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- /* Copyright 2015 Google Inc. All Rights Reserved.
- Distributed under MIT license.
- See file LICENSE for detail or copy at https://opensource.org/licenses/MIT
- */
- /* Function for fast encoding of an input fragment, independently from the input
- history. This function uses one-pass processing: when we find a backward
- match, we immediately emit the corresponding command and literal codes to
- the bit stream.
- Adapted from the CompressFragment() function in
- https://github.com/google/snappy/blob/master/snappy.cc */
- #include "./compress_fragment.h"
- #include <string.h> /* memcmp, memcpy, memset */
- #include "../common/constants.h"
- #include "../common/platform.h"
- #include <brotli/types.h>
- #include "./brotli_bit_stream.h"
- #include "./entropy_encode.h"
- #include "./fast_log.h"
- #include "./find_match_length.h"
- #include "./memory.h"
- #include "./write_bits.h"
- #if defined(__cplusplus) || defined(c_plusplus)
- extern "C" {
- #endif
- #define MAX_DISTANCE (long)BROTLI_MAX_BACKWARD_LIMIT(18)
- /* kHashMul32 multiplier has these properties:
- * The multiplier must be odd. Otherwise we may lose the highest bit.
- * No long streaks of ones or zeros.
- * There is no effort to ensure that it is a prime, the oddity is enough
- for this use.
- * The number has been tuned heuristically against compression benchmarks. */
- static const uint32_t kHashMul32 = 0x1E35A7BD;
- static BROTLI_INLINE uint32_t Hash(const uint8_t* p, size_t shift) {
- const uint64_t h = (BROTLI_UNALIGNED_LOAD64LE(p) << 24) * kHashMul32;
- return (uint32_t)(h >> shift);
- }
- static BROTLI_INLINE uint32_t HashBytesAtOffset(
- uint64_t v, int offset, size_t shift) {
- BROTLI_DCHECK(offset >= 0);
- BROTLI_DCHECK(offset <= 3);
- {
- const uint64_t h = ((v >> (8 * offset)) << 24) * kHashMul32;
- return (uint32_t)(h >> shift);
- }
- }
- static BROTLI_INLINE BROTLI_BOOL IsMatch(const uint8_t* p1, const uint8_t* p2) {
- return TO_BROTLI_BOOL(
- BrotliUnalignedRead32(p1) == BrotliUnalignedRead32(p2) &&
- p1[4] == p2[4]);
- }
- /* Builds a literal prefix code into "depths" and "bits" based on the statistics
- of the "input" string and stores it into the bit stream.
- Note that the prefix code here is built from the pre-LZ77 input, therefore
- we can only approximate the statistics of the actual literal stream.
- Moreover, for long inputs we build a histogram from a sample of the input
- and thus have to assign a non-zero depth for each literal.
- Returns estimated compression ratio millibytes/char for encoding given input
- with generated code. */
- static size_t BuildAndStoreLiteralPrefixCode(MemoryManager* m,
- const uint8_t* input,
- const size_t input_size,
- uint8_t depths[256],
- uint16_t bits[256],
- size_t* storage_ix,
- uint8_t* storage) {
- uint32_t histogram[256] = { 0 };
- size_t histogram_total;
- size_t i;
- if (input_size < (1 << 15)) {
- for (i = 0; i < input_size; ++i) {
- ++histogram[input[i]];
- }
- histogram_total = input_size;
- for (i = 0; i < 256; ++i) {
- /* We weigh the first 11 samples with weight 3 to account for the
- balancing effect of the LZ77 phase on the histogram. */
- const uint32_t adjust = 2 * BROTLI_MIN(uint32_t, histogram[i], 11u);
- histogram[i] += adjust;
- histogram_total += adjust;
- }
- } else {
- static const size_t kSampleRate = 29;
- for (i = 0; i < input_size; i += kSampleRate) {
- ++histogram[input[i]];
- }
- histogram_total = (input_size + kSampleRate - 1) / kSampleRate;
- for (i = 0; i < 256; ++i) {
- /* We add 1 to each population count to avoid 0 bit depths (since this is
- only a sample and we don't know if the symbol appears or not), and we
- weigh the first 11 samples with weight 3 to account for the balancing
- effect of the LZ77 phase on the histogram (more frequent symbols are
- more likely to be in backward references instead as literals). */
- const uint32_t adjust = 1 + 2 * BROTLI_MIN(uint32_t, histogram[i], 11u);
- histogram[i] += adjust;
- histogram_total += adjust;
- }
- }
- BrotliBuildAndStoreHuffmanTreeFast(m, histogram, histogram_total,
- /* max_bits = */ 8,
- depths, bits, storage_ix, storage);
- if (BROTLI_IS_OOM(m)) return 0;
- {
- size_t literal_ratio = 0;
- for (i = 0; i < 256; ++i) {
- if (histogram[i]) literal_ratio += histogram[i] * depths[i];
- }
- /* Estimated encoding ratio, millibytes per symbol. */
- return (literal_ratio * 125) / histogram_total;
- }
- }
- /* Builds a command and distance prefix code (each 64 symbols) into "depth" and
- "bits" based on "histogram" and stores it into the bit stream. */
- static void BuildAndStoreCommandPrefixCode(const uint32_t histogram[128],
- uint8_t depth[128], uint16_t bits[128], size_t* storage_ix,
- uint8_t* storage) {
- /* Tree size for building a tree over 64 symbols is 2 * 64 + 1. */
- HuffmanTree tree[129];
- uint8_t cmd_depth[BROTLI_NUM_COMMAND_SYMBOLS] = { 0 };
- uint16_t cmd_bits[64];
- BrotliCreateHuffmanTree(histogram, 64, 15, tree, depth);
- BrotliCreateHuffmanTree(&histogram[64], 64, 14, tree, &depth[64]);
- /* We have to jump through a few hoops here in order to compute
- the command bits because the symbols are in a different order than in
- the full alphabet. This looks complicated, but having the symbols
- in this order in the command bits saves a few branches in the Emit*
- functions. */
- memcpy(cmd_depth, depth, 24);
- memcpy(cmd_depth + 24, depth + 40, 8);
- memcpy(cmd_depth + 32, depth + 24, 8);
- memcpy(cmd_depth + 40, depth + 48, 8);
- memcpy(cmd_depth + 48, depth + 32, 8);
- memcpy(cmd_depth + 56, depth + 56, 8);
- BrotliConvertBitDepthsToSymbols(cmd_depth, 64, cmd_bits);
- memcpy(bits, cmd_bits, 48);
- memcpy(bits + 24, cmd_bits + 32, 16);
- memcpy(bits + 32, cmd_bits + 48, 16);
- memcpy(bits + 40, cmd_bits + 24, 16);
- memcpy(bits + 48, cmd_bits + 40, 16);
- memcpy(bits + 56, cmd_bits + 56, 16);
- BrotliConvertBitDepthsToSymbols(&depth[64], 64, &bits[64]);
- {
- /* Create the bit length array for the full command alphabet. */
- size_t i;
- memset(cmd_depth, 0, 64); /* only 64 first values were used */
- memcpy(cmd_depth, depth, 8);
- memcpy(cmd_depth + 64, depth + 8, 8);
- memcpy(cmd_depth + 128, depth + 16, 8);
- memcpy(cmd_depth + 192, depth + 24, 8);
- memcpy(cmd_depth + 384, depth + 32, 8);
- for (i = 0; i < 8; ++i) {
- cmd_depth[128 + 8 * i] = depth[40 + i];
- cmd_depth[256 + 8 * i] = depth[48 + i];
- cmd_depth[448 + 8 * i] = depth[56 + i];
- }
- BrotliStoreHuffmanTree(
- cmd_depth, BROTLI_NUM_COMMAND_SYMBOLS, tree, storage_ix, storage);
- }
- BrotliStoreHuffmanTree(&depth[64], 64, tree, storage_ix, storage);
- }
- /* REQUIRES: insertlen < 6210 */
- static BROTLI_INLINE void EmitInsertLen(size_t insertlen,
- const uint8_t depth[128],
- const uint16_t bits[128],
- uint32_t histo[128],
- size_t* storage_ix,
- uint8_t* storage) {
- if (insertlen < 6) {
- const size_t code = insertlen + 40;
- BrotliWriteBits(depth[code], bits[code], storage_ix, storage);
- ++histo[code];
- } else if (insertlen < 130) {
- const size_t tail = insertlen - 2;
- const uint32_t nbits = Log2FloorNonZero(tail) - 1u;
- const size_t prefix = tail >> nbits;
- const size_t inscode = (nbits << 1) + prefix + 42;
- BrotliWriteBits(depth[inscode], bits[inscode], storage_ix, storage);
- BrotliWriteBits(nbits, tail - (prefix << nbits), storage_ix, storage);
- ++histo[inscode];
- } else if (insertlen < 2114) {
- const size_t tail = insertlen - 66;
- const uint32_t nbits = Log2FloorNonZero(tail);
- const size_t code = nbits + 50;
- BrotliWriteBits(depth[code], bits[code], storage_ix, storage);
- BrotliWriteBits(nbits, tail - ((size_t)1 << nbits), storage_ix, storage);
- ++histo[code];
- } else {
- BrotliWriteBits(depth[61], bits[61], storage_ix, storage);
- BrotliWriteBits(12, insertlen - 2114, storage_ix, storage);
- ++histo[61];
- }
- }
- static BROTLI_INLINE void EmitLongInsertLen(size_t insertlen,
- const uint8_t depth[128],
- const uint16_t bits[128],
- uint32_t histo[128],
- size_t* storage_ix,
- uint8_t* storage) {
- if (insertlen < 22594) {
- BrotliWriteBits(depth[62], bits[62], storage_ix, storage);
- BrotliWriteBits(14, insertlen - 6210, storage_ix, storage);
- ++histo[62];
- } else {
- BrotliWriteBits(depth[63], bits[63], storage_ix, storage);
- BrotliWriteBits(24, insertlen - 22594, storage_ix, storage);
- ++histo[63];
- }
- }
- static BROTLI_INLINE void EmitCopyLen(size_t copylen,
- const uint8_t depth[128],
- const uint16_t bits[128],
- uint32_t histo[128],
- size_t* storage_ix,
- uint8_t* storage) {
- if (copylen < 10) {
- BrotliWriteBits(
- depth[copylen + 14], bits[copylen + 14], storage_ix, storage);
- ++histo[copylen + 14];
- } else if (copylen < 134) {
- const size_t tail = copylen - 6;
- const uint32_t nbits = Log2FloorNonZero(tail) - 1u;
- const size_t prefix = tail >> nbits;
- const size_t code = (nbits << 1) + prefix + 20;
- BrotliWriteBits(depth[code], bits[code], storage_ix, storage);
- BrotliWriteBits(nbits, tail - (prefix << nbits), storage_ix, storage);
- ++histo[code];
- } else if (copylen < 2118) {
- const size_t tail = copylen - 70;
- const uint32_t nbits = Log2FloorNonZero(tail);
- const size_t code = nbits + 28;
- BrotliWriteBits(depth[code], bits[code], storage_ix, storage);
- BrotliWriteBits(nbits, tail - ((size_t)1 << nbits), storage_ix, storage);
- ++histo[code];
- } else {
- BrotliWriteBits(depth[39], bits[39], storage_ix, storage);
- BrotliWriteBits(24, copylen - 2118, storage_ix, storage);
- ++histo[39];
- }
- }
- static BROTLI_INLINE void EmitCopyLenLastDistance(size_t copylen,
- const uint8_t depth[128],
- const uint16_t bits[128],
- uint32_t histo[128],
- size_t* storage_ix,
- uint8_t* storage) {
- if (copylen < 12) {
- BrotliWriteBits(depth[copylen - 4], bits[copylen - 4], storage_ix, storage);
- ++histo[copylen - 4];
- } else if (copylen < 72) {
- const size_t tail = copylen - 8;
- const uint32_t nbits = Log2FloorNonZero(tail) - 1;
- const size_t prefix = tail >> nbits;
- const size_t code = (nbits << 1) + prefix + 4;
- BrotliWriteBits(depth[code], bits[code], storage_ix, storage);
- BrotliWriteBits(nbits, tail - (prefix << nbits), storage_ix, storage);
- ++histo[code];
- } else if (copylen < 136) {
- const size_t tail = copylen - 8;
- const size_t code = (tail >> 5) + 30;
- BrotliWriteBits(depth[code], bits[code], storage_ix, storage);
- BrotliWriteBits(5, tail & 31, storage_ix, storage);
- BrotliWriteBits(depth[64], bits[64], storage_ix, storage);
- ++histo[code];
- ++histo[64];
- } else if (copylen < 2120) {
- const size_t tail = copylen - 72;
- const uint32_t nbits = Log2FloorNonZero(tail);
- const size_t code = nbits + 28;
- BrotliWriteBits(depth[code], bits[code], storage_ix, storage);
- BrotliWriteBits(nbits, tail - ((size_t)1 << nbits), storage_ix, storage);
- BrotliWriteBits(depth[64], bits[64], storage_ix, storage);
- ++histo[code];
- ++histo[64];
- } else {
- BrotliWriteBits(depth[39], bits[39], storage_ix, storage);
- BrotliWriteBits(24, copylen - 2120, storage_ix, storage);
- BrotliWriteBits(depth[64], bits[64], storage_ix, storage);
- ++histo[39];
- ++histo[64];
- }
- }
- static BROTLI_INLINE void EmitDistance(size_t distance,
- const uint8_t depth[128],
- const uint16_t bits[128],
- uint32_t histo[128],
- size_t* storage_ix, uint8_t* storage) {
- const size_t d = distance + 3;
- const uint32_t nbits = Log2FloorNonZero(d) - 1u;
- const size_t prefix = (d >> nbits) & 1;
- const size_t offset = (2 + prefix) << nbits;
- const size_t distcode = 2 * (nbits - 1) + prefix + 80;
- BrotliWriteBits(depth[distcode], bits[distcode], storage_ix, storage);
- BrotliWriteBits(nbits, d - offset, storage_ix, storage);
- ++histo[distcode];
- }
- static BROTLI_INLINE void EmitLiterals(const uint8_t* input, const size_t len,
- const uint8_t depth[256],
- const uint16_t bits[256],
- size_t* storage_ix, uint8_t* storage) {
- size_t j;
- for (j = 0; j < len; j++) {
- const uint8_t lit = input[j];
- BrotliWriteBits(depth[lit], bits[lit], storage_ix, storage);
- }
- }
- /* REQUIRES: len <= 1 << 24. */
- static void BrotliStoreMetaBlockHeader(
- size_t len, BROTLI_BOOL is_uncompressed, size_t* storage_ix,
- uint8_t* storage) {
- size_t nibbles = 6;
- /* ISLAST */
- BrotliWriteBits(1, 0, storage_ix, storage);
- if (len <= (1U << 16)) {
- nibbles = 4;
- } else if (len <= (1U << 20)) {
- nibbles = 5;
- }
- BrotliWriteBits(2, nibbles - 4, storage_ix, storage);
- BrotliWriteBits(nibbles * 4, len - 1, storage_ix, storage);
- /* ISUNCOMPRESSED */
- BrotliWriteBits(1, (uint64_t)is_uncompressed, storage_ix, storage);
- }
- static void UpdateBits(size_t n_bits, uint32_t bits, size_t pos,
- uint8_t* array) {
- while (n_bits > 0) {
- size_t byte_pos = pos >> 3;
- size_t n_unchanged_bits = pos & 7;
- size_t n_changed_bits = BROTLI_MIN(size_t, n_bits, 8 - n_unchanged_bits);
- size_t total_bits = n_unchanged_bits + n_changed_bits;
- uint32_t mask =
- (~((1u << total_bits) - 1u)) | ((1u << n_unchanged_bits) - 1u);
- uint32_t unchanged_bits = array[byte_pos] & mask;
- uint32_t changed_bits = bits & ((1u << n_changed_bits) - 1u);
- array[byte_pos] =
- (uint8_t)((changed_bits << n_unchanged_bits) | unchanged_bits);
- n_bits -= n_changed_bits;
- bits >>= n_changed_bits;
- pos += n_changed_bits;
- }
- }
- static void RewindBitPosition(const size_t new_storage_ix,
- size_t* storage_ix, uint8_t* storage) {
- const size_t bitpos = new_storage_ix & 7;
- const size_t mask = (1u << bitpos) - 1;
- storage[new_storage_ix >> 3] &= (uint8_t)mask;
- *storage_ix = new_storage_ix;
- }
- static BROTLI_BOOL ShouldMergeBlock(
- const uint8_t* data, size_t len, const uint8_t* depths) {
- size_t histo[256] = { 0 };
- static const size_t kSampleRate = 43;
- size_t i;
- for (i = 0; i < len; i += kSampleRate) {
- ++histo[data[i]];
- }
- {
- const size_t total = (len + kSampleRate - 1) / kSampleRate;
- double r = (FastLog2(total) + 0.5) * (double)total + 200;
- for (i = 0; i < 256; ++i) {
- r -= (double)histo[i] * (depths[i] + FastLog2(histo[i]));
- }
- return TO_BROTLI_BOOL(r >= 0.0);
- }
- }
- /* Acceptable loss for uncompressible speedup is 2% */
- #define MIN_RATIO 980
- static BROTLI_INLINE BROTLI_BOOL ShouldUseUncompressedMode(
- const uint8_t* metablock_start, const uint8_t* next_emit,
- const size_t insertlen, const size_t literal_ratio) {
- const size_t compressed = (size_t)(next_emit - metablock_start);
- if (compressed * 50 > insertlen) {
- return BROTLI_FALSE;
- } else {
- return TO_BROTLI_BOOL(literal_ratio > MIN_RATIO);
- }
- }
- static void EmitUncompressedMetaBlock(const uint8_t* begin, const uint8_t* end,
- const size_t storage_ix_start,
- size_t* storage_ix, uint8_t* storage) {
- const size_t len = (size_t)(end - begin);
- RewindBitPosition(storage_ix_start, storage_ix, storage);
- BrotliStoreMetaBlockHeader(len, 1, storage_ix, storage);
- *storage_ix = (*storage_ix + 7u) & ~7u;
- memcpy(&storage[*storage_ix >> 3], begin, len);
- *storage_ix += len << 3;
- storage[*storage_ix >> 3] = 0;
- }
- static uint32_t kCmdHistoSeed[128] = {
- 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0,
- 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 0, 0, 0, 0,
- };
- static BROTLI_INLINE void BrotliCompressFragmentFastImpl(
- MemoryManager* m, const uint8_t* input, size_t input_size,
- BROTLI_BOOL is_last, int* table, size_t table_bits, uint8_t cmd_depth[128],
- uint16_t cmd_bits[128], size_t* cmd_code_numbits, uint8_t* cmd_code,
- size_t* storage_ix, uint8_t* storage) {
- uint32_t cmd_histo[128];
- const uint8_t* ip_end;
- /* "next_emit" is a pointer to the first byte that is not covered by a
- previous copy. Bytes between "next_emit" and the start of the next copy or
- the end of the input will be emitted as literal bytes. */
- const uint8_t* next_emit = input;
- /* Save the start of the first block for position and distance computations.
- */
- const uint8_t* base_ip = input;
- static const size_t kFirstBlockSize = 3 << 15;
- static const size_t kMergeBlockSize = 1 << 16;
- const size_t kInputMarginBytes = BROTLI_WINDOW_GAP;
- const size_t kMinMatchLen = 5;
- const uint8_t* metablock_start = input;
- size_t block_size = BROTLI_MIN(size_t, input_size, kFirstBlockSize);
- size_t total_block_size = block_size;
- /* Save the bit position of the MLEN field of the meta-block header, so that
- we can update it later if we decide to extend this meta-block. */
- size_t mlen_storage_ix = *storage_ix + 3;
- uint8_t lit_depth[256];
- uint16_t lit_bits[256];
- size_t literal_ratio;
- const uint8_t* ip;
- int last_distance;
- const size_t shift = 64u - table_bits;
- BrotliStoreMetaBlockHeader(block_size, 0, storage_ix, storage);
- /* No block splits, no contexts. */
- BrotliWriteBits(13, 0, storage_ix, storage);
- literal_ratio = BuildAndStoreLiteralPrefixCode(
- m, input, block_size, lit_depth, lit_bits, storage_ix, storage);
- if (BROTLI_IS_OOM(m)) return;
- {
- /* Store the pre-compressed command and distance prefix codes. */
- size_t i;
- for (i = 0; i + 7 < *cmd_code_numbits; i += 8) {
- BrotliWriteBits(8, cmd_code[i >> 3], storage_ix, storage);
- }
- }
- BrotliWriteBits(*cmd_code_numbits & 7, cmd_code[*cmd_code_numbits >> 3],
- storage_ix, storage);
- emit_commands:
- /* Initialize the command and distance histograms. We will gather
- statistics of command and distance codes during the processing
- of this block and use it to update the command and distance
- prefix codes for the next block. */
- memcpy(cmd_histo, kCmdHistoSeed, sizeof(kCmdHistoSeed));
- /* "ip" is the input pointer. */
- ip = input;
- last_distance = -1;
- ip_end = input + block_size;
- if (BROTLI_PREDICT_TRUE(block_size >= kInputMarginBytes)) {
- /* For the last block, we need to keep a 16 bytes margin so that we can be
- sure that all distances are at most window size - 16.
- For all other blocks, we only need to keep a margin of 5 bytes so that
- we don't go over the block size with a copy. */
- const size_t len_limit = BROTLI_MIN(size_t, block_size - kMinMatchLen,
- input_size - kInputMarginBytes);
- const uint8_t* ip_limit = input + len_limit;
- uint32_t next_hash;
- for (next_hash = Hash(++ip, shift); ; ) {
- /* Step 1: Scan forward in the input looking for a 5-byte-long match.
- If we get close to exhausting the input then goto emit_remainder.
- Heuristic match skipping: If 32 bytes are scanned with no matches
- found, start looking only at every other byte. If 32 more bytes are
- scanned, look at every third byte, etc.. When a match is found,
- immediately go back to looking at every byte. This is a small loss
- (~5% performance, ~0.1% density) for compressible data due to more
- bookkeeping, but for non-compressible data (such as JPEG) it's a huge
- win since the compressor quickly "realizes" the data is incompressible
- and doesn't bother looking for matches everywhere.
- The "skip" variable keeps track of how many bytes there are since the
- last match; dividing it by 32 (i.e. right-shifting by five) gives the
- number of bytes to move ahead for each iteration. */
- uint32_t skip = 32;
- const uint8_t* next_ip = ip;
- const uint8_t* candidate;
- BROTLI_DCHECK(next_emit < ip);
- trawl:
- do {
- uint32_t hash = next_hash;
- uint32_t bytes_between_hash_lookups = skip++ >> 5;
- BROTLI_DCHECK(hash == Hash(next_ip, shift));
- ip = next_ip;
- next_ip = ip + bytes_between_hash_lookups;
- if (BROTLI_PREDICT_FALSE(next_ip > ip_limit)) {
- goto emit_remainder;
- }
- next_hash = Hash(next_ip, shift);
- candidate = ip - last_distance;
- if (IsMatch(ip, candidate)) {
- if (BROTLI_PREDICT_TRUE(candidate < ip)) {
- table[hash] = (int)(ip - base_ip);
- break;
- }
- }
- candidate = base_ip + table[hash];
- BROTLI_DCHECK(candidate >= base_ip);
- BROTLI_DCHECK(candidate < ip);
- table[hash] = (int)(ip - base_ip);
- } while (BROTLI_PREDICT_TRUE(!IsMatch(ip, candidate)));
- /* Check copy distance. If candidate is not feasible, continue search.
- Checking is done outside of hot loop to reduce overhead. */
- if (ip - candidate > MAX_DISTANCE) goto trawl;
- /* Step 2: Emit the found match together with the literal bytes from
- "next_emit" to the bit stream, and then see if we can find a next match
- immediately afterwards. Repeat until we find no match for the input
- without emitting some literal bytes. */
- {
- /* We have a 5-byte match at ip, and we need to emit bytes in
- [next_emit, ip). */
- const uint8_t* base = ip;
- size_t matched = 5 + FindMatchLengthWithLimit(
- candidate + 5, ip + 5, (size_t)(ip_end - ip) - 5);
- int distance = (int)(base - candidate); /* > 0 */
- size_t insert = (size_t)(base - next_emit);
- ip += matched;
- BROTLI_DCHECK(0 == memcmp(base, candidate, matched));
- if (BROTLI_PREDICT_TRUE(insert < 6210)) {
- EmitInsertLen(insert, cmd_depth, cmd_bits, cmd_histo,
- storage_ix, storage);
- } else if (ShouldUseUncompressedMode(metablock_start, next_emit, insert,
- literal_ratio)) {
- EmitUncompressedMetaBlock(metablock_start, base, mlen_storage_ix - 3,
- storage_ix, storage);
- input_size -= (size_t)(base - input);
- input = base;
- next_emit = input;
- goto next_block;
- } else {
- EmitLongInsertLen(insert, cmd_depth, cmd_bits, cmd_histo,
- storage_ix, storage);
- }
- EmitLiterals(next_emit, insert, lit_depth, lit_bits,
- storage_ix, storage);
- if (distance == last_distance) {
- BrotliWriteBits(cmd_depth[64], cmd_bits[64], storage_ix, storage);
- ++cmd_histo[64];
- } else {
- EmitDistance((size_t)distance, cmd_depth, cmd_bits,
- cmd_histo, storage_ix, storage);
- last_distance = distance;
- }
- EmitCopyLenLastDistance(matched, cmd_depth, cmd_bits, cmd_histo,
- storage_ix, storage);
- next_emit = ip;
- if (BROTLI_PREDICT_FALSE(ip >= ip_limit)) {
- goto emit_remainder;
- }
- /* We could immediately start working at ip now, but to improve
- compression we first update "table" with the hashes of some positions
- within the last copy. */
- {
- uint64_t input_bytes = BROTLI_UNALIGNED_LOAD64LE(ip - 3);
- uint32_t prev_hash = HashBytesAtOffset(input_bytes, 0, shift);
- uint32_t cur_hash = HashBytesAtOffset(input_bytes, 3, shift);
- table[prev_hash] = (int)(ip - base_ip - 3);
- prev_hash = HashBytesAtOffset(input_bytes, 1, shift);
- table[prev_hash] = (int)(ip - base_ip - 2);
- prev_hash = HashBytesAtOffset(input_bytes, 2, shift);
- table[prev_hash] = (int)(ip - base_ip - 1);
- candidate = base_ip + table[cur_hash];
- table[cur_hash] = (int)(ip - base_ip);
- }
- }
- while (IsMatch(ip, candidate)) {
- /* We have a 5-byte match at ip, and no need to emit any literal bytes
- prior to ip. */
- const uint8_t* base = ip;
- size_t matched = 5 + FindMatchLengthWithLimit(
- candidate + 5, ip + 5, (size_t)(ip_end - ip) - 5);
- if (ip - candidate > MAX_DISTANCE) break;
- ip += matched;
- last_distance = (int)(base - candidate); /* > 0 */
- BROTLI_DCHECK(0 == memcmp(base, candidate, matched));
- EmitCopyLen(matched, cmd_depth, cmd_bits, cmd_histo,
- storage_ix, storage);
- EmitDistance((size_t)last_distance, cmd_depth, cmd_bits,
- cmd_histo, storage_ix, storage);
- next_emit = ip;
- if (BROTLI_PREDICT_FALSE(ip >= ip_limit)) {
- goto emit_remainder;
- }
- /* We could immediately start working at ip now, but to improve
- compression we first update "table" with the hashes of some positions
- within the last copy. */
- {
- uint64_t input_bytes = BROTLI_UNALIGNED_LOAD64LE(ip - 3);
- uint32_t prev_hash = HashBytesAtOffset(input_bytes, 0, shift);
- uint32_t cur_hash = HashBytesAtOffset(input_bytes, 3, shift);
- table[prev_hash] = (int)(ip - base_ip - 3);
- prev_hash = HashBytesAtOffset(input_bytes, 1, shift);
- table[prev_hash] = (int)(ip - base_ip - 2);
- prev_hash = HashBytesAtOffset(input_bytes, 2, shift);
- table[prev_hash] = (int)(ip - base_ip - 1);
- candidate = base_ip + table[cur_hash];
- table[cur_hash] = (int)(ip - base_ip);
- }
- }
- next_hash = Hash(++ip, shift);
- }
- }
- emit_remainder:
- BROTLI_DCHECK(next_emit <= ip_end);
- input += block_size;
- input_size -= block_size;
- block_size = BROTLI_MIN(size_t, input_size, kMergeBlockSize);
- /* Decide if we want to continue this meta-block instead of emitting the
- last insert-only command. */
- if (input_size > 0 &&
- total_block_size + block_size <= (1 << 20) &&
- ShouldMergeBlock(input, block_size, lit_depth)) {
- BROTLI_DCHECK(total_block_size > (1 << 16));
- /* Update the size of the current meta-block and continue emitting commands.
- We can do this because the current size and the new size both have 5
- nibbles. */
- total_block_size += block_size;
- UpdateBits(20, (uint32_t)(total_block_size - 1), mlen_storage_ix, storage);
- goto emit_commands;
- }
- /* Emit the remaining bytes as literals. */
- if (next_emit < ip_end) {
- const size_t insert = (size_t)(ip_end - next_emit);
- if (BROTLI_PREDICT_TRUE(insert < 6210)) {
- EmitInsertLen(insert, cmd_depth, cmd_bits, cmd_histo,
- storage_ix, storage);
- EmitLiterals(next_emit, insert, lit_depth, lit_bits, storage_ix, storage);
- } else if (ShouldUseUncompressedMode(metablock_start, next_emit, insert,
- literal_ratio)) {
- EmitUncompressedMetaBlock(metablock_start, ip_end, mlen_storage_ix - 3,
- storage_ix, storage);
- } else {
- EmitLongInsertLen(insert, cmd_depth, cmd_bits, cmd_histo,
- storage_ix, storage);
- EmitLiterals(next_emit, insert, lit_depth, lit_bits,
- storage_ix, storage);
- }
- }
- next_emit = ip_end;
- next_block:
- /* If we have more data, write a new meta-block header and prefix codes and
- then continue emitting commands. */
- if (input_size > 0) {
- metablock_start = input;
- block_size = BROTLI_MIN(size_t, input_size, kFirstBlockSize);
- total_block_size = block_size;
- /* Save the bit position of the MLEN field of the meta-block header, so that
- we can update it later if we decide to extend this meta-block. */
- mlen_storage_ix = *storage_ix + 3;
- BrotliStoreMetaBlockHeader(block_size, 0, storage_ix, storage);
- /* No block splits, no contexts. */
- BrotliWriteBits(13, 0, storage_ix, storage);
- literal_ratio = BuildAndStoreLiteralPrefixCode(
- m, input, block_size, lit_depth, lit_bits, storage_ix, storage);
- if (BROTLI_IS_OOM(m)) return;
- BuildAndStoreCommandPrefixCode(cmd_histo, cmd_depth, cmd_bits,
- storage_ix, storage);
- goto emit_commands;
- }
- if (!is_last) {
- /* If this is not the last block, update the command and distance prefix
- codes for the next block and store the compressed forms. */
- cmd_code[0] = 0;
- *cmd_code_numbits = 0;
- BuildAndStoreCommandPrefixCode(cmd_histo, cmd_depth, cmd_bits,
- cmd_code_numbits, cmd_code);
- }
- }
- #define FOR_TABLE_BITS_(X) X(9) X(11) X(13) X(15)
- #define BAKE_METHOD_PARAM_(B) \
- static BROTLI_NOINLINE void BrotliCompressFragmentFastImpl ## B( \
- MemoryManager* m, const uint8_t* input, size_t input_size, \
- BROTLI_BOOL is_last, int* table, uint8_t cmd_depth[128], \
- uint16_t cmd_bits[128], size_t* cmd_code_numbits, uint8_t* cmd_code, \
- size_t* storage_ix, uint8_t* storage) { \
- BrotliCompressFragmentFastImpl(m, input, input_size, is_last, table, B, \
- cmd_depth, cmd_bits, cmd_code_numbits, cmd_code, storage_ix, storage); \
- }
- FOR_TABLE_BITS_(BAKE_METHOD_PARAM_)
- #undef BAKE_METHOD_PARAM_
- void BrotliCompressFragmentFast(
- MemoryManager* m, const uint8_t* input, size_t input_size,
- BROTLI_BOOL is_last, int* table, size_t table_size, uint8_t cmd_depth[128],
- uint16_t cmd_bits[128], size_t* cmd_code_numbits, uint8_t* cmd_code,
- size_t* storage_ix, uint8_t* storage) {
- const size_t initial_storage_ix = *storage_ix;
- const size_t table_bits = Log2FloorNonZero(table_size);
- if (input_size == 0) {
- BROTLI_DCHECK(is_last);
- BrotliWriteBits(1, 1, storage_ix, storage); /* islast */
- BrotliWriteBits(1, 1, storage_ix, storage); /* isempty */
- *storage_ix = (*storage_ix + 7u) & ~7u;
- return;
- }
- switch (table_bits) {
- #define CASE_(B) \
- case B: \
- BrotliCompressFragmentFastImpl ## B( \
- m, input, input_size, is_last, table, cmd_depth, cmd_bits, \
- cmd_code_numbits, cmd_code, storage_ix, storage); \
- break;
- FOR_TABLE_BITS_(CASE_)
- #undef CASE_
- default: BROTLI_DCHECK(0); break;
- }
- /* If output is larger than single uncompressed block, rewrite it. */
- if (*storage_ix - initial_storage_ix > 31 + (input_size << 3)) {
- EmitUncompressedMetaBlock(input, input + input_size, initial_storage_ix,
- storage_ix, storage);
- }
- if (is_last) {
- BrotliWriteBits(1, 1, storage_ix, storage); /* islast */
- BrotliWriteBits(1, 1, storage_ix, storage); /* isempty */
- *storage_ix = (*storage_ix + 7u) & ~7u;
- }
- }
- #undef FOR_TABLE_BITS_
- #if defined(__cplusplus) || defined(c_plusplus)
- } /* extern "C" */
- #endif
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