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webrtc_m130/webrtc/modules/audio_coding/main/test/TestStereo.cc
Karl Wiberg 2ea71c3279 Replace ACMGenericCodec with CodecOwner and AudioEncoderMutable 
CodecOwner is introduced here; AudioEncoderMutable was introduced in a
previous commit, but had no users until now. The only remaining task
for ACMGenericCodec was to construct and maintain the stack of speech,
CNG, and RED encoders. This task is now handled by the CodecOwner,
which is owned and used by the CodecManager.

COAUTHOR=henrik.lundin@webrtc.org
BUG=4228
R=jmarusic@webrtc.org, minyue@webrtc.org

Review URL: https://webrtc-codereview.appspot.com/43189004

Cr-Commit-Position: refs/heads/master@{#9152}
2015-05-07 13:49:24 +00:00

848 lines
28 KiB
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/*
* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "webrtc/modules/audio_coding/main/test/TestStereo.h"
#include <assert.h>
#include <string>
#include "testing/gtest/include/gtest/gtest.h"
#include "webrtc/common_types.h"
#include "webrtc/engine_configurations.h"
#include "webrtc/modules/audio_coding/main/interface/audio_coding_module_typedefs.h"
#include "webrtc/modules/audio_coding/main/test/utility.h"
#include "webrtc/system_wrappers/interface/trace.h"
#include "webrtc/test/testsupport/fileutils.h"
namespace webrtc {
// Class for simulating packet handling
TestPackStereo::TestPackStereo()
: receiver_acm_(NULL),
seq_no_(0),
timestamp_diff_(0),
last_in_timestamp_(0),
total_bytes_(0),
payload_size_(0),
codec_mode_(kNotSet),
lost_packet_(false) {
}
TestPackStereo::~TestPackStereo() {
}
void TestPackStereo::RegisterReceiverACM(AudioCodingModule* acm) {
receiver_acm_ = acm;
return;
}
int32_t TestPackStereo::SendData(const FrameType frame_type,
const uint8_t payload_type,
const uint32_t timestamp,
const uint8_t* payload_data,
const size_t payload_size,
const RTPFragmentationHeader* fragmentation) {
WebRtcRTPHeader rtp_info;
int32_t status = 0;
rtp_info.header.markerBit = false;
rtp_info.header.ssrc = 0;
rtp_info.header.sequenceNumber = seq_no_++;
rtp_info.header.payloadType = payload_type;
rtp_info.header.timestamp = timestamp;
if (frame_type == kFrameEmpty) {
// Skip this frame
return 0;
}
if (lost_packet_ == false) {
if (frame_type != kAudioFrameCN) {
rtp_info.type.Audio.isCNG = false;
rtp_info.type.Audio.channel = static_cast<int>(codec_mode_);
} else {
rtp_info.type.Audio.isCNG = true;
rtp_info.type.Audio.channel = static_cast<int>(kMono);
}
status = receiver_acm_->IncomingPacket(payload_data, payload_size,
rtp_info);
if (frame_type != kAudioFrameCN) {
payload_size_ = static_cast<int>(payload_size);
} else {
payload_size_ = -1;
}
timestamp_diff_ = timestamp - last_in_timestamp_;
last_in_timestamp_ = timestamp;
total_bytes_ += payload_size;
}
return status;
}
uint16_t TestPackStereo::payload_size() {
return static_cast<uint16_t>(payload_size_);
}
uint32_t TestPackStereo::timestamp_diff() {
return timestamp_diff_;
}
void TestPackStereo::reset_payload_size() {
payload_size_ = 0;
}
void TestPackStereo::set_codec_mode(enum StereoMonoMode mode) {
codec_mode_ = mode;
}
void TestPackStereo::set_lost_packet(bool lost) {
lost_packet_ = lost;
}
TestStereo::TestStereo(int test_mode)
: acm_a_(AudioCodingModule::Create(0)),
acm_b_(AudioCodingModule::Create(1)),
channel_a2b_(NULL),
test_cntr_(0),
pack_size_samp_(0),
pack_size_bytes_(0),
counter_(0)
#ifdef WEBRTC_CODEC_G722
, g722_pltype_(0)
#endif
#ifdef WEBRTC_CODEC_PCM16
, l16_8khz_pltype_(-1)
, l16_16khz_pltype_(-1)
, l16_32khz_pltype_(-1)
#endif
#ifdef PCMA_AND_PCMU
, pcma_pltype_(-1)
, pcmu_pltype_(-1)
#endif
#ifdef WEBRTC_CODEC_OPUS
, opus_pltype_(-1)
#endif
{
// test_mode = 0 for silent test (auto test)
test_mode_ = test_mode;
}
TestStereo::~TestStereo() {
if (channel_a2b_ != NULL) {
delete channel_a2b_;
channel_a2b_ = NULL;
}
}
void TestStereo::Perform() {
uint16_t frequency_hz;
int audio_channels;
int codec_channels;
bool dtx;
bool vad;
ACMVADMode vad_mode;
// Open both mono and stereo test files in 32 kHz.
const std::string file_name_stereo = webrtc::test::ResourcePath(
"audio_coding/teststereo32kHz", "pcm");
const std::string file_name_mono = webrtc::test::ResourcePath(
"audio_coding/testfile32kHz", "pcm");
frequency_hz = 32000;
in_file_stereo_ = new PCMFile();
in_file_mono_ = new PCMFile();
in_file_stereo_->Open(file_name_stereo, frequency_hz, "rb");
in_file_stereo_->ReadStereo(true);
in_file_mono_->Open(file_name_mono, frequency_hz, "rb");
in_file_mono_->ReadStereo(false);
// Create and initialize two ACMs, one for each side of a one-to-one call.
ASSERT_TRUE((acm_a_.get() != NULL) && (acm_b_.get() != NULL));
EXPECT_EQ(0, acm_a_->InitializeReceiver());
EXPECT_EQ(0, acm_b_->InitializeReceiver());
// Register all available codes as receiving codecs.
uint8_t num_encoders = acm_a_->NumberOfCodecs();
CodecInst my_codec_param;
for (uint8_t n = 0; n < num_encoders; n++) {
EXPECT_EQ(0, acm_b_->Codec(n, &my_codec_param));
EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(my_codec_param));
}
// Test that unregister all receive codecs works.
for (uint8_t n = 0; n < num_encoders; n++) {
EXPECT_EQ(0, acm_b_->Codec(n, &my_codec_param));
EXPECT_EQ(0, acm_b_->UnregisterReceiveCodec(my_codec_param.pltype));
}
// Register all available codes as receiving codecs once more.
for (uint8_t n = 0; n < num_encoders; n++) {
EXPECT_EQ(0, acm_b_->Codec(n, &my_codec_param));
EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(my_codec_param));
}
// Create and connect the channel.
channel_a2b_ = new TestPackStereo;
EXPECT_EQ(0, acm_a_->RegisterTransportCallback(channel_a2b_));
channel_a2b_->RegisterReceiverACM(acm_b_.get());
// Start with setting VAD/DTX, before we know we will send stereo.
// Continue with setting a stereo codec as send codec and verify that
// VAD/DTX gets turned off.
EXPECT_EQ(0, acm_a_->SetVAD(true, true, VADNormal));
EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode));
EXPECT_TRUE(dtx);
EXPECT_TRUE(vad);
char codec_pcma_temp[] = "PCMA";
RegisterSendCodec('A', codec_pcma_temp, 8000, 64000, 80, 2, pcma_pltype_);
EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode));
EXPECT_FALSE(dtx);
EXPECT_FALSE(vad);
if (test_mode_ != 0) {
printf("\n");
}
//
// Test Stereo-To-Stereo for all codecs.
//
audio_channels = 2;
codec_channels = 2;
// All codecs are tested for all allowed sampling frequencies, rates and
// packet sizes.
#ifdef WEBRTC_CODEC_G722
if (test_mode_ != 0) {
printf("===========================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-stereo\n");
}
channel_a2b_->set_codec_mode(kStereo);
test_cntr_++;
OpenOutFile(test_cntr_);
char codec_g722[] = "G722";
RegisterSendCodec('A', codec_g722, 16000, 64000, 160, codec_channels,
g722_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_g722, 16000, 64000, 320, codec_channels,
g722_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_g722, 16000, 64000, 480, codec_channels,
g722_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_g722, 16000, 64000, 640, codec_channels,
g722_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_g722, 16000, 64000, 800, codec_channels,
g722_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_g722, 16000, 64000, 960, codec_channels,
g722_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef WEBRTC_CODEC_PCM16
if (test_mode_ != 0) {
printf("===========================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-stereo\n");
}
channel_a2b_->set_codec_mode(kStereo);
test_cntr_++;
OpenOutFile(test_cntr_);
char codec_l16[] = "L16";
RegisterSendCodec('A', codec_l16, 8000, 128000, 80, codec_channels,
l16_8khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_l16, 8000, 128000, 160, codec_channels,
l16_8khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_l16, 8000, 128000, 240, codec_channels,
l16_8khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_l16, 8000, 128000, 320, codec_channels,
l16_8khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
if (test_mode_ != 0) {
printf("===========================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-stereo\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 16000, 256000, 160, codec_channels,
l16_16khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_l16, 16000, 256000, 320, codec_channels,
l16_16khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_l16, 16000, 256000, 480, codec_channels,
l16_16khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_l16, 16000, 256000, 640, codec_channels,
l16_16khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
if (test_mode_ != 0) {
printf("===========================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-stereo\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 32000, 512000, 320, codec_channels,
l16_32khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_l16, 32000, 512000, 640, codec_channels,
l16_32khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef PCMA_AND_PCMU
if (test_mode_ != 0) {
printf("===========================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-stereo\n");
}
channel_a2b_->set_codec_mode(kStereo);
audio_channels = 2;
codec_channels = 2;
test_cntr_++;
OpenOutFile(test_cntr_);
char codec_pcma[] = "PCMA";
RegisterSendCodec('A', codec_pcma, 8000, 64000, 80, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcma, 8000, 64000, 160, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcma, 8000, 64000, 240, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcma, 8000, 64000, 320, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcma, 8000, 64000, 400, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcma, 8000, 64000, 480, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
// Test that VAD/DTX cannot be turned on while sending stereo.
EXPECT_EQ(-1, acm_a_->SetVAD(true, true, VADNormal));
EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode));
EXPECT_FALSE(dtx);
EXPECT_FALSE(vad);
EXPECT_EQ(0, acm_a_->SetVAD(false, false, VADNormal));
EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode));
EXPECT_FALSE(dtx);
EXPECT_FALSE(vad);
out_file_.Close();
if (test_mode_ != 0) {
printf("===========================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-stereo\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
char codec_pcmu[] = "PCMU";
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 80, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 160, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 240, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 320, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 400, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 480, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef WEBRTC_CODEC_OPUS
if (test_mode_ != 0) {
printf("===========================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-stereo\n");
}
channel_a2b_->set_codec_mode(kStereo);
audio_channels = 2;
codec_channels = 2;
test_cntr_++;
OpenOutFile(test_cntr_);
char codec_opus[] = "opus";
// Run Opus with 10 ms frame size.
RegisterSendCodec('A', codec_opus, 48000, 64000, 480, codec_channels,
opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
// Run Opus with 20 ms frame size.
RegisterSendCodec('A', codec_opus, 48000, 64000, 480*2, codec_channels,
opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
// Run Opus with 40 ms frame size.
RegisterSendCodec('A', codec_opus, 48000, 64000, 480*4, codec_channels,
opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
// Run Opus with 60 ms frame size.
RegisterSendCodec('A', codec_opus, 48000, 64000, 480*6, codec_channels,
opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
// Run Opus with 20 ms frame size and different bitrates.
RegisterSendCodec('A', codec_opus, 48000, 40000, 960, codec_channels,
opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_opus, 48000, 510000, 960, codec_channels,
opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
//
// Test Mono-To-Stereo for all codecs.
//
audio_channels = 1;
codec_channels = 2;
#ifdef WEBRTC_CODEC_G722
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Mono-to-stereo\n");
}
test_cntr_++;
channel_a2b_->set_codec_mode(kStereo);
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_g722, 16000, 64000, 160, codec_channels,
g722_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef WEBRTC_CODEC_PCM16
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Mono-to-stereo\n");
}
test_cntr_++;
channel_a2b_->set_codec_mode(kStereo);
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 8000, 128000, 80, codec_channels,
l16_8khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Mono-to-stereo\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 16000, 256000, 160, codec_channels,
l16_16khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Mono-to-stereo\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 32000, 512000, 320, codec_channels,
l16_32khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef PCMA_AND_PCMU
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Mono-to-stereo\n");
}
test_cntr_++;
channel_a2b_->set_codec_mode(kStereo);
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 80, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcma, 8000, 64000, 80, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef WEBRTC_CODEC_OPUS
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Mono-to-stereo\n");
}
// Keep encode and decode in stereo.
test_cntr_++;
channel_a2b_->set_codec_mode(kStereo);
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_opus, 48000, 64000, 960, codec_channels,
opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
// Encode in mono, decode in stereo mode.
RegisterSendCodec('A', codec_opus, 48000, 64000, 960, 1, opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
//
// Test Stereo-To-Mono for all codecs.
//
audio_channels = 2;
codec_channels = 1;
channel_a2b_->set_codec_mode(kMono);
#ifdef WEBRTC_CODEC_G722
// Run stereo audio and mono codec.
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-mono\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_g722, 16000, 64000, 160, codec_channels,
g722_pltype_);
// Make sure it is possible to set VAD/CNG, now that we are sending mono
// again.
EXPECT_EQ(0, acm_a_->SetVAD(true, true, VADNormal));
EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode));
EXPECT_TRUE(dtx);
EXPECT_TRUE(vad);
EXPECT_EQ(0, acm_a_->SetVAD(false, false, VADNormal));
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef WEBRTC_CODEC_PCM16
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-mono\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 8000, 128000, 80, codec_channels,
l16_8khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-mono\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 16000, 256000, 160, codec_channels,
l16_16khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
if (test_mode_ != 0) {
printf("==============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-mono\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_l16, 32000, 512000, 320, codec_channels,
l16_32khz_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef PCMA_AND_PCMU
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-mono\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
RegisterSendCodec('A', codec_pcmu, 8000, 64000, 80, codec_channels,
pcmu_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
RegisterSendCodec('A', codec_pcma, 8000, 64000, 80, codec_channels,
pcma_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
#ifdef WEBRTC_CODEC_OPUS
if (test_mode_ != 0) {
printf("===============================================================\n");
printf("Test number: %d\n", test_cntr_ + 1);
printf("Test type: Stereo-to-mono\n");
}
test_cntr_++;
OpenOutFile(test_cntr_);
// Encode and decode in mono.
RegisterSendCodec('A', codec_opus, 48000, 32000, 960, codec_channels,
opus_pltype_);
CodecInst opus_codec_param;
for (uint8_t n = 0; n < num_encoders; n++) {
EXPECT_EQ(0, acm_b_->Codec(n, &opus_codec_param));
if (!strcmp(opus_codec_param.plname, "opus")) {
opus_codec_param.channels = 1;
EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(opus_codec_param));
break;
}
}
Run(channel_a2b_, audio_channels, codec_channels);
// Encode in stereo, decode in mono.
RegisterSendCodec('A', codec_opus, 48000, 32000, 960, 2, opus_pltype_);
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
// Test switching between decoding mono and stereo for Opus.
// Decode in mono.
test_cntr_++;
OpenOutFile(test_cntr_);
if (test_mode_ != 0) {
// Print out codec and settings
printf("Test number: %d\nCodec: Opus Freq: 48000 Rate :32000 PackSize: 960"
" Decode: mono\n", test_cntr_);
}
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
// Decode in stereo.
test_cntr_++;
OpenOutFile(test_cntr_);
if (test_mode_ != 0) {
// Print out codec and settings
printf("Test number: %d\nCodec: Opus Freq: 48000 Rate :32000 PackSize: 960"
" Decode: stereo\n", test_cntr_);
}
opus_codec_param.channels = 2;
EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(opus_codec_param));
Run(channel_a2b_, audio_channels, 2);
out_file_.Close();
// Decode in mono.
test_cntr_++;
OpenOutFile(test_cntr_);
if (test_mode_ != 0) {
// Print out codec and settings
printf("Test number: %d\nCodec: Opus Freq: 48000 Rate :32000 PackSize: 960"
" Decode: mono\n", test_cntr_);
}
opus_codec_param.channels = 1;
EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(opus_codec_param));
Run(channel_a2b_, audio_channels, codec_channels);
out_file_.Close();
#endif
// Print out which codecs were tested, and which were not, in the run.
if (test_mode_ != 0) {
printf("\nThe following codecs was INCLUDED in the test:\n");
#ifdef WEBRTC_CODEC_G722
printf(" G.722\n");
#endif
#ifdef WEBRTC_CODEC_PCM16
printf(" PCM16\n");
#endif
printf(" G.711\n");
#ifdef WEBRTC_CODEC_OPUS
printf(" Opus\n");
#endif
printf("\nTo complete the test, listen to the %d number of output "
"files.\n",
test_cntr_);
}
// Delete the file pointers.
delete in_file_stereo_;
delete in_file_mono_;
}
// Register Codec to use in the test
//
// Input: side - which ACM to use, 'A' or 'B'
// codec_name - name to use when register the codec
// sampling_freq_hz - sampling frequency in Herz
// rate - bitrate in bytes
// pack_size - packet size in samples
// channels - number of channels; 1 for mono, 2 for stereo
// payload_type - payload type for the codec
void TestStereo::RegisterSendCodec(char side, char* codec_name,
int32_t sampling_freq_hz, int rate,
int pack_size, int channels,
int payload_type) {
if (test_mode_ != 0) {
// Print out codec and settings
printf("Codec: %s Freq: %d Rate: %d PackSize: %d\n", codec_name,
sampling_freq_hz, rate, pack_size);
}
// Store packet size in samples, used to validate the received packet
pack_size_samp_ = pack_size;
// Store the expected packet size in bytes, used to validate the received
// packet. Add 0.875 to always round up to a whole byte.
pack_size_bytes_ = (uint16_t)(static_cast<float>(pack_size * rate) /
static_cast<float>(sampling_freq_hz * 8) +
0.875);
// Set pointer to the ACM where to register the codec
AudioCodingModule* my_acm = NULL;
switch (side) {
case 'A': {
my_acm = acm_a_.get();
break;
}
case 'B': {
my_acm = acm_b_.get();
break;
}
default:
break;
}
ASSERT_TRUE(my_acm != NULL);
CodecInst my_codec_param;
// Get all codec parameters before registering
EXPECT_GT(AudioCodingModule::Codec(codec_name, &my_codec_param,
sampling_freq_hz, channels), -1);
my_codec_param.rate = rate;
my_codec_param.pacsize = pack_size;
EXPECT_EQ(0, my_acm->RegisterSendCodec(my_codec_param));
send_codec_name_ = codec_name;
}
void TestStereo::Run(TestPackStereo* channel, int in_channels, int out_channels,
int percent_loss) {
AudioFrame audio_frame;
int32_t out_freq_hz_b = out_file_.SamplingFrequency();
uint16_t rec_size;
uint32_t time_stamp_diff;
channel->reset_payload_size();
int error_count = 0;
int variable_bytes = 0;
int variable_packets = 0;
while (1) {
// Simulate packet loss by setting |packet_loss_| to "true" in
// |percent_loss| percent of the loops.
if (percent_loss > 0) {
if (counter_ == floor((100 / percent_loss) + 0.5)) {
counter_ = 0;
channel->set_lost_packet(true);
} else {
channel->set_lost_packet(false);
}
counter_++;
}
// Add 10 msec to ACM
if (in_channels == 1) {
if (in_file_mono_->EndOfFile()) {
break;
}
in_file_mono_->Read10MsData(audio_frame);
} else {
if (in_file_stereo_->EndOfFile()) {
break;
}
in_file_stereo_->Read10MsData(audio_frame);
}
EXPECT_GE(acm_a_->Add10MsData(audio_frame), 0);
// Verify that the received packet size matches the settings.
rec_size = channel->payload_size();
if ((0 < rec_size) & (rec_size < 65535)) {
if (strcmp(send_codec_name_, "opus") == 0) {
// Opus is a variable rate codec, hence calculate the average packet
// size, and later make sure the average is in the right range.
variable_bytes += rec_size;
variable_packets++;
} else {
// For fixed rate codecs, check that packet size is correct.
if ((rec_size != pack_size_bytes_ * out_channels)
&& (pack_size_bytes_ < 65535)) {
error_count++;
}
}
// Verify that the timestamp is updated with expected length
time_stamp_diff = channel->timestamp_diff();
if ((counter_ > 10) && (time_stamp_diff != pack_size_samp_)) {
error_count++;
}
}
// Run received side of ACM
EXPECT_EQ(0, acm_b_->PlayoutData10Ms(out_freq_hz_b, &audio_frame));
// Write output speech to file
out_file_.Write10MsData(
audio_frame.data_,
audio_frame.samples_per_channel_ * audio_frame.num_channels_);
}
EXPECT_EQ(0, error_count);
// Check that packet size is in the right range for variable rate codecs,
// such as Opus.
if (variable_packets > 0) {
variable_bytes /= variable_packets;
EXPECT_NEAR(variable_bytes, pack_size_bytes_, 3);
}
if (in_file_mono_->EndOfFile()) {
in_file_mono_->Rewind();
}
if (in_file_stereo_->EndOfFile()) {
in_file_stereo_->Rewind();
}
// Reset in case we ended with a lost packet
channel->set_lost_packet(false);
}
void TestStereo::OpenOutFile(int16_t test_number) {
std::string file_name;
std::stringstream file_stream;
file_stream << webrtc::test::OutputPath() << "teststereo_out_" << test_number
<< ".pcm";
file_name = file_stream.str();
out_file_.Open(file_name, 32000, "wb");
}
void TestStereo::DisplaySendReceiveCodec() {
CodecInst my_codec_param;
acm_a_->SendCodec(&my_codec_param);
if (test_mode_ != 0) {
printf("%s -> ", my_codec_param.plname);
}
acm_b_->ReceiveCodec(&my_codec_param);
if (test_mode_ != 0) {
printf("%s\n", my_codec_param.plname);
}
}
} // namespace webrtc
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