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/*
* Copyright (c) 2018 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/agc2/speech_level_estimator.h"
#include <memory>
#include "modules/audio_processing/agc2/agc2_common.h"
#include "modules/audio_processing/include/audio_processing.h"
#include "modules/audio_processing/logging/apm_data_dumper.h"
#include "rtc_base/gunit.h"
namespace webrtc {
namespace {
using AdaptiveDigitalConfig =
AudioProcessing::Config::GainController2::AdaptiveDigital;
// Number of speech frames that the level estimator must observe in order to
// become confident about the estimated level.
constexpr int kNumFramesToConfidence =
kLevelEstimatorTimeToConfidenceMs / kFrameDurationMs;
static_assert(kNumFramesToConfidence > 0, "");
constexpr float kConvergenceSpeedTestsLevelTolerance = 0.5f;
// Provides the `vad_level` value `num_iterations` times to `level_estimator`.
void RunOnConstantLevel(int num_iterations,
float rms_dbfs,
float peak_dbfs,
float speech_probability,
SpeechLevelEstimator& level_estimator) {
for (int i = 0; i < num_iterations; ++i) {
level_estimator.Update(rms_dbfs, peak_dbfs, speech_probability);
}
}
constexpr float kNoSpeechProbability = 0.0f;
constexpr float kLowSpeechProbability = kVadConfidenceThreshold / 2.0f;
constexpr float kMaxSpeechProbability = 1.0f;
// Level estimator with data dumper.
struct TestLevelEstimator {
explicit TestLevelEstimator(int adjacent_speech_frames_threshold)
: data_dumper(0),
estimator(std::make_unique<SpeechLevelEstimator>(
&data_dumper,
AdaptiveDigitalConfig{},
adjacent_speech_frames_threshold)),
initial_speech_level_dbfs(estimator->level_dbfs()),
level_rms_dbfs(initial_speech_level_dbfs / 2.0f),
level_peak_dbfs(initial_speech_level_dbfs / 3.0f) {
RTC_DCHECK_LT(level_rms_dbfs, level_peak_dbfs);
RTC_DCHECK_LT(initial_speech_level_dbfs, level_rms_dbfs);
RTC_DCHECK_GT(level_rms_dbfs - initial_speech_level_dbfs, 5.0f)
<< "Adjust `level_rms_dbfs` so that the difference from the initial "
"level is wide enough for the tests";
}
ApmDataDumper data_dumper;
std::unique_ptr<SpeechLevelEstimator> estimator;
const float initial_speech_level_dbfs;
const float level_rms_dbfs;
const float level_peak_dbfs;
};
// Checks that the level estimator converges to a constant input speech level.
TEST(GainController2SpeechLevelEstimator, LevelStabilizes) {
TestLevelEstimator level_estimator(/*adjacent_speech_frames_threshold=*/1);
RunOnConstantLevel(/*num_iterations=*/kNumFramesToConfidence,
level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs, kMaxSpeechProbability,
*level_estimator.estimator);
const float estimated_level_dbfs = level_estimator.estimator->level_dbfs();
RunOnConstantLevel(/*num_iterations=*/1, level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs, kMaxSpeechProbability,
*level_estimator.estimator);
EXPECT_NEAR(level_estimator.estimator->level_dbfs(), estimated_level_dbfs,
0.1f);
}
// Checks that the level controller does not become confident when too few
// speech frames are observed.
TEST(GainController2SpeechLevelEstimator, IsNotConfident) {
TestLevelEstimator level_estimator(/*adjacent_speech_frames_threshold=*/1);
RunOnConstantLevel(/*num_iterations=*/kNumFramesToConfidence / 2,
level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs, kMaxSpeechProbability,
*level_estimator.estimator);
EXPECT_FALSE(level_estimator.estimator->is_confident());
}
// Checks that the level controller becomes confident when enough speech frames
// are observed.
TEST(GainController2SpeechLevelEstimator, IsConfident) {
TestLevelEstimator level_estimator(/*adjacent_speech_frames_threshold=*/1);
RunOnConstantLevel(/*num_iterations=*/kNumFramesToConfidence,
level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs, kMaxSpeechProbability,
*level_estimator.estimator);
EXPECT_TRUE(level_estimator.estimator->is_confident());
}
// Checks that the estimated level is not affected by the level of non-speech
// frames.
TEST(GainController2SpeechLevelEstimator, EstimatorIgnoresNonSpeechFrames) {
TestLevelEstimator level_estimator(/*adjacent_speech_frames_threshold=*/1);
// Simulate speech.
RunOnConstantLevel(/*num_iterations=*/kNumFramesToConfidence,
level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs, kMaxSpeechProbability,
*level_estimator.estimator);
const float estimated_level_dbfs = level_estimator.estimator->level_dbfs();
// Simulate full-scale non-speech.
RunOnConstantLevel(/*num_iterations=*/kNumFramesToConfidence,
/*rms_dbfs=*/0.0f, /*peak_dbfs=*/0.0f,
kNoSpeechProbability, *level_estimator.estimator);
// No estimated level change is expected.
EXPECT_FLOAT_EQ(level_estimator.estimator->level_dbfs(),
estimated_level_dbfs);
}
// Checks the convergence speed of the estimator before it becomes confident.
TEST(GainController2SpeechLevelEstimator, ConvergenceSpeedBeforeConfidence) {
TestLevelEstimator level_estimator(/*adjacent_speech_frames_threshold=*/1);
RunOnConstantLevel(/*num_iterations=*/kNumFramesToConfidence,
level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs, kMaxSpeechProbability,
*level_estimator.estimator);
EXPECT_NEAR(level_estimator.estimator->level_dbfs(),
level_estimator.level_rms_dbfs,
kConvergenceSpeedTestsLevelTolerance);
}
// Checks the convergence speed of the estimator after it becomes confident.
TEST(GainController2SpeechLevelEstimator, ConvergenceSpeedAfterConfidence) {
TestLevelEstimator level_estimator(/*adjacent_speech_frames_threshold=*/1);
// Reach confidence using the initial level estimate.
RunOnConstantLevel(
/*num_iterations=*/kNumFramesToConfidence,
/*rms_dbfs=*/level_estimator.initial_speech_level_dbfs,
/*peak_dbfs=*/level_estimator.initial_speech_level_dbfs + 6.0f,
kMaxSpeechProbability, *level_estimator.estimator);
// No estimate change should occur, but confidence is achieved.
ASSERT_FLOAT_EQ(level_estimator.estimator->level_dbfs(),
level_estimator.initial_speech_level_dbfs);
ASSERT_TRUE(level_estimator.estimator->is_confident());
// After confidence.
constexpr float kConvergenceTimeAfterConfidenceNumFrames = 700; // 7 seconds.
static_assert(
kConvergenceTimeAfterConfidenceNumFrames > kNumFramesToConfidence, "");
RunOnConstantLevel(
/*num_iterations=*/kConvergenceTimeAfterConfidenceNumFrames,
level_estimator.level_rms_dbfs, level_estimator.level_peak_dbfs,
kMaxSpeechProbability, *level_estimator.estimator);
EXPECT_NEAR(level_estimator.estimator->level_dbfs(),
level_estimator.level_rms_dbfs,
kConvergenceSpeedTestsLevelTolerance);
}
class SpeechLevelEstimatorParametrization
: public ::testing::TestWithParam<int> {
protected:
int adjacent_speech_frames_threshold() const { return GetParam(); }
};
TEST_P(SpeechLevelEstimatorParametrization, DoNotAdaptToShortSpeechSegments) {
TestLevelEstimator level_estimator(adjacent_speech_frames_threshold());
const float initial_level = level_estimator.estimator->level_dbfs();
ASSERT_LT(initial_level, level_estimator.level_peak_dbfs);
for (int i = 0; i < adjacent_speech_frames_threshold() - 1; ++i) {
SCOPED_TRACE(i);
level_estimator.estimator->Update(level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs,
kMaxSpeechProbability);
EXPECT_EQ(initial_level, level_estimator.estimator->level_dbfs());
}
level_estimator.estimator->Update(level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs,
kLowSpeechProbability);
EXPECT_EQ(initial_level, level_estimator.estimator->level_dbfs());
}
TEST_P(SpeechLevelEstimatorParametrization, AdaptToEnoughSpeechSegments) {
TestLevelEstimator level_estimator(adjacent_speech_frames_threshold());
const float initial_level = level_estimator.estimator->level_dbfs();
ASSERT_LT(initial_level, level_estimator.level_peak_dbfs);
for (int i = 0; i < adjacent_speech_frames_threshold(); ++i) {
level_estimator.estimator->Update(level_estimator.level_rms_dbfs,
level_estimator.level_peak_dbfs,
kMaxSpeechProbability);
}
EXPECT_LT(initial_level, level_estimator.estimator->level_dbfs());
}
INSTANTIATE_TEST_SUITE_P(GainController2,
SpeechLevelEstimatorParametrization,
::testing::Values(1, 9, 17));
} // namespace
} // namespace webrtc