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/*
* Copyright (c) 2017 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 "modules/audio_processing/aec3/subtractor.h"
#include <algorithm>
#include <numeric>
#include <string>
#include "modules/audio_processing/aec3/aec_state.h"
#include "modules/audio_processing/test/echo_canceller_test_tools.h"
#include "rtc_base/random.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
float RunSubtractorTest(int num_blocks_to_process,
int delay_samples,
bool uncorrelated_inputs,
const std::vector<int>& blocks_with_echo_path_changes) {
ApmDataDumper data_dumper(42);
Subtractor subtractor(&data_dumper, DetectOptimization());
std::vector<std::vector<float>> x(3, std::vector<float>(kBlockSize, 0.f));
std::vector<float> y(kBlockSize, 0.f);
std::array<float, kBlockSize> x_old;
SubtractorOutput output;
RenderBuffer render_buffer(Aec3Optimization::kNone, 3, kAdaptiveFilterLength,
std::vector<size_t>(1, kAdaptiveFilterLength));
RenderSignalAnalyzer render_signal_analyzer;
Random random_generator(42U);
Aec3Fft fft;
std::array<float, kFftLengthBy2Plus1> Y2;
std::array<float, kFftLengthBy2Plus1> E2_main;
std::array<float, kFftLengthBy2Plus1> E2_shadow;
AecState aec_state(AudioProcessing::Config::EchoCanceller3{});
x_old.fill(0.f);
Y2.fill(0.f);
E2_main.fill(0.f);
E2_shadow.fill(0.f);
DelayBuffer<float> delay_buffer(delay_samples);
for (int k = 0; k < num_blocks_to_process; ++k) {
RandomizeSampleVector(&random_generator, x[0]);
if (uncorrelated_inputs) {
RandomizeSampleVector(&random_generator, y);
} else {
delay_buffer.Delay(x[0], y);
}
render_buffer.Insert(x);
render_signal_analyzer.Update(render_buffer, aec_state.FilterDelay());
// Handle echo path changes.
if (std::find(blocks_with_echo_path_changes.begin(),
blocks_with_echo_path_changes.end(),
k) != blocks_with_echo_path_changes.end()) {
subtractor.HandleEchoPathChange(EchoPathVariability(true, true));
}
subtractor.Process(render_buffer, y, render_signal_analyzer, aec_state,
&output);
aec_state.HandleEchoPathChange(EchoPathVariability(false, false));
aec_state.Update(subtractor.FilterFrequencyResponse(),
subtractor.FilterImpulseResponse(),
rtc::Optional<size_t>(delay_samples / kBlockSize),
render_buffer, E2_main, Y2, x[0], output.s_main, false);
}
const float output_power = std::inner_product(
output.e_main.begin(), output.e_main.end(), output.e_main.begin(), 0.f);
const float y_power = std::inner_product(y.begin(), y.end(), y.begin(), 0.f);
if (y_power == 0.f) {
ADD_FAILURE();
return -1.0;
}
return output_power / y_power;
}
std::string ProduceDebugText(size_t delay) {
std::ostringstream ss;
ss << "Delay: " << delay;
return ss.str();
}
} // namespace
#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
// Verifies that the check for non data dumper works.
TEST(Subtractor, NullDataDumper) {
EXPECT_DEATH(Subtractor(nullptr, DetectOptimization()), "");
}
// Verifies the check for null subtractor output.
// TODO(peah): Re-enable the test once the issue with memory leaks during DEATH
// tests on test bots has been fixed.
TEST(Subtractor, DISABLED_NullOutput) {
ApmDataDumper data_dumper(42);
Subtractor subtractor(&data_dumper, DetectOptimization());
RenderBuffer render_buffer(Aec3Optimization::kNone, 3, kAdaptiveFilterLength,
std::vector<size_t>(1, kAdaptiveFilterLength));
RenderSignalAnalyzer render_signal_analyzer;
std::vector<float> y(kBlockSize, 0.f);
EXPECT_DEATH(
subtractor.Process(render_buffer, y, render_signal_analyzer,
AecState(AudioProcessing::Config::EchoCanceller3{}),
nullptr),
"");
}
// Verifies the check for the capture signal size.
TEST(Subtractor, WrongCaptureSize) {
ApmDataDumper data_dumper(42);
Subtractor subtractor(&data_dumper, DetectOptimization());
RenderBuffer render_buffer(Aec3Optimization::kNone, 3, kAdaptiveFilterLength,
std::vector<size_t>(1, kAdaptiveFilterLength));
RenderSignalAnalyzer render_signal_analyzer;
std::vector<float> y(kBlockSize - 1, 0.f);
SubtractorOutput output;
EXPECT_DEATH(
subtractor.Process(render_buffer, y, render_signal_analyzer,
AecState(AudioProcessing::Config::EchoCanceller3{}),
&output),
"");
}
#endif
// Verifies that the subtractor is able to converge on correlated data.
TEST(Subtractor, Convergence) {
std::vector<int> blocks_with_echo_path_changes;
for (size_t delay_samples : {0, 64, 150, 200, 301}) {
SCOPED_TRACE(ProduceDebugText(delay_samples));
float echo_to_nearend_power = RunSubtractorTest(
100, delay_samples, false, blocks_with_echo_path_changes);
EXPECT_GT(0.1f, echo_to_nearend_power);
}
}
// Verifies that the subtractor does not converge on uncorrelated signals.
TEST(Subtractor, NonConvergenceOnUncorrelatedSignals) {
std::vector<int> blocks_with_echo_path_changes;
for (size_t delay_samples : {0, 64, 150, 200, 301}) {
SCOPED_TRACE(ProduceDebugText(delay_samples));
float echo_to_nearend_power = RunSubtractorTest(
100, delay_samples, true, blocks_with_echo_path_changes);
EXPECT_NEAR(1.f, echo_to_nearend_power, 0.05);
}
}
// Verifies that the subtractor is properly reset when there is an echo path
// change.
TEST(Subtractor, EchoPathChangeReset) {
std::vector<int> blocks_with_echo_path_changes;
blocks_with_echo_path_changes.push_back(99);
for (size_t delay_samples : {0, 64, 150, 200, 301}) {
SCOPED_TRACE(ProduceDebugText(delay_samples));
float echo_to_nearend_power = RunSubtractorTest(
100, delay_samples, false, blocks_with_echo_path_changes);
EXPECT_NEAR(1.f, echo_to_nearend_power, 0.0000001f);
}
}
} // namespace webrtc