirror/brotli
209 lines
6.3 KiB
Go
209 lines
6.3 KiB
Go
package brotli
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import "encoding/binary"
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/* NOLINT(build/header_guard) */
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/* Copyright 2010 Google Inc. All Rights Reserved.
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Distributed under MIT license.
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See file LICENSE for detail or copy at https://opensource.org/licenses/MIT
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*/
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func (*H4) HashTypeLength() uint {
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return 8
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}
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func (*H4) StoreLookahead() uint {
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return 8
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}
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/* HashBytes is the function that chooses the bucket to place
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the address in. The HashLongestMatch and H4
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classes have separate, different implementations of hashing. */
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func HashBytesH4(data []byte) uint32 {
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var h uint64 = ((binary.LittleEndian.Uint64(data) << (64 - 8*5)) * kHashMul64)
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/* The higher bits contain more mixture from the multiplication,
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so we take our results from there. */
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return uint32(h >> (64 - 17))
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}
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/* A (forgetful) hash table to the data seen by the compressor, to
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help create backward references to previous data.
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This is a hash map of fixed size (BUCKET_SIZE). Starting from the
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given index, 4 buckets are used to store values of a key. */
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type H4 struct {
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HasherCommon
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buckets_ [(1 << 17) + 4]uint32
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}
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func SelfH4(handle HasherHandle) *H4 {
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return handle.(*H4)
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}
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func (*H4) Initialize(params *BrotliEncoderParams) {
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}
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func (h *H4) Prepare(one_shot bool, input_size uint, data []byte) {
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var partial_prepare_threshold uint = (4 << 17) >> 7
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/* Partial preparation is 100 times slower (per socket). */
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if one_shot && input_size <= partial_prepare_threshold {
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var i uint
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for i = 0; i < input_size; i++ {
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var key uint32 = HashBytesH4(data[i:])
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for i := 0; i < int(4); i++ {
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h.buckets_[key:][i] = 0
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}
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}
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} else {
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/* It is not strictly necessary to fill this buffer here, but
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not filling will make the results of the compression stochastic
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(but correct). This is because random data would cause the
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system to find accidentally good backward references here and there. */
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var i int
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for i = 0; i < len(h.buckets_); i++ {
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h.buckets_[i] = 0
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}
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}
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}
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/* Look at 5 bytes at &data[ix & mask].
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Compute a hash from these, and store the value somewhere within
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[ix .. ix+3]. */
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func (h *H4) Store(data []byte, mask uint, ix uint) {
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var key uint32 = HashBytesH4(data[ix&mask:])
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var off uint32 = uint32(ix>>3) % 4
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/* Wiggle the value with the bucket sweep range. */
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h.buckets_[key+off] = uint32(ix)
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}
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func (h *H4) StoreRange(data []byte, mask uint, ix_start uint, ix_end uint) {
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var i uint
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for i = ix_start; i < ix_end; i++ {
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h.Store(data, mask, i)
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}
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}
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func (h *H4) StitchToPreviousBlock(num_bytes uint, position uint, ringbuffer []byte, ringbuffer_mask uint) {
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if num_bytes >= h.HashTypeLength()-1 && position >= 3 {
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/* Prepare the hashes for three last bytes of the last write.
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These could not be calculated before, since they require knowledge
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of both the previous and the current block. */
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h.Store(ringbuffer, ringbuffer_mask, position-3)
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h.Store(ringbuffer, ringbuffer_mask, position-2)
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h.Store(ringbuffer, ringbuffer_mask, position-1)
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}
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}
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func (*H4) PrepareDistanceCache(distance_cache []int) {
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}
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/* Find a longest backward match of &data[cur_ix & ring_buffer_mask]
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up to the length of max_length and stores the position cur_ix in the
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hash table.
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Does not look for matches longer than max_length.
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Does not look for matches further away than max_backward.
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Writes the best match into |out|.
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|out|->score is updated only if a better match is found. */
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func (h *H4) FindLongestMatch(dictionary *BrotliEncoderDictionary, data []byte, ring_buffer_mask uint, distance_cache []int, cur_ix uint, max_length uint, max_backward uint, gap uint, max_distance uint, out *HasherSearchResult) {
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var best_len_in uint = out.len
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var cur_ix_masked uint = cur_ix & ring_buffer_mask
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var key uint32 = HashBytesH4(data[cur_ix_masked:])
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var compare_char int = int(data[cur_ix_masked+best_len_in])
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var min_score uint = out.score
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var best_score uint = out.score
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var best_len uint = best_len_in
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var cached_backward uint = uint(distance_cache[0])
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var prev_ix uint = cur_ix - cached_backward
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var bucket []uint32
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out.len_code_delta = 0
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if prev_ix < cur_ix {
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prev_ix &= uint(uint32(ring_buffer_mask))
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if compare_char == int(data[prev_ix+best_len]) {
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var len uint = FindMatchLengthWithLimit(data[prev_ix:], data[cur_ix_masked:], max_length)
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if len >= 4 {
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var score uint = BackwardReferenceScoreUsingLastDistance(uint(len))
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if best_score < score {
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best_score = score
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best_len = uint(len)
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out.len = uint(len)
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out.distance = cached_backward
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out.score = best_score
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compare_char = int(data[cur_ix_masked+best_len])
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if 4 == 1 {
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h.buckets_[key] = uint32(cur_ix)
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return
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}
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}
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}
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}
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}
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if 4 == 1 {
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var backward uint
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var len uint
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/* Only one to look for, don't bother to prepare for a loop. */
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prev_ix = uint(h.buckets_[key])
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h.buckets_[key] = uint32(cur_ix)
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backward = cur_ix - prev_ix
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prev_ix &= uint(uint32(ring_buffer_mask))
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if compare_char != int(data[prev_ix+best_len_in]) {
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return
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}
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if backward == 0 || backward > max_backward {
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return
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}
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len = FindMatchLengthWithLimit(data[prev_ix:], data[cur_ix_masked:], max_length)
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if len >= 4 {
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var score uint = BackwardReferenceScore(uint(len), backward)
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if best_score < score {
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out.len = uint(len)
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out.distance = backward
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out.score = score
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return
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}
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}
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} else {
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bucket = h.buckets_[key:]
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var i int
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prev_ix = uint(bucket[0])
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bucket = bucket[1:]
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for i = 0; i < 4; (func() { i++; tmp5 := bucket; bucket = bucket[1:]; prev_ix = uint(tmp5[0]) })() {
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var backward uint = cur_ix - prev_ix
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var len uint
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prev_ix &= uint(uint32(ring_buffer_mask))
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if compare_char != int(data[prev_ix+best_len]) {
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continue
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}
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if backward == 0 || backward > max_backward {
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continue
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}
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len = FindMatchLengthWithLimit(data[prev_ix:], data[cur_ix_masked:], max_length)
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if len >= 4 {
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var score uint = BackwardReferenceScore(uint(len), backward)
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if best_score < score {
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best_score = score
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best_len = uint(len)
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out.len = best_len
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out.distance = backward
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out.score = score
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compare_char = int(data[cur_ix_masked+best_len])
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}
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}
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}
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}
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if min_score == out.score {
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SearchInStaticDictionary(dictionary, h, data[cur_ix_masked:], max_length, max_backward+gap, max_distance, out, true)
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}
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h.buckets_[key+uint32((cur_ix>>3)%4)] = uint32(cur_ix)
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}
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