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1428d54178
Add a version of the brotli encoder that compresses each meta-block independently, only using the original input data from previous meta-blocks and nothing from the compressor state. This is a proof-of-concept to show that the current format is flexible enough to support parallel multi-threaded compression.
356 lines
11 KiB
C++
356 lines
11 KiB
C++
// Copyright 2013 Google Inc. All Rights Reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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// Implementation of parallel Brotli compressor.
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#include "./encode_parallel.h"
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#include <algorithm>
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#include <limits>
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#include "./backward_references.h"
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#include "./bit_cost.h"
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#include "./block_splitter.h"
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#include "./brotli_bit_stream.h"
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#include "./cluster.h"
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#include "./context.h"
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#include "./metablock.h"
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#include "./transform.h"
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#include "./entropy_encode.h"
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#include "./fast_log.h"
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#include "./hash.h"
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#include "./histogram.h"
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#include "./literal_cost.h"
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#include "./prefix.h"
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#include "./write_bits.h"
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namespace brotli {
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namespace {
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int ParseAsUTF8(int* symbol, const uint8_t* input, int size) {
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// ASCII
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if ((input[0] & 0x80) == 0) {
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*symbol = input[0];
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if (*symbol > 0) {
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return 1;
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}
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}
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// 2-byte UTF8
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if (size > 1 &&
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(input[0] & 0xe0) == 0xc0 &&
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(input[1] & 0xc0) == 0x80) {
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*symbol = (((input[0] & 0x1f) << 6) |
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(input[1] & 0x3f));
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if (*symbol > 0x7f) {
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return 2;
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}
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}
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// 3-byte UFT8
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if (size > 2 &&
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(input[0] & 0xf0) == 0xe0 &&
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(input[1] & 0xc0) == 0x80 &&
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(input[2] & 0xc0) == 0x80) {
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*symbol = (((input[0] & 0x0f) << 12) |
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((input[1] & 0x3f) << 6) |
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(input[2] & 0x3f));
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if (*symbol > 0x7ff) {
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return 3;
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}
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}
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// 4-byte UFT8
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if (size > 3 &&
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(input[0] & 0xf8) == 0xf0 &&
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(input[1] & 0xc0) == 0x80 &&
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(input[2] & 0xc0) == 0x80 &&
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(input[3] & 0xc0) == 0x80) {
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*symbol = (((input[0] & 0x07) << 18) |
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((input[1] & 0x3f) << 12) |
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((input[2] & 0x3f) << 6) |
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(input[3] & 0x3f));
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if (*symbol > 0xffff && *symbol <= 0x10ffff) {
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return 4;
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}
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}
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// Not UTF8, emit a special symbol above the UTF8-code space
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*symbol = 0x110000 | input[0];
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return 1;
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}
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// Returns true if at least min_fraction of the data is UTF8-encoded.
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bool IsMostlyUTF8(const uint8_t* data, size_t length, double min_fraction) {
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size_t size_utf8 = 0;
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for (size_t pos = 0; pos < length; ) {
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int symbol;
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int bytes_read = ParseAsUTF8(&symbol, data + pos, length - pos);
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pos += bytes_read;
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if (symbol < 0x110000) size_utf8 += bytes_read;
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}
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return size_utf8 > min_fraction * length;
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}
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void RecomputeDistancePrefixes(std::vector<Command>* cmds,
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int num_direct_distance_codes,
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int distance_postfix_bits) {
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if (num_direct_distance_codes == 0 &&
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distance_postfix_bits == 0) {
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return;
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}
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for (int i = 0; i < cmds->size(); ++i) {
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Command* cmd = &(*cmds)[i];
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if (cmd->copy_len_ > 0 && cmd->cmd_prefix_ >= 128) {
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PrefixEncodeCopyDistance(cmd->DistanceCode(),
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num_direct_distance_codes,
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distance_postfix_bits,
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&cmd->dist_prefix_,
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&cmd->dist_extra_);
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}
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}
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}
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bool WriteMetaBlockParallel(const BrotliParams& params,
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const size_t block_size,
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const uint8_t* input_buffer,
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const size_t prefix_size,
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const uint8_t* prefix_buffer,
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const StaticDictionary* static_dict,
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const bool is_first,
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const bool is_last,
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size_t* encoded_size,
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uint8_t* encoded_buffer) {
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if (block_size == 0 || (!is_last && block_size == 1)) {
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return false;
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}
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const size_t input_size = is_last ? block_size : block_size - 1;
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// Copy prefix + next input block into a continuous area.
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size_t input_pos = prefix_size;
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std::vector<uint8_t> input(prefix_size + input_size);
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memcpy(&input[0], prefix_buffer, prefix_size);
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memcpy(&input[input_pos], input_buffer, input_size);
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// Since we don't have a ringbuffer, masking is a no-op.
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// We use one less bit than the full range because some of the code uses
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// mask + 1 as the size of the ringbuffer.
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const size_t mask = std::numeric_limits<size_t>::max() >> 1;
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// Decide about UTF8 mode.
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static const double kMinUTF8Ratio = 0.75;
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bool utf8_mode = IsMostlyUTF8(&input[input_pos], input_size, kMinUTF8Ratio);
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// Compute literal costs.
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std::vector<float> literal_cost(prefix_size + input_size);
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if (utf8_mode) {
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EstimateBitCostsForLiteralsUTF8(input_pos, input_size, mask, mask,
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&input[0], &literal_cost[0]);
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} else {
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EstimateBitCostsForLiterals(input_pos, input_size, mask, mask,
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&input[0], &literal_cost[0]);
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}
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// Initialize hashers.
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int hash_type = 9;
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switch (params.mode) {
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case BrotliParams::MODE_TEXT: hash_type = 8; break;
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case BrotliParams::MODE_FONT: hash_type = 9; break;
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default: break;
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}
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std::unique_ptr<Hashers> hashers(new Hashers());
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hashers->Init(hash_type);
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hashers->SetStaticDictionary(static_dict);
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// Compute backward references.
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int last_insert_len = 0;
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int num_commands = 0;
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double base_min_score = 8.115;
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int max_backward_distance = (1 << params.lgwin) - 16;
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int dist_cache[4] = { -4, -4, -4, -4 };
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std::vector<Command> commands((input_size + 1) >> 1);
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CreateBackwardReferences(
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input_size, input_pos,
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&input[0], mask,
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&literal_cost[0], mask,
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max_backward_distance,
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base_min_score,
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params.quality,
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hashers.get(),
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hash_type,
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dist_cache,
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&last_insert_len,
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&commands[0],
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&num_commands);
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commands.resize(num_commands);
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if (last_insert_len > 0) {
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commands.push_back(Command(last_insert_len));
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}
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// Build the meta-block.
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MetaBlockSplit mb;
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int num_direct_distance_codes =
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params.mode == BrotliParams::MODE_FONT ? 12 : 0;
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int distance_postfix_bits = params.mode == BrotliParams::MODE_FONT ? 1 : 0;
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int literal_context_mode = utf8_mode ? CONTEXT_UTF8 : CONTEXT_SIGNED;
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if (params.greedy_block_split) {
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BuildMetaBlockGreedy(&input[0], input_pos, mask,
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commands.data(), commands.size(), params.quality,
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&mb);
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} else {
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RecomputeDistancePrefixes(&commands,
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num_direct_distance_codes,
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distance_postfix_bits);
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BuildMetaBlock(&input[0], input_pos, mask,
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commands,
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num_direct_distance_codes,
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distance_postfix_bits,
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literal_context_mode,
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&mb);
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}
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// Set up the temporary output storage.
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const size_t max_out_size = 2 * input_size + 500;
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std::vector<uint8_t> storage(max_out_size);
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int first_byte = 0;
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int first_byte_bits = 0;
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if (is_first) {
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if (params.lgwin == 16) {
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first_byte = 0;
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first_byte_bits = 1;
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} else {
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first_byte = ((params.lgwin - 17) << 1) | 1;
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first_byte_bits = 4;
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}
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}
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storage[0] = first_byte;
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int storage_ix = first_byte_bits;
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// Store the meta-block to the temporary output.
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if (!StoreMetaBlock(&input[0], input_pos, input_size, mask,
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is_last, params.quality,
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num_direct_distance_codes,
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distance_postfix_bits,
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literal_context_mode,
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commands.data(), commands.size(),
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mb,
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&storage_ix, &storage[0])) {
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return false;
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}
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// If this is not the last meta-block, store a one-byte uncompressed
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// meta-block so that the meta-block will end at a byte boundary.
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if (!is_last &&
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!StoreUncompressedMetaBlock(is_last, &input_buffer[input_size],
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0, mask, 1,
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&storage_ix, &storage[0])) {
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return false;
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}
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// If the compressed data is too large, fall back to an uncompressed
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// meta-block.
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size_t output_size = storage_ix >> 3;
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if (input_size + 4 < output_size) {
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storage[0] = first_byte;
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storage_ix = first_byte_bits;
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if (!StoreUncompressedMetaBlock(is_last, &input[0], input_pos, mask,
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input_size,
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&storage_ix, &storage[0])) {
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return false;
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}
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output_size = storage_ix >> 3;
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}
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// Copy the temporary output with size-check to the output.
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if (output_size > *encoded_size) {
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return false;
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}
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memcpy(encoded_buffer, &storage[0], output_size);
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*encoded_size = output_size;
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return true;
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}
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} // namespace
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int BrotliCompressBufferParallel(BrotliParams params,
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size_t input_size,
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const uint8_t* input_buffer,
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size_t* encoded_size,
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uint8_t* encoded_buffer) {
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if (*encoded_size == 0) {
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// Output buffer needs at least one byte.
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return 0;
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} else if (input_size == 0) {
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encoded_buffer[0] = 6;
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*encoded_size = 1;
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return 1;
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}
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// Sanitize params.
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if (params.lgwin < kMinWindowBits) {
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params.lgwin = kMinWindowBits;
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} else if (params.lgwin > kMaxWindowBits) {
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params.lgwin = kMaxWindowBits;
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}
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if (params.lgblock == 0) {
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params.lgblock = 16;
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if (params.quality >= 9 && params.lgwin > params.lgblock) {
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params.lgblock = std::min(21, params.lgwin);
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}
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} else if (params.lgblock < kMinInputBlockBits) {
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params.lgblock = kMinInputBlockBits;
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} else if (params.lgblock > kMaxInputBlockBits) {
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params.lgblock = kMaxInputBlockBits;
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}
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size_t max_input_block_size = 1 << params.lgblock;
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std::vector<std::vector<uint8_t> > compressed_pieces;
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StaticDictionary dict;
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dict.Fill(params.enable_transforms);
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// Compress block-by-block independently.
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for (size_t pos = 0; pos < input_size; ) {
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size_t input_block_size = std::min(max_input_block_size, input_size - pos);
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size_t out_size = 1.2 * input_block_size + 1024;
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std::vector<uint8_t> out(out_size);
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if (!WriteMetaBlockParallel(params,
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input_block_size,
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&input_buffer[pos],
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pos,
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input_buffer,
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&dict,
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pos == 0,
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pos + input_block_size == input_size,
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&out_size,
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&out[0])) {
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return false;
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}
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out.resize(out_size);
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compressed_pieces.push_back(out);
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pos += input_block_size;
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}
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// Piece together the output.
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size_t out_pos = 0;
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for (int i = 0; i < compressed_pieces.size(); ++i) {
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const std::vector<uint8_t>& out = compressed_pieces[i];
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if (out_pos + out.size() > *encoded_size) {
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return false;
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}
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memcpy(&encoded_buffer[out_pos], &out[0], out.size());
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out_pos += out.size();
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}
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*encoded_size = out_pos;
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return true;
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}
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} // namespace brotli
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