modules/audio_processing/agc2/saturation_protector_unittest.cc - src - Git at Google

 /*
  *  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/saturation_protector.h"

 #include <algorithm>

 #include "modules/audio_processing/agc2/agc2_common.h"
 #include "modules/audio_processing/logging/apm_data_dumper.h"
 #include "rtc_base/gunit.h"

 namespace webrtc {
 namespace {
 float RunOnConstantLevel(int num_iterations,
                          VadWithLevel::LevelAndProbability vad_data,
                          float estimated_level_dbfs,
                          SaturationProtector* saturation_protector) {
   float last_margin = saturation_protector->LastMargin();
   float max_difference = 0.f;
   for (int i = 0; i < num_iterations; ++i) {
     saturation_protector->UpdateMargin(vad_data, estimated_level_dbfs);
     const float new_margin = saturation_protector->LastMargin();
     max_difference =
         std::max(max_difference, std::abs(new_margin - last_margin));
     last_margin = new_margin;
     saturation_protector->DebugDumpEstimate();
   }
   return max_difference;
 }
 }  // namespace

 TEST(AutomaticGainController2SaturationProtector, ProtectorShouldNotCrash) {
   ApmDataDumper apm_data_dumper(0);
   SaturationProtector saturation_protector(&apm_data_dumper);
   VadWithLevel::LevelAndProbability vad_data(1.f, -20.f, -10.f);

   saturation_protector.UpdateMargin(vad_data, -20.f);
   static_cast<void>(saturation_protector.LastMargin());
   saturation_protector.DebugDumpEstimate();
 }

 // Check that the estimate converges to the ratio between peaks and
 // level estimator values after a while.
 TEST(AutomaticGainController2SaturationProtector,
      ProtectorEstimatesCrestRatio) {
   ApmDataDumper apm_data_dumper(0);
   SaturationProtector saturation_protector(&apm_data_dumper);

   constexpr float kPeakLevel = -20.f;
   const float kCrestFactor = GetInitialSaturationMarginDb() + 1.f;
   const float kSpeechLevel = kPeakLevel - kCrestFactor;
   const float kMaxDifference =
       0.5 * std::abs(GetInitialSaturationMarginDb() - kCrestFactor);

   static_cast<void>(RunOnConstantLevel(
       2000, VadWithLevel::LevelAndProbability(1.f, -90.f, kPeakLevel),
       kSpeechLevel, &saturation_protector));

   EXPECT_NEAR(
       saturation_protector.LastMargin() - GetExtraSaturationMarginOffsetDb(),
       kCrestFactor, kMaxDifference);
 }

 TEST(AutomaticGainController2SaturationProtector, ProtectorChangesSlowly) {
   ApmDataDumper apm_data_dumper(0);
   SaturationProtector saturation_protector(&apm_data_dumper);

   constexpr float kPeakLevel = -20.f;
   const float kCrestFactor = GetInitialSaturationMarginDb() - 5.f;
   const float kOtherCrestFactor = GetInitialSaturationMarginDb();
   const float kSpeechLevel = kPeakLevel - kCrestFactor;
   const float kOtherSpeechLevel = kPeakLevel - kOtherCrestFactor;

   constexpr int kNumIterations = 1000;
   float max_difference = RunOnConstantLevel(
       kNumIterations, VadWithLevel::LevelAndProbability(1.f, -90.f, kPeakLevel),
       kSpeechLevel, &saturation_protector);

   max_difference =
       std::max(RunOnConstantLevel(
                    kNumIterations,
                    VadWithLevel::LevelAndProbability(1.f, -90.f, kPeakLevel),
                    kOtherSpeechLevel, &saturation_protector),
                max_difference);

   constexpr float kMaxChangeSpeedDbPerSecond = 0.5;  // 1 db / 2 seconds.

   EXPECT_LE(max_difference,
             kMaxChangeSpeedDbPerSecond / 1000 * kFrameDurationMs);
 }

 TEST(AutomaticGainController2SaturationProtector,
      ProtectorAdaptsToDelayedChanges) {
   ApmDataDumper apm_data_dumper(0);
   SaturationProtector saturation_protector(&apm_data_dumper);

   constexpr int kDelayIterations = kFullBufferSizeMs / kFrameDurationMs;
   constexpr float kInitialSpeechLevelDbfs = -30;
   constexpr float kLaterSpeechLevelDbfs = -15;

   // First run on initial level.
   float max_difference = RunOnConstantLevel(
       kDelayIterations,
       VadWithLevel::LevelAndProbability(
           1.f, -90.f, kInitialSpeechLevelDbfs + GetInitialSaturationMarginDb()),
       kInitialSpeechLevelDbfs, &saturation_protector);

   // Then peak changes, but not RMS.
   max_difference =
       std::max(RunOnConstantLevel(
                    kDelayIterations,
                    VadWithLevel::LevelAndProbability(
                        1.f, -90.f,
                        kLaterSpeechLevelDbfs + GetInitialSaturationMarginDb()),
                    kInitialSpeechLevelDbfs, &saturation_protector),
                max_difference);

   // Then both change.
   max_difference =
       std::max(RunOnConstantLevel(
                    kDelayIterations,
                    VadWithLevel::LevelAndProbability(
                        1.f, -90.f,
                        kLaterSpeechLevelDbfs + GetInitialSaturationMarginDb()),
                    kLaterSpeechLevelDbfs, &saturation_protector),
                max_difference);

   // The saturation protector expects that the RMS changes roughly
   // 'kFullBufferSizeMs' after peaks change. This is to account for
   // delay introduces by the level estimator. Therefore, the input
   // above is 'normal' and 'expected', and shouldn't influence the
   // margin by much.

   const float total_difference = std::abs(saturation_protector.LastMargin() -
                                           GetExtraSaturationMarginOffsetDb() -
                                           GetInitialSaturationMarginDb());

   EXPECT_LE(total_difference, 0.05f);
   EXPECT_LE(max_difference, 0.01f);
 }

 }  // namespace webrtc
	/*
	* 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/saturation_protector.h"

	#include <algorithm>

	#include "modules/audio_processing/agc2/agc2_common.h"
	#include "modules/audio_processing/logging/apm_data_dumper.h"
	#include "rtc_base/gunit.h"

	namespace webrtc {
	namespace {
	float RunOnConstantLevel(int num_iterations,
	VadWithLevel::LevelAndProbability vad_data,
	float estimated_level_dbfs,
	SaturationProtector* saturation_protector) {
	float last_margin = saturation_protector->LastMargin();
	float max_difference = 0.f;
	for (int i = 0; i < num_iterations; ++i) {
	saturation_protector->UpdateMargin(vad_data, estimated_level_dbfs);
	const float new_margin = saturation_protector->LastMargin();
	max_difference =
	std::max(max_difference, std::abs(new_margin - last_margin));
	last_margin = new_margin;
	saturation_protector->DebugDumpEstimate();
	}
	return max_difference;
	}
	} // namespace

	TEST(AutomaticGainController2SaturationProtector, ProtectorShouldNotCrash) {
	ApmDataDumper apm_data_dumper(0);
	SaturationProtector saturation_protector(&apm_data_dumper);
	VadWithLevel::LevelAndProbability vad_data(1.f, -20.f, -10.f);

	saturation_protector.UpdateMargin(vad_data, -20.f);
	static_cast<void>(saturation_protector.LastMargin());
	saturation_protector.DebugDumpEstimate();
	}

	// Check that the estimate converges to the ratio between peaks and
	// level estimator values after a while.
	TEST(AutomaticGainController2SaturationProtector,
	ProtectorEstimatesCrestRatio) {
	ApmDataDumper apm_data_dumper(0);
	SaturationProtector saturation_protector(&apm_data_dumper);

	constexpr float kPeakLevel = -20.f;
	const float kCrestFactor = GetInitialSaturationMarginDb() + 1.f;
	const float kSpeechLevel = kPeakLevel - kCrestFactor;
	const float kMaxDifference =
	0.5 * std::abs(GetInitialSaturationMarginDb() - kCrestFactor);

	static_cast<void>(RunOnConstantLevel(
	2000, VadWithLevel::LevelAndProbability(1.f, -90.f, kPeakLevel),
	kSpeechLevel, &saturation_protector));

	EXPECT_NEAR(
	saturation_protector.LastMargin() - GetExtraSaturationMarginOffsetDb(),
	kCrestFactor, kMaxDifference);
	}

	TEST(AutomaticGainController2SaturationProtector, ProtectorChangesSlowly) {
	ApmDataDumper apm_data_dumper(0);
	SaturationProtector saturation_protector(&apm_data_dumper);

	constexpr float kPeakLevel = -20.f;
	const float kCrestFactor = GetInitialSaturationMarginDb() - 5.f;
	const float kOtherCrestFactor = GetInitialSaturationMarginDb();
	const float kSpeechLevel = kPeakLevel - kCrestFactor;
	const float kOtherSpeechLevel = kPeakLevel - kOtherCrestFactor;

	constexpr int kNumIterations = 1000;
	float max_difference = RunOnConstantLevel(
	kNumIterations, VadWithLevel::LevelAndProbability(1.f, -90.f, kPeakLevel),
	kSpeechLevel, &saturation_protector);

	max_difference =
	std::max(RunOnConstantLevel(
	kNumIterations,
	VadWithLevel::LevelAndProbability(1.f, -90.f, kPeakLevel),
	kOtherSpeechLevel, &saturation_protector),
	max_difference);

	constexpr float kMaxChangeSpeedDbPerSecond = 0.5; // 1 db / 2 seconds.

	EXPECT_LE(max_difference,
	kMaxChangeSpeedDbPerSecond / 1000 * kFrameDurationMs);
	}

	TEST(AutomaticGainController2SaturationProtector,
	ProtectorAdaptsToDelayedChanges) {
	ApmDataDumper apm_data_dumper(0);
	SaturationProtector saturation_protector(&apm_data_dumper);

	constexpr int kDelayIterations = kFullBufferSizeMs / kFrameDurationMs;
	constexpr float kInitialSpeechLevelDbfs = -30;
	constexpr float kLaterSpeechLevelDbfs = -15;

	// First run on initial level.
	float max_difference = RunOnConstantLevel(
	kDelayIterations,
	VadWithLevel::LevelAndProbability(
	1.f, -90.f, kInitialSpeechLevelDbfs + GetInitialSaturationMarginDb()),
	kInitialSpeechLevelDbfs, &saturation_protector);

	// Then peak changes, but not RMS.
	max_difference =
	std::max(RunOnConstantLevel(
	kDelayIterations,
	VadWithLevel::LevelAndProbability(
	1.f, -90.f,
	kLaterSpeechLevelDbfs + GetInitialSaturationMarginDb()),
	kInitialSpeechLevelDbfs, &saturation_protector),
	max_difference);

	// Then both change.
	max_difference =
	std::max(RunOnConstantLevel(
	kDelayIterations,
	VadWithLevel::LevelAndProbability(
	1.f, -90.f,
	kLaterSpeechLevelDbfs + GetInitialSaturationMarginDb()),
	kLaterSpeechLevelDbfs, &saturation_protector),
	max_difference);

	// The saturation protector expects that the RMS changes roughly
	// 'kFullBufferSizeMs' after peaks change. This is to account for
	// delay introduces by the level estimator. Therefore, the input
	// above is 'normal' and 'expected', and shouldn't influence the
	// margin by much.

	const float total_difference = std::abs(saturation_protector.LastMargin() -
	GetExtraSaturationMarginOffsetDb() -
	GetInitialSaturationMarginDb());

	EXPECT_LE(total_difference, 0.05f);
	EXPECT_LE(max_difference, 0.01f);
	}

	} // namespace webrtc