246 lines
8.6 KiB
C++
246 lines
8.6 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "packager/media/formats/mp2t/es_parser_audio.h"
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#include <stdint.h>
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#include <algorithm>
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#include <list>
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#include "packager/base/logging.h"
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#include "packager/base/strings/string_number_conversions.h"
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#include "packager/media/base/audio_timestamp_helper.h"
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#include "packager/media/base/bit_reader.h"
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#include "packager/media/base/media_sample.h"
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#include "packager/media/base/timestamp.h"
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#include "packager/media/formats/mp2t/adts_header.h"
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#include "packager/media/formats/mp2t/mp2t_common.h"
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#include "packager/media/formats/mpeg/adts_constants.h"
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namespace shaka {
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namespace media {
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namespace mp2t {
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// Look for a syncword.
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// |new_pos| returns
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// - either the byte position of the frame (if found)
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// - or the byte position of 1st byte that was not processed (if not found).
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// In every case, the returned value in |new_pos| is such that new_pos >= pos
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// |audio_header| is updated with the new audio frame info if a syncword is
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// found.
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// Return whether a syncword was found.
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static bool LookForSyncWord(const uint8_t* raw_es,
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int raw_es_size,
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int pos,
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int* new_pos,
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AudioHeader* audio_header) {
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DCHECK_GE(pos, 0);
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DCHECK_LE(pos, raw_es_size);
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const int max_offset =
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raw_es_size - static_cast<int>(audio_header->GetMinFrameSize());
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if (pos >= max_offset) {
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// Do not change the position if:
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// - max_offset < 0: not enough bytes to get a full header
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// Since pos >= 0, this is a subcase of the next condition.
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// - pos >= max_offset: might be the case after reading one full frame,
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// |pos| is then incremented by the frame size and might then point
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// to the end of the buffer.
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*new_pos = pos;
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return false;
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}
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for (int offset = pos; offset < max_offset; offset++) {
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const uint8_t* cur_buf = &raw_es[offset];
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if (!audio_header->IsSyncWord(cur_buf))
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continue;
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if (!audio_header->Parse(cur_buf, raw_es_size - offset))
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continue;
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// Check whether there is another frame |size| apart from the current one.
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const size_t remaining_size = static_cast<size_t>(raw_es_size - offset);
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const int kSyncWordSize = 2;
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if (remaining_size >= audio_header->GetFrameSize() + kSyncWordSize &&
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!audio_header->IsSyncWord(&cur_buf[audio_header->GetFrameSize()])) {
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continue;
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}
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*new_pos = offset;
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return true;
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}
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*new_pos = max_offset;
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return false;
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}
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EsParserAudio::EsParserAudio(uint32_t pid,
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const NewStreamInfoCB& new_stream_info_cb,
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const EmitSampleCB& emit_sample_cb,
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bool sbr_in_mimetype)
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: EsParser(pid),
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audio_header_(new AdtsHeader),
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new_stream_info_cb_(new_stream_info_cb),
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emit_sample_cb_(emit_sample_cb),
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sbr_in_mimetype_(sbr_in_mimetype) {}
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EsParserAudio::~EsParserAudio() {}
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bool EsParserAudio::Parse(const uint8_t* buf,
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int size,
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int64_t pts,
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int64_t dts) {
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int raw_es_size;
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const uint8_t* raw_es;
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// The incoming PTS applies to the access unit that comes just after
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// the beginning of |buf|.
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if (pts != kNoTimestamp) {
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es_byte_queue_.Peek(&raw_es, &raw_es_size);
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pts_list_.push_back(EsPts(raw_es_size, pts));
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}
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// Copy the input data to the ES buffer.
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es_byte_queue_.Push(buf, static_cast<int>(size));
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es_byte_queue_.Peek(&raw_es, &raw_es_size);
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// Look for every frame in the ES buffer starting at offset = 0
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int es_position = 0;
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while (LookForSyncWord(raw_es, raw_es_size, es_position, &es_position,
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audio_header_.get())) {
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const uint8_t* frame_ptr = raw_es + es_position;
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DVLOG(LOG_LEVEL_ES) << "syncword @ pos=" << es_position
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<< " frame_size=" << audio_header_->GetFrameSize();
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DVLOG(LOG_LEVEL_ES) << "header: "
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<< base::HexEncode(frame_ptr,
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audio_header_->GetHeaderSize());
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// Do not process the frame if this one is a partial frame.
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int remaining_size = raw_es_size - es_position;
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if (static_cast<int>(audio_header_->GetFrameSize()) > remaining_size)
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break;
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// Update the audio configuration if needed.
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if (!UpdateAudioConfiguration(*audio_header_))
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return false;
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// Get the PTS & the duration of this access unit.
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while (!pts_list_.empty() && pts_list_.front().first <= es_position) {
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audio_timestamp_helper_->SetBaseTimestamp(pts_list_.front().second);
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pts_list_.pop_front();
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}
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int64_t current_pts = audio_timestamp_helper_->GetTimestamp();
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int64_t frame_duration =
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audio_timestamp_helper_->GetFrameDuration(kSamplesPerAACFrame);
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// Emit an audio frame.
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bool is_key_frame = true;
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std::shared_ptr<MediaSample> sample = MediaSample::CopyFrom(
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frame_ptr + audio_header_->GetHeaderSize(),
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audio_header_->GetFrameSize() - audio_header_->GetHeaderSize(),
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is_key_frame);
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sample->set_pts(current_pts);
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sample->set_dts(current_pts);
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sample->set_duration(frame_duration);
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emit_sample_cb_.Run(pid(), sample);
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// Update the PTS of the next frame.
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audio_timestamp_helper_->AddFrames(kSamplesPerAACFrame);
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// Skip the current frame.
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es_position += static_cast<int>(audio_header_->GetFrameSize());
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}
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// Discard all the bytes that have been processed.
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DiscardEs(es_position);
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return true;
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}
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void EsParserAudio::Flush() {}
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void EsParserAudio::Reset() {
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es_byte_queue_.Reset();
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pts_list_.clear();
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last_audio_decoder_config_ = std::shared_ptr<AudioStreamInfo>();
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}
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bool EsParserAudio::UpdateAudioConfiguration(const AudioHeader& audio_header) {
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const uint8_t kAacSampleSizeBits(16);
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std::vector<uint8_t> audio_specific_config;
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audio_header.GetAudioSpecificConfig(&audio_specific_config);
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if (last_audio_decoder_config_) {
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// Verify that the audio decoder config has not changed.
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if (last_audio_decoder_config_->codec_config() == audio_specific_config) {
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// Audio configuration has not changed.
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return true;
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}
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NOTIMPLEMENTED() << "Varying audio configurations are not supported.";
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return false;
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}
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// The following code is written according to ISO 14496 Part 3 Table 1.11 and
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// Table 1.22. (Table 1.11 refers to the capping to 48000, Table 1.22 refers
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// to SBR doubling the AAC sample rate.)
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int samples_per_second = audio_header.GetSamplingFrequency();
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// TODO(kqyang): Review if it makes sense to have |sbr_in_mimetype_| in
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// es_parser.
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int extended_samples_per_second =
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sbr_in_mimetype_ ? std::min(2 * samples_per_second, 48000)
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: samples_per_second;
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const Codec codec = kCodecAAC;
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last_audio_decoder_config_ = std::make_shared<AudioStreamInfo>(
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pid(), kMpeg2Timescale, kInfiniteDuration, codec,
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AudioStreamInfo::GetCodecString(codec, audio_header.GetObjectType()),
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audio_specific_config.data(), audio_specific_config.size(),
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kAacSampleSizeBits, audio_header.GetNumChannels(),
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extended_samples_per_second, 0 /* seek preroll */, 0 /* codec delay */,
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0 /* max bitrate */, 0 /* avg bitrate */, std::string(), false);
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DVLOG(1) << "Sampling frequency: " << samples_per_second;
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DVLOG(1) << "Extended sampling frequency: " << extended_samples_per_second;
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DVLOG(1) << "Channel config: "
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<< static_cast<int>(audio_header.GetNumChannels());
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DVLOG(1) << "Object type: " << static_cast<int>(audio_header.GetObjectType());
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// Reset the timestamp helper to use a new sampling frequency.
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if (audio_timestamp_helper_) {
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int64_t base_timestamp = audio_timestamp_helper_->GetTimestamp();
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audio_timestamp_helper_.reset(
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new AudioTimestampHelper(kMpeg2Timescale, samples_per_second));
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audio_timestamp_helper_->SetBaseTimestamp(base_timestamp);
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} else {
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audio_timestamp_helper_.reset(
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new AudioTimestampHelper(kMpeg2Timescale, extended_samples_per_second));
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}
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// Audio config notification.
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new_stream_info_cb_.Run(last_audio_decoder_config_);
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return true;
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}
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void EsParserAudio::DiscardEs(int nbytes) {
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DCHECK_GE(nbytes, 0);
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if (nbytes <= 0)
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return;
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// Adjust the ES position of each PTS.
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for (EsPtsList::iterator it = pts_list_.begin(); it != pts_list_.end(); ++it)
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it->first -= nbytes;
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// Discard |nbytes| of ES.
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es_byte_queue_.Pop(nbytes);
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}
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} // namespace mp2t
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} // namespace media
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} // namespace shaka
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