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422 lines
14 KiB
C++
422 lines
14 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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// Test to verify correct stereo and multi-channel operation.
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#include <algorithm>
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#include <string>
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#include <list>
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#include "gtest/gtest.h"
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#include "webrtc/modules/audio_coding/codecs/pcm16b/include/pcm16b.h"
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#include "webrtc/modules/audio_coding/neteq/interface/neteq.h"
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#include "webrtc/modules/audio_coding/neteq/tools/input_audio_file.h"
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#include "webrtc/modules/audio_coding/neteq/tools/rtp_generator.h"
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#include "webrtc/system_wrappers/interface/scoped_ptr.h"
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#include "webrtc/test/testsupport/fileutils.h"
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#include "webrtc/test/testsupport/gtest_disable.h"
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namespace webrtc {
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struct TestParameters {
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int frame_size;
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int sample_rate;
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int num_channels;
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};
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// This is a parameterized test. The test parameters are supplied through a
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// TestParameters struct, which is obtained through the GetParam() method.
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//
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// The objective of the test is to create a mono input signal and a
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// multi-channel input signal, where each channel is identical to the mono
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// input channel. The two input signals are processed through their respective
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// NetEq instances. After that, the output signals are compared. The expected
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// result is that each channel in the multi-channel output is identical to the
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// mono output.
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class NetEqStereoTest : public ::testing::TestWithParam<TestParameters> {
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protected:
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static const int kTimeStepMs = 10;
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static const int kMaxBlockSize = 480; // 10 ms @ 48 kHz.
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static const uint8_t kPayloadTypeMono = 95;
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static const uint8_t kPayloadTypeMulti = 96;
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NetEqStereoTest()
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: num_channels_(GetParam().num_channels),
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sample_rate_hz_(GetParam().sample_rate),
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samples_per_ms_(sample_rate_hz_ / 1000),
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frame_size_ms_(GetParam().frame_size),
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frame_size_samples_(frame_size_ms_ * samples_per_ms_),
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output_size_samples_(10 * samples_per_ms_),
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rtp_generator_mono_(samples_per_ms_),
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rtp_generator_(samples_per_ms_),
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payload_size_bytes_(0),
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multi_payload_size_bytes_(0),
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last_send_time_(0),
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last_arrival_time_(0) {
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NetEq::Config config;
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config.sample_rate_hz = sample_rate_hz_;
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neteq_mono_ = NetEq::Create(config);
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neteq_ = NetEq::Create(config);
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input_ = new int16_t[frame_size_samples_];
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encoded_ = new uint8_t[2 * frame_size_samples_];
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input_multi_channel_ = new int16_t[frame_size_samples_ * num_channels_];
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encoded_multi_channel_ = new uint8_t[frame_size_samples_ * 2 *
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num_channels_];
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output_multi_channel_ = new int16_t[kMaxBlockSize * num_channels_];
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}
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~NetEqStereoTest() {
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delete neteq_mono_;
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delete neteq_;
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delete [] input_;
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delete [] encoded_;
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delete [] input_multi_channel_;
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delete [] encoded_multi_channel_;
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delete [] output_multi_channel_;
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}
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virtual void SetUp() {
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const std::string file_name =
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webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm");
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input_file_.reset(new test::InputAudioFile(file_name));
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NetEqDecoder mono_decoder;
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NetEqDecoder multi_decoder;
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switch (sample_rate_hz_) {
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case 8000:
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mono_decoder = kDecoderPCM16B;
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if (num_channels_ == 2) {
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multi_decoder = kDecoderPCM16B_2ch;
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} else if (num_channels_ == 5) {
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multi_decoder = kDecoderPCM16B_5ch;
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} else {
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FAIL() << "Only 2 and 5 channels supported for 8000 Hz.";
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}
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break;
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case 16000:
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mono_decoder = kDecoderPCM16Bwb;
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if (num_channels_ == 2) {
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multi_decoder = kDecoderPCM16Bwb_2ch;
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} else {
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FAIL() << "More than 2 channels is not supported for 16000 Hz.";
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}
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break;
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case 32000:
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mono_decoder = kDecoderPCM16Bswb32kHz;
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if (num_channels_ == 2) {
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multi_decoder = kDecoderPCM16Bswb32kHz_2ch;
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} else {
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FAIL() << "More than 2 channels is not supported for 32000 Hz.";
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}
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break;
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case 48000:
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mono_decoder = kDecoderPCM16Bswb48kHz;
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if (num_channels_ == 2) {
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multi_decoder = kDecoderPCM16Bswb48kHz_2ch;
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} else {
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FAIL() << "More than 2 channels is not supported for 48000 Hz.";
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}
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break;
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default:
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FAIL() << "We shouldn't get here.";
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}
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ASSERT_EQ(NetEq::kOK,
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neteq_mono_->RegisterPayloadType(mono_decoder,
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kPayloadTypeMono));
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ASSERT_EQ(NetEq::kOK,
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neteq_->RegisterPayloadType(multi_decoder,
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kPayloadTypeMulti));
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}
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virtual void TearDown() {}
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int GetNewPackets() {
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if (!input_file_->Read(frame_size_samples_, input_)) {
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return -1;
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}
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payload_size_bytes_ = WebRtcPcm16b_Encode(input_, frame_size_samples_,
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encoded_);
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if (frame_size_samples_ * 2 != payload_size_bytes_) {
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return -1;
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}
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int next_send_time = rtp_generator_mono_.GetRtpHeader(kPayloadTypeMono,
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frame_size_samples_,
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&rtp_header_mono_);
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test::InputAudioFile::DuplicateInterleaved(input_, frame_size_samples_,
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num_channels_,
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input_multi_channel_);
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multi_payload_size_bytes_ = WebRtcPcm16b_Encode(
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input_multi_channel_, frame_size_samples_ * num_channels_,
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encoded_multi_channel_);
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if (frame_size_samples_ * 2 * num_channels_ != multi_payload_size_bytes_) {
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return -1;
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}
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rtp_generator_.GetRtpHeader(kPayloadTypeMulti, frame_size_samples_,
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&rtp_header_);
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return next_send_time;
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}
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void VerifyOutput(size_t num_samples) {
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for (size_t i = 0; i < num_samples; ++i) {
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for (int j = 0; j < num_channels_; ++j) {
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ASSERT_EQ(output_[i], output_multi_channel_[i * num_channels_ + j]) <<
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"Diff in sample " << i << ", channel " << j << ".";
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}
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}
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}
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virtual int GetArrivalTime(int send_time) {
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int arrival_time = last_arrival_time_ + (send_time - last_send_time_);
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last_send_time_ = send_time;
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last_arrival_time_ = arrival_time;
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return arrival_time;
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}
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virtual bool Lost() { return false; }
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void RunTest(int num_loops) {
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// Get next input packets (mono and multi-channel).
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int next_send_time;
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int next_arrival_time;
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do {
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next_send_time = GetNewPackets();
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ASSERT_NE(-1, next_send_time);
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next_arrival_time = GetArrivalTime(next_send_time);
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} while (Lost()); // If lost, immediately read the next packet.
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int time_now = 0;
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for (int k = 0; k < num_loops; ++k) {
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while (time_now >= next_arrival_time) {
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// Insert packet in mono instance.
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ASSERT_EQ(NetEq::kOK,
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neteq_mono_->InsertPacket(rtp_header_mono_, encoded_,
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payload_size_bytes_,
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next_arrival_time));
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// Insert packet in multi-channel instance.
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ASSERT_EQ(NetEq::kOK,
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neteq_->InsertPacket(rtp_header_, encoded_multi_channel_,
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multi_payload_size_bytes_,
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next_arrival_time));
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// Get next input packets (mono and multi-channel).
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do {
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next_send_time = GetNewPackets();
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ASSERT_NE(-1, next_send_time);
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next_arrival_time = GetArrivalTime(next_send_time);
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} while (Lost()); // If lost, immediately read the next packet.
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}
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NetEqOutputType output_type;
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// Get audio from mono instance.
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int samples_per_channel;
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int num_channels;
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EXPECT_EQ(NetEq::kOK,
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neteq_mono_->GetAudio(kMaxBlockSize, output_,
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&samples_per_channel, &num_channels,
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&output_type));
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EXPECT_EQ(1, num_channels);
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EXPECT_EQ(output_size_samples_, samples_per_channel);
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// Get audio from multi-channel instance.
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ASSERT_EQ(NetEq::kOK,
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neteq_->GetAudio(kMaxBlockSize * num_channels_,
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output_multi_channel_,
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&samples_per_channel, &num_channels,
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&output_type));
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EXPECT_EQ(num_channels_, num_channels);
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EXPECT_EQ(output_size_samples_, samples_per_channel);
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std::ostringstream ss;
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ss << "Lap number " << k << ".";
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SCOPED_TRACE(ss.str()); // Print out the parameter values on failure.
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// Compare mono and multi-channel.
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ASSERT_NO_FATAL_FAILURE(VerifyOutput(output_size_samples_));
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time_now += kTimeStepMs;
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}
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}
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const int num_channels_;
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const int sample_rate_hz_;
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const int samples_per_ms_;
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const int frame_size_ms_;
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const int frame_size_samples_;
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const int output_size_samples_;
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NetEq* neteq_mono_;
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NetEq* neteq_;
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test::RtpGenerator rtp_generator_mono_;
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test::RtpGenerator rtp_generator_;
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int16_t* input_;
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int16_t* input_multi_channel_;
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uint8_t* encoded_;
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uint8_t* encoded_multi_channel_;
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int16_t output_[kMaxBlockSize];
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int16_t* output_multi_channel_;
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WebRtcRTPHeader rtp_header_mono_;
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WebRtcRTPHeader rtp_header_;
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int payload_size_bytes_;
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int multi_payload_size_bytes_;
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int last_send_time_;
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int last_arrival_time_;
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scoped_ptr<test::InputAudioFile> input_file_;
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};
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class NetEqStereoTestNoJitter : public NetEqStereoTest {
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protected:
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NetEqStereoTestNoJitter()
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: NetEqStereoTest() {
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// Start the sender 100 ms before the receiver to pre-fill the buffer.
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// This is to avoid doing preemptive expand early in the test.
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// TODO(hlundin): Mock the decision making instead to control the modes.
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last_arrival_time_ = -100;
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}
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};
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TEST_P(NetEqStereoTestNoJitter, DISABLED_ON_ANDROID(RunTest)) {
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RunTest(8);
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}
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class NetEqStereoTestPositiveDrift : public NetEqStereoTest {
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protected:
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NetEqStereoTestPositiveDrift()
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: NetEqStereoTest(),
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drift_factor(0.9) {
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// Start the sender 100 ms before the receiver to pre-fill the buffer.
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// This is to avoid doing preemptive expand early in the test.
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// TODO(hlundin): Mock the decision making instead to control the modes.
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last_arrival_time_ = -100;
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}
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virtual int GetArrivalTime(int send_time) {
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int arrival_time = last_arrival_time_ +
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drift_factor * (send_time - last_send_time_);
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last_send_time_ = send_time;
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last_arrival_time_ = arrival_time;
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return arrival_time;
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}
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double drift_factor;
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};
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TEST_P(NetEqStereoTestPositiveDrift, DISABLED_ON_ANDROID(RunTest)) {
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RunTest(100);
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}
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class NetEqStereoTestNegativeDrift : public NetEqStereoTestPositiveDrift {
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protected:
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NetEqStereoTestNegativeDrift()
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: NetEqStereoTestPositiveDrift() {
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drift_factor = 1.1;
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last_arrival_time_ = 0;
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}
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};
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TEST_P(NetEqStereoTestNegativeDrift, DISABLED_ON_ANDROID(RunTest)) {
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RunTest(100);
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}
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class NetEqStereoTestDelays : public NetEqStereoTest {
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protected:
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static const int kDelayInterval = 10;
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static const int kDelay = 1000;
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NetEqStereoTestDelays()
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: NetEqStereoTest(),
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frame_index_(0) {
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}
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virtual int GetArrivalTime(int send_time) {
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// Deliver immediately, unless we have a back-log.
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int arrival_time = std::min(last_arrival_time_, send_time);
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if (++frame_index_ % kDelayInterval == 0) {
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// Delay this packet.
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arrival_time += kDelay;
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}
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last_send_time_ = send_time;
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last_arrival_time_ = arrival_time;
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return arrival_time;
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}
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int frame_index_;
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};
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TEST_P(NetEqStereoTestDelays, DISABLED_ON_ANDROID(RunTest)) {
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RunTest(1000);
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}
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class NetEqStereoTestLosses : public NetEqStereoTest {
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protected:
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static const int kLossInterval = 10;
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NetEqStereoTestLosses()
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: NetEqStereoTest(),
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frame_index_(0) {
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}
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virtual bool Lost() {
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return (++frame_index_) % kLossInterval == 0;
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}
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int frame_index_;
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};
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TEST_P(NetEqStereoTestLosses, DISABLED_ON_ANDROID(RunTest)) {
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RunTest(100);
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}
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// Creates a list of parameter sets.
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std::list<TestParameters> GetTestParameters() {
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std::list<TestParameters> l;
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const int sample_rates[] = {8000, 16000, 32000};
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const int num_rates = sizeof(sample_rates) / sizeof(sample_rates[0]);
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// Loop through sample rates.
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for (int rate_index = 0; rate_index < num_rates; ++rate_index) {
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int sample_rate = sample_rates[rate_index];
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// Loop through all frame sizes between 10 and 60 ms.
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for (int frame_size = 10; frame_size <= 60; frame_size += 10) {
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TestParameters p;
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p.frame_size = frame_size;
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p.sample_rate = sample_rate;
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p.num_channels = 2;
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l.push_back(p);
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if (sample_rate == 8000) {
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// Add a five-channel test for 8000 Hz.
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p.num_channels = 5;
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l.push_back(p);
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}
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}
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}
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return l;
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}
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// Pretty-printing the test parameters in case of an error.
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void PrintTo(const TestParameters& p, ::std::ostream* os) {
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*os << "{frame_size = " << p.frame_size <<
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", num_channels = " << p.num_channels <<
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", sample_rate = " << p.sample_rate << "}";
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}
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// Instantiate the tests. Each test is instantiated using the function above,
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// so that all different parameter combinations are tested.
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INSTANTIATE_TEST_CASE_P(MultiChannel,
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NetEqStereoTestNoJitter,
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::testing::ValuesIn(GetTestParameters()));
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INSTANTIATE_TEST_CASE_P(MultiChannel,
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NetEqStereoTestPositiveDrift,
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::testing::ValuesIn(GetTestParameters()));
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INSTANTIATE_TEST_CASE_P(MultiChannel,
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NetEqStereoTestNegativeDrift,
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::testing::ValuesIn(GetTestParameters()));
|
||
|
|
||
|
INSTANTIATE_TEST_CASE_P(MultiChannel,
|
||
|
NetEqStereoTestDelays,
|
||
|
::testing::ValuesIn(GetTestParameters()));
|
||
|
|
||
|
INSTANTIATE_TEST_CASE_P(MultiChannel,
|
||
|
NetEqStereoTestLosses,
|
||
|
::testing::ValuesIn(GetTestParameters()));
|
||
|
|
||
|
} // namespace webrtc
|