mirror of https://github.com/acidanthera/audk.git
242 lines
8.8 KiB
C
242 lines
8.8 KiB
C
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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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/* template parameters: FN, BUCKET_BITS, BLOCK_BITS,
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NUM_LAST_DISTANCES_TO_CHECK */
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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) to a ring buffer of
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fixed size (BLOCK_SIZE). The ring buffer contains the last BLOCK_SIZE
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index positions of the given hash key in the compressed data. */
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#define HashLongestMatch HASHER()
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/* Number of hash buckets. */
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#define BUCKET_SIZE (1 << BUCKET_BITS)
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/* Only BLOCK_SIZE newest backward references are kept,
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and the older are forgotten. */
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#define BLOCK_SIZE (1u << BLOCK_BITS)
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/* Mask for accessing entries in a block (in a ringbuffer manner). */
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#define BLOCK_MASK ((1 << BLOCK_BITS) - 1)
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#define HASH_MAP_SIZE (2 << BUCKET_BITS)
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static BROTLI_INLINE size_t FN(HashTypeLength)(void) { return 4; }
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static BROTLI_INLINE size_t FN(StoreLookahead)(void) { return 4; }
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/* HashBytes is the function that chooses the bucket to place
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the address in. The HashLongestMatch and HashLongestMatchQuickly
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classes have separate, different implementations of hashing. */
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static uint32_t FN(HashBytes)(const uint8_t *data) {
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uint32_t h = BROTLI_UNALIGNED_LOAD32(data) * kHashMul32;
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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 h >> (32 - BUCKET_BITS);
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}
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typedef struct HashLongestMatch {
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/* Number of entries in a particular bucket. */
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uint16_t num_[BUCKET_SIZE];
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/* Buckets containing BLOCK_SIZE of backward references. */
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uint32_t buckets_[BLOCK_SIZE << BUCKET_BITS];
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/* True if num_ array needs to be initialized. */
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BROTLI_BOOL is_dirty_;
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DictionarySearchStatictics dict_search_stats_;
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} HashLongestMatch;
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static void FN(Reset)(HashLongestMatch* self) {
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self->is_dirty_ = BROTLI_TRUE;
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DictionarySearchStaticticsReset(&self->dict_search_stats_);
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}
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static void FN(InitEmpty)(HashLongestMatch* self) {
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if (self->is_dirty_) {
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memset(self->num_, 0, sizeof(self->num_));
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self->is_dirty_ = BROTLI_FALSE;
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}
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}
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static void FN(InitForData)(HashLongestMatch* self, const uint8_t* data,
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size_t num) {
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size_t i;
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for (i = 0; i < num; ++i) {
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const uint32_t key = FN(HashBytes)(&data[i]);
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self->num_[key] = 0;
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}
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if (num != 0) {
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self->is_dirty_ = BROTLI_FALSE;
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}
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}
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static void FN(Init)(
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MemoryManager* m, HashLongestMatch* self, const uint8_t* data,
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const BrotliEncoderParams* params, size_t position, size_t bytes,
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BROTLI_BOOL is_last) {
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/* Choose which init method is faster.
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Init() is about 100 times faster than InitForData(). */
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const size_t kMaxBytesForPartialHashInit = HASH_MAP_SIZE >> 7;
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BROTLI_UNUSED(m);
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BROTLI_UNUSED(params);
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if (position == 0 && is_last && bytes <= kMaxBytesForPartialHashInit) {
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FN(InitForData)(self, data, bytes);
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} else {
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FN(InitEmpty)(self);
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}
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}
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/* Look at 4 bytes at &data[ix & mask].
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Compute a hash from these, and store the value of ix at that position. */
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static BROTLI_INLINE void FN(Store)(HashLongestMatch* self, const uint8_t *data,
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const size_t mask, const size_t ix) {
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const uint32_t key = FN(HashBytes)(&data[ix & mask]);
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const size_t minor_ix = self->num_[key] & BLOCK_MASK;
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self->buckets_[minor_ix + (key << BLOCK_BITS)] = (uint32_t)ix;
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++self->num_[key];
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}
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static BROTLI_INLINE void FN(StoreRange)(HashLongestMatch* self,
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const uint8_t *data, const size_t mask, const size_t ix_start,
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const size_t ix_end) {
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size_t i;
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for (i = ix_start; i < ix_end; ++i) {
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FN(Store)(self, data, mask, i);
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}
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}
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static BROTLI_INLINE void FN(StitchToPreviousBlock)(HashLongestMatch* self,
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size_t num_bytes, size_t position, const uint8_t* ringbuffer,
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size_t ringbuffer_mask) {
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if (num_bytes >= FN(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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FN(Store)(self, ringbuffer, ringbuffer_mask, position - 3);
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FN(Store)(self, ringbuffer, ringbuffer_mask, position - 2);
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FN(Store)(self, ringbuffer, ringbuffer_mask, position - 1);
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}
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}
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/* Find a longest backward match of &data[cur_ix] up to the length of
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max_length and stores the position cur_ix in the 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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Returns true when match is found, otherwise false. */
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static BROTLI_INLINE BROTLI_BOOL FN(FindLongestMatch)(HashLongestMatch* self,
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const uint8_t* BROTLI_RESTRICT data, const size_t ring_buffer_mask,
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const int* BROTLI_RESTRICT distance_cache, const size_t cur_ix,
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const size_t max_length, const size_t max_backward,
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HasherSearchResult* BROTLI_RESTRICT out) {
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const size_t cur_ix_masked = cur_ix & ring_buffer_mask;
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BROTLI_BOOL is_match_found = BROTLI_FALSE;
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/* Don't accept a short copy from far away. */
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score_t best_score = out->score;
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size_t best_len = out->len;
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size_t i;
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out->len = 0;
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out->len_x_code = 0;
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/* Try last distance first. */
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for (i = 0; i < NUM_LAST_DISTANCES_TO_CHECK; ++i) {
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const size_t idx = kDistanceCacheIndex[i];
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const size_t backward =
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(size_t)(distance_cache[idx] + kDistanceCacheOffset[i]);
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size_t prev_ix = (size_t)(cur_ix - backward);
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if (prev_ix >= cur_ix) {
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continue;
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}
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if (PREDICT_FALSE(backward > max_backward)) {
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continue;
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}
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prev_ix &= ring_buffer_mask;
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if (cur_ix_masked + best_len > ring_buffer_mask ||
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prev_ix + best_len > ring_buffer_mask ||
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data[cur_ix_masked + best_len] != data[prev_ix + best_len]) {
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continue;
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}
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{
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const size_t len = FindMatchLengthWithLimit(&data[prev_ix],
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&data[cur_ix_masked],
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max_length);
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if (len >= 3 || (len == 2 && i < 2)) {
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/* Comparing for >= 2 does not change the semantics, but just saves for
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a few unnecessary binary logarithms in backward reference score,
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since we are not interested in such short matches. */
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score_t score = BackwardReferenceScoreUsingLastDistance(len, i);
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if (best_score < score) {
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best_score = score;
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best_len = len;
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out->len = best_len;
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out->distance = backward;
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out->score = best_score;
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is_match_found = BROTLI_TRUE;
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}
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}
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}
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}
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{
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const uint32_t key = FN(HashBytes)(&data[cur_ix_masked]);
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uint32_t* BROTLI_RESTRICT bucket = &self->buckets_[key << BLOCK_BITS];
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const size_t down =
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(self->num_[key] > BLOCK_SIZE) ? (self->num_[key] - BLOCK_SIZE) : 0u;
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for (i = self->num_[key]; i > down;) {
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size_t prev_ix = bucket[--i & BLOCK_MASK];
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const size_t backward = cur_ix - prev_ix;
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if (PREDICT_FALSE(backward > max_backward)) {
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break;
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}
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prev_ix &= ring_buffer_mask;
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if (cur_ix_masked + best_len > ring_buffer_mask ||
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prev_ix + best_len > ring_buffer_mask ||
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data[cur_ix_masked + best_len] != data[prev_ix + best_len]) {
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continue;
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}
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{
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const size_t len = FindMatchLengthWithLimit(&data[prev_ix],
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&data[cur_ix_masked],
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max_length);
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if (len >= 4) {
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/* Comparing for >= 3 does not change the semantics, but just saves
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for a few unnecessary binary logarithms in backward reference
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score, since we are not interested in such short matches. */
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score_t score = BackwardReferenceScore(len, backward);
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if (best_score < score) {
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best_score = score;
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best_len = len;
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out->len = best_len;
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out->distance = backward;
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out->score = best_score;
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is_match_found = BROTLI_TRUE;
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}
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}
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}
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}
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bucket[self->num_[key] & BLOCK_MASK] = (uint32_t)cur_ix;
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++self->num_[key];
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}
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if (!is_match_found) {
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is_match_found = SearchInStaticDictionary(&self->dict_search_stats_,
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&data[cur_ix_masked], max_length, max_backward, out, BROTLI_FALSE);
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}
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return is_match_found;
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}
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#undef HASH_MAP_SIZE
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#undef BLOCK_MASK
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#undef BLOCK_SIZE
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#undef BUCKET_SIZE
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#undef HashLongestMatch
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