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Switch neteq tools to ABSL_FLAG.

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Bug: webrtc:10616
Change-Id: I2aa688f0976d5618347e402f25d8701b0cf5a360
Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/144027
Reviewed-by: Ivo Creusen <ivoc@webrtc.org>
Reviewed-by: Karl Wiberg <kwiberg@webrtc.org>
Commit-Queue: Mirko Bonadei <mbonadei@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#28442}
This commit is contained in:
Mirko Bonadei
2019-06-27 15:59:09 +02:00
committed by Commit Bot
parent e731a2ed98
commit 14be7993c6
6 changed files with 337 additions and 326 deletions
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465
modules/audio_coding/neteq/tools/neteq_rtpplay.cc
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@ -11,136 +11,150 @@
#include <iostream>
#include <string>
#include "absl/flags/flag.h"
#include "absl/flags/parse.h"
#include "absl/strings/string_view.h"
#include "absl/types/optional.h"
#include "modules/audio_coding/neteq/tools/neteq_test.h"
#include "modules/audio_coding/neteq/tools/neteq_test_factory.h"
#include "rtc_base/flags.h"
#include "rtc_base/strings/string_builder.h"
#include "system_wrappers/include/field_trial.h"
#include "test/field_trial.h"
namespace {
using TestConfig = webrtc::test::NetEqTestFactory::Config;
WEBRTC_DEFINE_bool(codec_map,
false,
"Prints the mapping between RTP payload type and "
"codec");
WEBRTC_DEFINE_string(
force_fieldtrials,
"",
"Field trials control experimental feature code which can be forced. "
"E.g. running with --force_fieldtrials=WebRTC-FooFeature/Enable/"
" will assign the group Enable to field trial WebRTC-FooFeature.");
WEBRTC_DEFINE_bool(help, false, "Prints this message");
// Define command line flags.
WEBRTC_DEFINE_int(pcmu,
TestConfig::default_pcmu(),
"RTP payload type for PCM-u");
WEBRTC_DEFINE_int(pcma,
TestConfig::default_pcma(),
"RTP payload type for PCM-a");
WEBRTC_DEFINE_int(ilbc,
TestConfig::default_ilbc(),
"RTP payload type for iLBC");
WEBRTC_DEFINE_int(isac,
TestConfig::default_isac(),
"RTP payload type for iSAC");
WEBRTC_DEFINE_int(isac_swb,
TestConfig::default_isac_swb(),
"RTP payload type for iSAC-swb (32 kHz)");
WEBRTC_DEFINE_int(opus,
TestConfig::default_opus(),
"RTP payload type for Opus");
WEBRTC_DEFINE_int(pcm16b,
TestConfig::default_pcm16b(),
"RTP payload type for PCM16b-nb (8 kHz)");
WEBRTC_DEFINE_int(pcm16b_wb,
TestConfig::default_pcm16b_wb(),
"RTP payload type for PCM16b-wb (16 kHz)");
WEBRTC_DEFINE_int(pcm16b_swb32,
TestConfig::default_pcm16b_swb32(),
"RTP payload type for PCM16b-swb32 (32 kHz)");
WEBRTC_DEFINE_int(pcm16b_swb48,
TestConfig::default_pcm16b_swb48(),
"RTP payload type for PCM16b-swb48 (48 kHz)");
WEBRTC_DEFINE_int(g722,
TestConfig::default_g722(),
"RTP payload type for G.722");
WEBRTC_DEFINE_int(avt,
TestConfig::default_avt(),
"RTP payload type for AVT/DTMF (8 kHz)");
WEBRTC_DEFINE_int(avt_16,
TestConfig::default_avt_16(),
"RTP payload type for AVT/DTMF (16 kHz)");
WEBRTC_DEFINE_int(avt_32,
TestConfig::default_avt_32(),
"RTP payload type for AVT/DTMF (32 kHz)");
WEBRTC_DEFINE_int(avt_48,
TestConfig::default_avt_48(),
"RTP payload type for AVT/DTMF (48 kHz)");
WEBRTC_DEFINE_int(red,
TestConfig::default_red(),
"RTP payload type for redundant audio (RED)");
WEBRTC_DEFINE_int(cn_nb,
TestConfig::default_cn_nb(),
"RTP payload type for comfort noise (8 kHz)");
WEBRTC_DEFINE_int(cn_wb,
TestConfig::default_cn_wb(),
"RTP payload type for comfort noise (16 kHz)");
WEBRTC_DEFINE_int(cn_swb32,
TestConfig::default_cn_swb32(),
"RTP payload type for comfort noise (32 kHz)");
WEBRTC_DEFINE_int(cn_swb48,
TestConfig::default_cn_swb48(),
"RTP payload type for comfort noise (48 kHz)");
WEBRTC_DEFINE_string(replacement_audio_file,
"",
"A PCM file that will be used to populate dummy"
" RTP packets");
WEBRTC_DEFINE_string(
ssrc,
"",
"Only use packets with this SSRC (decimal or hex, the latter "
"starting with 0x)");
WEBRTC_DEFINE_int(audio_level,
TestConfig::default_audio_level(),
"Extension ID for audio level (RFC 6464)");
WEBRTC_DEFINE_int(abs_send_time,
TestConfig::default_abs_send_time(),
"Extension ID for absolute sender time");
WEBRTC_DEFINE_int(transport_seq_no,
TestConfig::default_transport_seq_no(),
"Extension ID for transport sequence number");
WEBRTC_DEFINE_int(video_content_type,
TestConfig::default_video_content_type(),
"Extension ID for video content type");
WEBRTC_DEFINE_int(video_timing,
TestConfig::default_video_timing(),
"Extension ID for video timing");
WEBRTC_DEFINE_string(output_files_base_name,
"",
"Custom path used as prefix for the output files - i.e., "
"matlab plot, python plot, text log.");
WEBRTC_DEFINE_bool(matlabplot,
false,
"Generates a matlab script for plotting the delay profile");
WEBRTC_DEFINE_bool(pythonplot,
false,
"Generates a python script for plotting the delay profile");
WEBRTC_DEFINE_bool(textlog,
false,
"Generates a text log describing the simulation on a "
"step-by-step basis.");
WEBRTC_DEFINE_bool(concealment_events, false, "Prints concealment events");
WEBRTC_DEFINE_int(max_nr_packets_in_buffer,
TestConfig::default_max_nr_packets_in_buffer(),
"Maximum allowed number of packets in the buffer");
WEBRTC_DEFINE_bool(enable_fast_accelerate,
false,
"Enables jitter buffer fast accelerate");
ABSL_FLAG(bool,
codec_map,
false,
"Prints the mapping between RTP payload type and "
"codec");
ABSL_FLAG(std::string,
force_fieldtrials,
"",
"Field trials control experimental feature code which can be forced. "
"E.g. running with --force_fieldtrials=WebRTC-FooFeature/Enable/"
" will assign the group Enable to field trial WebRTC-FooFeature.");
ABSL_FLAG(int, pcmu, TestConfig::default_pcmu(), "RTP payload type for PCM-u");
ABSL_FLAG(int, pcma, TestConfig::default_pcma(), "RTP payload type for PCM-a");
ABSL_FLAG(int, ilbc, TestConfig::default_ilbc(), "RTP payload type for iLBC");
ABSL_FLAG(int, isac, TestConfig::default_isac(), "RTP payload type for iSAC");
ABSL_FLAG(int,
isac_swb,
TestConfig::default_isac_swb(),
"RTP payload type for iSAC-swb (32 kHz)");
ABSL_FLAG(int, opus, TestConfig::default_opus(), "RTP payload type for Opus");
ABSL_FLAG(int,
pcm16b,
TestConfig::default_pcm16b(),
"RTP payload type for PCM16b-nb (8 kHz)");
ABSL_FLAG(int,
pcm16b_wb,
TestConfig::default_pcm16b_wb(),
"RTP payload type for PCM16b-wb (16 kHz)");
ABSL_FLAG(int,
pcm16b_swb32,
TestConfig::default_pcm16b_swb32(),
"RTP payload type for PCM16b-swb32 (32 kHz)");
ABSL_FLAG(int,
pcm16b_swb48,
TestConfig::default_pcm16b_swb48(),
"RTP payload type for PCM16b-swb48 (48 kHz)");
ABSL_FLAG(int, g722, TestConfig::default_g722(), "RTP payload type for G.722");
ABSL_FLAG(int,
avt,
TestConfig::default_avt(),
"RTP payload type for AVT/DTMF (8 kHz)");
ABSL_FLAG(int,
avt_16,
TestConfig::default_avt_16(),
"RTP payload type for AVT/DTMF (16 kHz)");
ABSL_FLAG(int,
avt_32,
TestConfig::default_avt_32(),
"RTP payload type for AVT/DTMF (32 kHz)");
ABSL_FLAG(int,
avt_48,
TestConfig::default_avt_48(),
"RTP payload type for AVT/DTMF (48 kHz)");
ABSL_FLAG(int,
red,
TestConfig::default_red(),
"RTP payload type for redundant audio (RED)");
ABSL_FLAG(int,
cn_nb,
TestConfig::default_cn_nb(),
"RTP payload type for comfort noise (8 kHz)");
ABSL_FLAG(int,
cn_wb,
TestConfig::default_cn_wb(),
"RTP payload type for comfort noise (16 kHz)");
ABSL_FLAG(int,
cn_swb32,
TestConfig::default_cn_swb32(),
"RTP payload type for comfort noise (32 kHz)");
ABSL_FLAG(int,
cn_swb48,
TestConfig::default_cn_swb48(),
"RTP payload type for comfort noise (48 kHz)");
ABSL_FLAG(std::string,
replacement_audio_file,
"",
"A PCM file that will be used to populate dummy"
" RTP packets");
ABSL_FLAG(std::string,
ssrc,
"",
"Only use packets with this SSRC (decimal or hex, the latter "
"starting with 0x)");
ABSL_FLAG(int,
audio_level,
TestConfig::default_audio_level(),
"Extension ID for audio level (RFC 6464)");
ABSL_FLAG(int,
abs_send_time,
TestConfig::default_abs_send_time(),
"Extension ID for absolute sender time");
ABSL_FLAG(int,
transport_seq_no,
TestConfig::default_transport_seq_no(),
"Extension ID for transport sequence number");
ABSL_FLAG(int,
video_content_type,
TestConfig::default_video_content_type(),
"Extension ID for video content type");
ABSL_FLAG(int,
video_timing,
TestConfig::default_video_timing(),
"Extension ID for video timing");
ABSL_FLAG(std::string,
output_files_base_name,
"",
"Custom path used as prefix for the output files - i.e., "
"matlab plot, python plot, text log.");
ABSL_FLAG(bool,
matlabplot,
false,
"Generates a matlab script for plotting the delay profile");
ABSL_FLAG(bool,
pythonplot,
false,
"Generates a python script for plotting the delay profile");
ABSL_FLAG(bool,
textlog,
false,
"Generates a text log describing the simulation on a "
"step-by-step basis.");
ABSL_FLAG(bool, concealment_events, false, "Prints concealment events");
ABSL_FLAG(int,
max_nr_packets_in_buffer,
TestConfig::default_max_nr_packets_in_buffer(),
"Maximum allowed number of packets in the buffer");
ABSL_FLAG(bool,
enable_fast_accelerate,
false,
"Enables jitter buffer fast accelerate");
namespace {
// Parses the input string for a valid SSRC (at the start of the string). If a
// valid SSRC is found, it is written to the output variable |ssrc|, and true is
@ -195,26 +209,30 @@ void PrintCodecMappingEntry(const char* codec, int flag) {
}
void PrintCodecMapping() {
PrintCodecMappingEntry("PCM-u", FLAG_pcmu);
PrintCodecMappingEntry("PCM-a", FLAG_pcma);
PrintCodecMappingEntry("iLBC", FLAG_ilbc);
PrintCodecMappingEntry("iSAC", FLAG_isac);
PrintCodecMappingEntry("iSAC-swb (32 kHz)", FLAG_isac_swb);
PrintCodecMappingEntry("Opus", FLAG_opus);
PrintCodecMappingEntry("PCM16b-nb (8 kHz)", FLAG_pcm16b);
PrintCodecMappingEntry("PCM16b-wb (16 kHz)", FLAG_pcm16b_wb);
PrintCodecMappingEntry("PCM16b-swb32 (32 kHz)", FLAG_pcm16b_swb32);
PrintCodecMappingEntry("PCM16b-swb48 (48 kHz)", FLAG_pcm16b_swb48);
PrintCodecMappingEntry("G.722", FLAG_g722);
PrintCodecMappingEntry("AVT/DTMF (8 kHz)", FLAG_avt);
PrintCodecMappingEntry("AVT/DTMF (16 kHz)", FLAG_avt_16);
PrintCodecMappingEntry("AVT/DTMF (32 kHz)", FLAG_avt_32);
PrintCodecMappingEntry("AVT/DTMF (48 kHz)", FLAG_avt_48);
PrintCodecMappingEntry("redundant audio (RED)", FLAG_red);
PrintCodecMappingEntry("comfort noise (8 kHz)", FLAG_cn_nb);
PrintCodecMappingEntry("comfort noise (16 kHz)", FLAG_cn_wb);
PrintCodecMappingEntry("comfort noise (32 kHz)", FLAG_cn_swb32);
PrintCodecMappingEntry("comfort noise (48 kHz)", FLAG_cn_swb48);
PrintCodecMappingEntry("PCM-u", absl::GetFlag(FLAGS_pcmu));
PrintCodecMappingEntry("PCM-a", absl::GetFlag(FLAGS_pcma));
PrintCodecMappingEntry("iLBC", absl::GetFlag(FLAGS_ilbc));
PrintCodecMappingEntry("iSAC", absl::GetFlag(FLAGS_isac));
PrintCodecMappingEntry("iSAC-swb (32 kHz)", absl::GetFlag(FLAGS_isac_swb));
PrintCodecMappingEntry("Opus", absl::GetFlag(FLAGS_opus));
PrintCodecMappingEntry("PCM16b-nb (8 kHz)", absl::GetFlag(FLAGS_pcm16b));
PrintCodecMappingEntry("PCM16b-wb (16 kHz)", absl::GetFlag(FLAGS_pcm16b_wb));
PrintCodecMappingEntry("PCM16b-swb32 (32 kHz)",
absl::GetFlag(FLAGS_pcm16b_swb32));
PrintCodecMappingEntry("PCM16b-swb48 (48 kHz)",
absl::GetFlag(FLAGS_pcm16b_swb48));
PrintCodecMappingEntry("G.722", absl::GetFlag(FLAGS_g722));
PrintCodecMappingEntry("AVT/DTMF (8 kHz)", absl::GetFlag(FLAGS_avt));
PrintCodecMappingEntry("AVT/DTMF (16 kHz)", absl::GetFlag(FLAGS_avt_16));
PrintCodecMappingEntry("AVT/DTMF (32 kHz)", absl::GetFlag(FLAGS_avt_32));
PrintCodecMappingEntry("AVT/DTMF (48 kHz)", absl::GetFlag(FLAGS_avt_48));
PrintCodecMappingEntry("redundant audio (RED)", absl::GetFlag(FLAGS_red));
PrintCodecMappingEntry("comfort noise (8 kHz)", absl::GetFlag(FLAGS_cn_nb));
PrintCodecMappingEntry("comfort noise (16 kHz)", absl::GetFlag(FLAGS_cn_wb));
PrintCodecMappingEntry("comfort noise (32 kHz)",
absl::GetFlag(FLAGS_cn_swb32));
PrintCodecMappingEntry("comfort noise (48 kHz)",
absl::GetFlag(FLAGS_cn_swb48));
}
bool ValidateOutputFilesOptions(bool textlog,
@ -268,116 +286,111 @@ absl::optional<std::string> CreateOptionalOutputFileName(
} // namespace
int main(int argc, char* argv[]) {
std::vector<char*> args = absl::ParseCommandLine(argc, argv);
webrtc::test::NetEqTestFactory factory;
std::string program_name = argv[0];
std::string usage =
"Tool for decoding an RTP dump file using NetEq.\n"
"Run " +
program_name +
" --help for usage.\n"
"Example usage:\n" +
program_name + " input.rtp [output.{pcm, wav}]\n";
if (rtc::FlagList::SetFlagsFromCommandLine(&argc, argv, true)) {
exit(1);
}
if (FLAG_help) {
std::cout << usage;
rtc::FlagList::Print(nullptr, false);
exit(0);
}
if (FLAG_codec_map) {
"Example usage:\n"
"./neteq_rtpplay input.rtp [output.{pcm, wav}]\n";
if (absl::GetFlag(FLAGS_codec_map)) {
PrintCodecMapping();
exit(0);
}
if (argc < 2 || argc > 3) { // The output audio file is optional.
if (args.size() != 2 &&
args.size() != 3) { // The output audio file is optional.
// Print usage information.
std::cout << usage;
exit(0);
}
const std::string output_audio_filename((argc == 3) ? argv[2] : "");
const std::string output_files_base_name(FLAG_output_files_base_name);
const std::string output_audio_filename((args.size() == 3) ? args[2] : "");
const std::string output_files_base_name(
absl::GetFlag(FLAGS_output_files_base_name));
RTC_CHECK(ValidateOutputFilesOptions(
FLAG_textlog, FLAG_matlabplot || FLAG_pythonplot, output_files_base_name,
output_audio_filename));
RTC_CHECK(ValidatePayloadType(FLAG_pcmu));
RTC_CHECK(ValidatePayloadType(FLAG_pcma));
RTC_CHECK(ValidatePayloadType(FLAG_ilbc));
RTC_CHECK(ValidatePayloadType(FLAG_isac));
RTC_CHECK(ValidatePayloadType(FLAG_isac_swb));
RTC_CHECK(ValidatePayloadType(FLAG_opus));
RTC_CHECK(ValidatePayloadType(FLAG_pcm16b));
RTC_CHECK(ValidatePayloadType(FLAG_pcm16b_wb));
RTC_CHECK(ValidatePayloadType(FLAG_pcm16b_swb32));
RTC_CHECK(ValidatePayloadType(FLAG_pcm16b_swb48));
RTC_CHECK(ValidatePayloadType(FLAG_g722));
RTC_CHECK(ValidatePayloadType(FLAG_avt));
RTC_CHECK(ValidatePayloadType(FLAG_avt_16));
RTC_CHECK(ValidatePayloadType(FLAG_avt_32));
RTC_CHECK(ValidatePayloadType(FLAG_avt_48));
RTC_CHECK(ValidatePayloadType(FLAG_red));
RTC_CHECK(ValidatePayloadType(FLAG_cn_nb));
RTC_CHECK(ValidatePayloadType(FLAG_cn_wb));
RTC_CHECK(ValidatePayloadType(FLAG_cn_swb32));
RTC_CHECK(ValidatePayloadType(FLAG_cn_swb48));
RTC_CHECK(ValidateSsrcValue(FLAG_ssrc));
RTC_CHECK(ValidateExtensionId(FLAG_audio_level));
RTC_CHECK(ValidateExtensionId(FLAG_abs_send_time));
RTC_CHECK(ValidateExtensionId(FLAG_transport_seq_no));
RTC_CHECK(ValidateExtensionId(FLAG_video_content_type));
RTC_CHECK(ValidateExtensionId(FLAG_video_timing));
absl::GetFlag(FLAGS_textlog),
absl::GetFlag(FLAGS_matlabplot) || absl::GetFlag(FLAGS_pythonplot),
output_files_base_name, output_audio_filename));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_pcmu)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_pcma)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_ilbc)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_isac)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_isac_swb)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_opus)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_pcm16b)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_pcm16b_wb)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_pcm16b_swb32)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_pcm16b_swb48)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_g722)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_avt)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_avt_16)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_avt_32)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_avt_48)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_red)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_cn_nb)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_cn_wb)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_cn_swb32)));
RTC_CHECK(ValidatePayloadType(absl::GetFlag(FLAGS_cn_swb48)));
RTC_CHECK(ValidateSsrcValue(absl::GetFlag(FLAGS_ssrc)));
RTC_CHECK(ValidateExtensionId(absl::GetFlag(FLAGS_audio_level)));
RTC_CHECK(ValidateExtensionId(absl::GetFlag(FLAGS_abs_send_time)));
RTC_CHECK(ValidateExtensionId(absl::GetFlag(FLAGS_transport_seq_no)));
RTC_CHECK(ValidateExtensionId(absl::GetFlag(FLAGS_video_content_type)));
RTC_CHECK(ValidateExtensionId(absl::GetFlag(FLAGS_video_timing)));
webrtc::field_trial::InitFieldTrialsFromString(FLAG_force_fieldtrials);
webrtc::field_trial::InitFieldTrialsFromString(
absl::GetFlag(FLAGS_force_fieldtrials).c_str());
webrtc::test::NetEqTestFactory::Config config;
config.pcmu = FLAG_pcmu;
config.pcma = FLAG_pcma;
config.ilbc = FLAG_ilbc;
config.isac = FLAG_isac;
config.isac_swb = FLAG_isac_swb;
config.opus = FLAG_opus;
config.pcm16b = FLAG_pcm16b;
config.pcm16b_wb = FLAG_pcm16b_wb;
config.pcm16b_swb32 = FLAG_pcm16b_swb32;
config.pcm16b_swb48 = FLAG_pcm16b_swb48;
config.g722 = FLAG_g722;
config.avt = FLAG_avt;
config.avt_16 = FLAG_avt_16;
config.avt_32 = FLAG_avt_32;
config.avt_48 = FLAG_avt_48;
config.red = FLAG_red;
config.cn_nb = FLAG_cn_nb;
config.cn_wb = FLAG_cn_wb;
config.cn_swb32 = FLAG_cn_swb32;
config.cn_swb48 = FLAG_cn_swb48;
config.replacement_audio_file = FLAG_replacement_audio_file;
config.audio_level = FLAG_audio_level;
config.abs_send_time = FLAG_abs_send_time;
config.transport_seq_no = FLAG_transport_seq_no;
config.video_content_type = FLAG_video_content_type;
config.video_timing = FLAG_video_timing;
config.matlabplot = FLAG_matlabplot;
config.pythonplot = FLAG_pythonplot;
config.concealment_events = FLAG_concealment_events;
config.max_nr_packets_in_buffer = FLAG_max_nr_packets_in_buffer;
config.enable_fast_accelerate = FLAG_enable_fast_accelerate;
config.pcmu = absl::GetFlag(FLAGS_pcmu);
config.pcma = absl::GetFlag(FLAGS_pcma);
config.ilbc = absl::GetFlag(FLAGS_ilbc);
config.isac = absl::GetFlag(FLAGS_isac);
config.isac_swb = absl::GetFlag(FLAGS_isac_swb);
config.opus = absl::GetFlag(FLAGS_opus);
config.pcm16b = absl::GetFlag(FLAGS_pcm16b);
config.pcm16b_wb = absl::GetFlag(FLAGS_pcm16b_wb);
config.pcm16b_swb32 = absl::GetFlag(FLAGS_pcm16b_swb32);
config.pcm16b_swb48 = absl::GetFlag(FLAGS_pcm16b_swb48);
config.g722 = absl::GetFlag(FLAGS_g722);
config.avt = absl::GetFlag(FLAGS_avt);
config.avt_16 = absl::GetFlag(FLAGS_avt_16);
config.avt_32 = absl::GetFlag(FLAGS_avt_32);
config.avt_48 = absl::GetFlag(FLAGS_avt_48);
config.red = absl::GetFlag(FLAGS_red);
config.cn_nb = absl::GetFlag(FLAGS_cn_nb);
config.cn_wb = absl::GetFlag(FLAGS_cn_wb);
config.cn_swb32 = absl::GetFlag(FLAGS_cn_swb32);
config.cn_swb48 = absl::GetFlag(FLAGS_cn_swb48);
config.replacement_audio_file = absl::GetFlag(FLAGS_replacement_audio_file);
config.audio_level = absl::GetFlag(FLAGS_audio_level);
config.abs_send_time = absl::GetFlag(FLAGS_abs_send_time);
config.transport_seq_no = absl::GetFlag(FLAGS_transport_seq_no);
config.video_content_type = absl::GetFlag(FLAGS_video_content_type);
config.video_timing = absl::GetFlag(FLAGS_video_timing);
config.matlabplot = absl::GetFlag(FLAGS_matlabplot);
config.pythonplot = absl::GetFlag(FLAGS_pythonplot);
config.concealment_events = absl::GetFlag(FLAGS_concealment_events);
config.max_nr_packets_in_buffer =
absl::GetFlag(FLAGS_max_nr_packets_in_buffer);
config.enable_fast_accelerate = absl::GetFlag(FLAGS_enable_fast_accelerate);
if (!output_audio_filename.empty()) {
config.output_audio_filename = output_audio_filename;
}
config.textlog_filename =
CreateOptionalOutputFileName(FLAG_textlog, output_files_base_name,
output_audio_filename, ".text_log.txt");
config.textlog_filename = CreateOptionalOutputFileName(
absl::GetFlag(FLAGS_textlog), output_files_base_name,
output_audio_filename, ".text_log.txt");
config.plot_scripts_basename = CreateOptionalOutputFileName(
FLAG_matlabplot || FLAG_pythonplot, output_files_base_name,
output_audio_filename, "");
absl::GetFlag(FLAGS_matlabplot) || absl::GetFlag(FLAGS_pythonplot),
output_files_base_name, output_audio_filename, "");
// Check if an SSRC value was provided.
if (strlen(FLAG_ssrc) > 0) {
if (absl::GetFlag(FLAGS_ssrc).size() > 0) {
uint32_t ssrc;
RTC_CHECK(ParseSsrc(FLAG_ssrc, &ssrc)) << "Flag verification has failed.";
RTC_CHECK(ParseSsrc(absl::GetFlag(FLAGS_ssrc), &ssrc))
<< "Flag verification has failed.";
config.ssrc_filter = absl::make_optional(ssrc);
}
std::unique_ptr<webrtc::test::NetEqTest> test =
factory.InitializeTestFromFile(/*input_filename=*/argv[1], config);
factory.InitializeTestFromFile(/*input_filename=*/args[1], config);
RTC_CHECK(test) << "ERROR: Unable to run test";
test->Run();
return 0;