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230 lines
7.9 KiB
C++
230 lines
7.9 KiB
C++
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/*
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* Copyright (c) 2013 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "webrtc/modules/audio_coding/main/acm2/nack.h"
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#include <assert.h> // For assert.
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#include <algorithm> // For std::max.
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#include "webrtc/modules/interface/module_common_types.h"
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#include "webrtc/system_wrappers/interface/logging.h"
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namespace webrtc {
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namespace acm2 {
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namespace {
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const int kDefaultSampleRateKhz = 48;
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const int kDefaultPacketSizeMs = 20;
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} // namespace
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Nack::Nack(int nack_threshold_packets)
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: nack_threshold_packets_(nack_threshold_packets),
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sequence_num_last_received_rtp_(0),
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timestamp_last_received_rtp_(0),
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any_rtp_received_(false),
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sequence_num_last_decoded_rtp_(0),
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timestamp_last_decoded_rtp_(0),
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any_rtp_decoded_(false),
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sample_rate_khz_(kDefaultSampleRateKhz),
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samples_per_packet_(sample_rate_khz_ * kDefaultPacketSizeMs),
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max_nack_list_size_(kNackListSizeLimit) {}
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Nack* Nack::Create(int nack_threshold_packets) {
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return new Nack(nack_threshold_packets);
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}
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void Nack::UpdateSampleRate(int sample_rate_hz) {
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assert(sample_rate_hz > 0);
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sample_rate_khz_ = sample_rate_hz / 1000;
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}
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void Nack::UpdateLastReceivedPacket(uint16_t sequence_number,
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uint32_t timestamp) {
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// Just record the value of sequence number and timestamp if this is the
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// first packet.
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if (!any_rtp_received_) {
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sequence_num_last_received_rtp_ = sequence_number;
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timestamp_last_received_rtp_ = timestamp;
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any_rtp_received_ = true;
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// If no packet is decoded, to have a reasonable estimate of time-to-play
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// use the given values.
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if (!any_rtp_decoded_) {
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sequence_num_last_decoded_rtp_ = sequence_number;
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timestamp_last_decoded_rtp_ = timestamp;
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}
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return;
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}
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if (sequence_number == sequence_num_last_received_rtp_)
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return;
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// Received RTP should not be in the list.
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nack_list_.erase(sequence_number);
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// If this is an old sequence number, no more action is required, return.
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if (IsNewerSequenceNumber(sequence_num_last_received_rtp_, sequence_number))
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return;
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UpdateSamplesPerPacket(sequence_number, timestamp);
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UpdateList(sequence_number);
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sequence_num_last_received_rtp_ = sequence_number;
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timestamp_last_received_rtp_ = timestamp;
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LimitNackListSize();
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}
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void Nack::UpdateSamplesPerPacket(uint16_t sequence_number_current_received_rtp,
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uint32_t timestamp_current_received_rtp) {
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uint32_t timestamp_increase = timestamp_current_received_rtp -
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timestamp_last_received_rtp_;
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uint16_t sequence_num_increase = sequence_number_current_received_rtp -
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sequence_num_last_received_rtp_;
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samples_per_packet_ = timestamp_increase / sequence_num_increase;
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}
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void Nack::UpdateList(uint16_t sequence_number_current_received_rtp) {
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// Some of the packets which were considered late, now are considered missing.
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ChangeFromLateToMissing(sequence_number_current_received_rtp);
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if (IsNewerSequenceNumber(sequence_number_current_received_rtp,
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sequence_num_last_received_rtp_ + 1))
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AddToList(sequence_number_current_received_rtp);
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}
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void Nack::ChangeFromLateToMissing(
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uint16_t sequence_number_current_received_rtp) {
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NackList::const_iterator lower_bound = nack_list_.lower_bound(
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static_cast<uint16_t>(sequence_number_current_received_rtp -
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nack_threshold_packets_));
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for (NackList::iterator it = nack_list_.begin(); it != lower_bound; ++it)
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it->second.is_missing = true;
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}
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uint32_t Nack::EstimateTimestamp(uint16_t sequence_num) {
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uint16_t sequence_num_diff = sequence_num - sequence_num_last_received_rtp_;
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return sequence_num_diff * samples_per_packet_ + timestamp_last_received_rtp_;
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}
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void Nack::AddToList(uint16_t sequence_number_current_received_rtp) {
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assert(!any_rtp_decoded_ || IsNewerSequenceNumber(
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sequence_number_current_received_rtp, sequence_num_last_decoded_rtp_));
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// Packets with sequence numbers older than |upper_bound_missing| are
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// considered missing, and the rest are considered late.
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uint16_t upper_bound_missing = sequence_number_current_received_rtp -
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nack_threshold_packets_;
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for (uint16_t n = sequence_num_last_received_rtp_ + 1;
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IsNewerSequenceNumber(sequence_number_current_received_rtp, n); ++n) {
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bool is_missing = IsNewerSequenceNumber(upper_bound_missing, n);
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uint32_t timestamp = EstimateTimestamp(n);
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NackElement nack_element(TimeToPlay(timestamp), timestamp, is_missing);
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nack_list_.insert(nack_list_.end(), std::make_pair(n, nack_element));
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}
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}
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void Nack::UpdateEstimatedPlayoutTimeBy10ms() {
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while (!nack_list_.empty() &&
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nack_list_.begin()->second.time_to_play_ms <= 10)
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nack_list_.erase(nack_list_.begin());
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for (NackList::iterator it = nack_list_.begin(); it != nack_list_.end(); ++it)
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it->second.time_to_play_ms -= 10;
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}
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void Nack::UpdateLastDecodedPacket(uint16_t sequence_number,
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uint32_t timestamp) {
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if (IsNewerSequenceNumber(sequence_number, sequence_num_last_decoded_rtp_) ||
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!any_rtp_decoded_) {
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sequence_num_last_decoded_rtp_ = sequence_number;
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timestamp_last_decoded_rtp_ = timestamp;
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// Packets in the list with sequence numbers less than the
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// sequence number of the decoded RTP should be removed from the lists.
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// They will be discarded by the jitter buffer if they arrive.
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nack_list_.erase(nack_list_.begin(), nack_list_.upper_bound(
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sequence_num_last_decoded_rtp_));
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// Update estimated time-to-play.
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for (NackList::iterator it = nack_list_.begin(); it != nack_list_.end();
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++it)
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it->second.time_to_play_ms = TimeToPlay(it->second.estimated_timestamp);
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} else {
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assert(sequence_number == sequence_num_last_decoded_rtp_);
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// Same sequence number as before. 10 ms is elapsed, update estimations for
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// time-to-play.
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UpdateEstimatedPlayoutTimeBy10ms();
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// Update timestamp for better estimate of time-to-play, for packets which
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// are added to NACK list later on.
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timestamp_last_decoded_rtp_ += sample_rate_khz_ * 10;
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}
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any_rtp_decoded_ = true;
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}
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Nack::NackList Nack::GetNackList() const {
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return nack_list_;
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}
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void Nack::Reset() {
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nack_list_.clear();
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sequence_num_last_received_rtp_ = 0;
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timestamp_last_received_rtp_ = 0;
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any_rtp_received_ = false;
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sequence_num_last_decoded_rtp_ = 0;
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timestamp_last_decoded_rtp_ = 0;
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any_rtp_decoded_ = false;
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sample_rate_khz_ = kDefaultSampleRateKhz;
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samples_per_packet_ = sample_rate_khz_ * kDefaultPacketSizeMs;
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}
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int Nack::SetMaxNackListSize(size_t max_nack_list_size) {
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if (max_nack_list_size == 0 || max_nack_list_size > kNackListSizeLimit)
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return -1;
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max_nack_list_size_ = max_nack_list_size;
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LimitNackListSize();
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return 0;
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}
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void Nack::LimitNackListSize() {
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uint16_t limit = sequence_num_last_received_rtp_ -
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static_cast<uint16_t>(max_nack_list_size_) - 1;
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nack_list_.erase(nack_list_.begin(), nack_list_.upper_bound(limit));
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}
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int Nack::TimeToPlay(uint32_t timestamp) const {
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uint32_t timestamp_increase = timestamp - timestamp_last_decoded_rtp_;
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return timestamp_increase / sample_rate_khz_;
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}
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// We don't erase elements with time-to-play shorter than round-trip-time.
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std::vector<uint16_t> Nack::GetNackList(int round_trip_time_ms) const {
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std::vector<uint16_t> sequence_numbers;
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for (NackList::const_iterator it = nack_list_.begin(); it != nack_list_.end();
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++it) {
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if (it->second.is_missing &&
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it->second.time_to_play_ms > round_trip_time_ms)
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sequence_numbers.push_back(it->first);
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}
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return sequence_numbers;
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}
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} // namespace acm2
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} // namespace webrtc
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