Source/ThirdParty/libwebrtc/Source/webrtc/modules/audio_processing/aec3/echo_remover_unittest.cc - WebKit - Git at Google

 /*
  *  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/echo_remover.h"

 #include <algorithm>
 #include <memory>
 #include <numeric>
 #include <string>

 #include "modules/audio_processing/aec3/aec3_common.h"
 #include "modules/audio_processing/aec3/render_buffer.h"
 #include "modules/audio_processing/aec3/render_delay_buffer.h"
 #include "modules/audio_processing/logging/apm_data_dumper.h"
 #include "modules/audio_processing/test/echo_canceller_test_tools.h"
 #include "rtc_base/random.h"
 #include "rtc_base/strings/string_builder.h"
 #include "test/gtest.h"

 namespace webrtc {
 namespace {

 std::string ProduceDebugText(int sample_rate_hz) {
   rtc::StringBuilder ss;
   ss << "Sample rate: " << sample_rate_hz;
   return ss.Release();
 }

 std::string ProduceDebugText(int sample_rate_hz, int delay) {
   rtc::StringBuilder ss(ProduceDebugText(sample_rate_hz));
   ss << ", Delay: " << delay;
   return ss.Release();
 }

 }  // namespace

 // Verifies the basic API call sequence
 TEST(EchoRemover, BasicApiCalls) {
   absl::optional<DelayEstimate> delay_estimate;
   for (auto rate : {16000, 32000, 48000}) {
     for (size_t num_render_channels : {1, 2, 8}) {
       for (size_t num_capture_channels : {1, 2, 8}) {
         SCOPED_TRACE(ProduceDebugText(rate));
         std::unique_ptr<EchoRemover> remover(
             EchoRemover::Create(EchoCanceller3Config(), rate,
                                 num_render_channels, num_capture_channels));
         std::unique_ptr<RenderDelayBuffer> render_buffer(
             RenderDelayBuffer::Create(EchoCanceller3Config(), rate,
                                       num_render_channels));

         std::vector<std::vector<std::vector<float>>> render(
             NumBandsForRate(rate),
             std::vector<std::vector<float>>(
                 num_render_channels, std::vector<float>(kBlockSize, 0.f)));
         std::vector<std::vector<std::vector<float>>> capture(
             NumBandsForRate(rate),
             std::vector<std::vector<float>>(
                 num_capture_channels, std::vector<float>(kBlockSize, 0.f)));
         for (size_t k = 0; k < 100; ++k) {
           EchoPathVariability echo_path_variability(
               k % 3 == 0 ? true : false,
               k % 5 == 0
                   ? EchoPathVariability::DelayAdjustment::kNewDetectedDelay
                   : EchoPathVariability::DelayAdjustment::kNone,
               false);
           render_buffer->Insert(render);
           render_buffer->PrepareCaptureProcessing();

           remover->ProcessCapture(echo_path_variability,
                                   k % 2 == 0 ? true : false, delay_estimate,
                                   render_buffer->GetRenderBuffer(), &capture);
         }
       }
     }
   }
 }

 #if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)

 // Verifies the check for the samplerate.
 // TODO(peah): Re-enable the test once the issue with memory leaks during DEATH
 // tests on test bots has been fixed.
 TEST(EchoRemover, DISABLED_WrongSampleRate) {
   EXPECT_DEATH(std::unique_ptr<EchoRemover>(
                    EchoRemover::Create(EchoCanceller3Config(), 8001, 1, 1)),
                "");
 }

 // Verifies the check for the capture block size.
 TEST(EchoRemover, WrongCaptureBlockSize) {
   absl::optional<DelayEstimate> delay_estimate;
   for (auto rate : {16000, 32000, 48000}) {
     SCOPED_TRACE(ProduceDebugText(rate));
     std::unique_ptr<EchoRemover> remover(
         EchoRemover::Create(EchoCanceller3Config(), rate, 1, 1));
     std::unique_ptr<RenderDelayBuffer> render_buffer(
         RenderDelayBuffer::Create(EchoCanceller3Config(), rate, 1));
     std::vector<std::vector<std::vector<float>>> capture(
         NumBandsForRate(rate), std::vector<std::vector<float>>(
                                    1, std::vector<float>(kBlockSize - 1, 0.f)));
     EchoPathVariability echo_path_variability(
         false, EchoPathVariability::DelayAdjustment::kNone, false);
     EXPECT_DEATH(
         remover->ProcessCapture(echo_path_variability, false, delay_estimate,
                                 render_buffer->GetRenderBuffer(), &capture),
         "");
   }
 }

 // Verifies the check for the number of capture bands.
 // TODO(peah): Re-enable the test once the issue with memory leaks during DEATH
 // tests on test bots has been fixed.c
 TEST(EchoRemover, DISABLED_WrongCaptureNumBands) {
   absl::optional<DelayEstimate> delay_estimate;
   for (auto rate : {16000, 32000, 48000}) {
     SCOPED_TRACE(ProduceDebugText(rate));
     std::unique_ptr<EchoRemover> remover(
         EchoRemover::Create(EchoCanceller3Config(), rate, 1, 1));
     std::unique_ptr<RenderDelayBuffer> render_buffer(
         RenderDelayBuffer::Create(EchoCanceller3Config(), rate, 1));
     std::vector<std::vector<std::vector<float>>> capture(
         NumBandsForRate(rate == 48000 ? 16000 : rate + 16000),
         std::vector<std::vector<float>>(1,
                                         std::vector<float>(kBlockSize, 0.f)));
     EchoPathVariability echo_path_variability(
         false, EchoPathVariability::DelayAdjustment::kNone, false);
     EXPECT_DEATH(
         remover->ProcessCapture(echo_path_variability, false, delay_estimate,
                                 render_buffer->GetRenderBuffer(), &capture),
         "");
   }
 }

 // Verifies the check for non-null capture block.
 TEST(EchoRemover, NullCapture) {
   absl::optional<DelayEstimate> delay_estimate;
   std::unique_ptr<EchoRemover> remover(
       EchoRemover::Create(EchoCanceller3Config(), 16000, 1, 1));
   std::unique_ptr<RenderDelayBuffer> render_buffer(
       RenderDelayBuffer::Create(EchoCanceller3Config(), 16000, 1));
   EchoPathVariability echo_path_variability(
       false, EchoPathVariability::DelayAdjustment::kNone, false);
   EXPECT_DEATH(
       remover->ProcessCapture(echo_path_variability, false, delay_estimate,
                               render_buffer->GetRenderBuffer(), nullptr),
       "");
 }

 #endif

 // Performs a sanity check that the echo_remover is able to properly
 // remove echoes.
 TEST(EchoRemover, BasicEchoRemoval) {
   constexpr int kNumBlocksToProcess = 500;
   Random random_generator(42U);
   absl::optional<DelayEstimate> delay_estimate;
   for (size_t num_channels : {1, 2, 4}) {
     for (auto rate : {16000, 32000, 48000}) {
       std::vector<std::vector<std::vector<float>>> x(
           NumBandsForRate(rate),
           std::vector<std::vector<float>>(num_channels,
                                           std::vector<float>(kBlockSize, 0.f)));
       std::vector<std::vector<std::vector<float>>> y(
           NumBandsForRate(rate),
           std::vector<std::vector<float>>(num_channels,
                                           std::vector<float>(kBlockSize, 0.f)));
       EchoPathVariability echo_path_variability(
           false, EchoPathVariability::DelayAdjustment::kNone, false);
       for (size_t delay_samples : {0, 64, 150, 200, 301}) {
         SCOPED_TRACE(ProduceDebugText(rate, delay_samples));
         EchoCanceller3Config config;
         std::unique_ptr<EchoRemover> remover(
             EchoRemover::Create(config, rate, num_channels, num_channels));
         std::unique_ptr<RenderDelayBuffer> render_buffer(
             RenderDelayBuffer::Create(config, rate, num_channels));
         render_buffer->AlignFromDelay(delay_samples / kBlockSize);

         std::vector<std::vector<std::unique_ptr<DelayBuffer<float>>>>
             delay_buffers(x.size());
         for (size_t band = 0; band < delay_buffers.size(); ++band) {
           delay_buffers[band].resize(x[0].size());
         }

         for (size_t band = 0; band < x.size(); ++band) {
           for (size_t channel = 0; channel < x[0].size(); ++channel) {
             delay_buffers[band][channel].reset(
                 new DelayBuffer<float>(delay_samples));
           }
         }

         float input_energy = 0.f;
         float output_energy = 0.f;
         for (int k = 0; k < kNumBlocksToProcess; ++k) {
           const bool silence = k < 100 || (k % 100 >= 10);

           for (size_t band = 0; band < x.size(); ++band) {
             for (size_t channel = 0; channel < x[0].size(); ++channel) {
               if (silence) {
                 std::fill(x[band][channel].begin(), x[band][channel].end(),
                           0.f);
               } else {
                 RandomizeSampleVector(&random_generator, x[band][channel]);
               }
               delay_buffers[band][channel]->Delay(x[band][channel],
                                                   y[band][channel]);
             }
           }

           if (k > kNumBlocksToProcess / 2) {
             input_energy = std::inner_product(y[0][0].begin(), y[0][0].end(),
                                               y[0][0].begin(), input_energy);
           }

           render_buffer->Insert(x);
           render_buffer->PrepareCaptureProcessing();

           remover->ProcessCapture(echo_path_variability, false, delay_estimate,
                                   render_buffer->GetRenderBuffer(), &y);

           if (k > kNumBlocksToProcess / 2) {
             output_energy = std::inner_product(y[0][0].begin(), y[0][0].end(),
                                                y[0][0].begin(), output_energy);
           }
         }
         EXPECT_GT(input_energy, 10.f * output_energy);
       }
     }
   }
 }

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

	#include <algorithm>
	#include <memory>
	#include <numeric>
	#include <string>

	#include "modules/audio_processing/aec3/aec3_common.h"
	#include "modules/audio_processing/aec3/render_buffer.h"
	#include "modules/audio_processing/aec3/render_delay_buffer.h"
	#include "modules/audio_processing/logging/apm_data_dumper.h"
	#include "modules/audio_processing/test/echo_canceller_test_tools.h"
	#include "rtc_base/random.h"
	#include "rtc_base/strings/string_builder.h"
	#include "test/gtest.h"

	namespace webrtc {
	namespace {

	std::string ProduceDebugText(int sample_rate_hz) {
	rtc::StringBuilder ss;
	ss << "Sample rate: " << sample_rate_hz;
	return ss.Release();
	}

	std::string ProduceDebugText(int sample_rate_hz, int delay) {
	rtc::StringBuilder ss(ProduceDebugText(sample_rate_hz));
	ss << ", Delay: " << delay;
	return ss.Release();
	}

	} // namespace

	// Verifies the basic API call sequence
	TEST(EchoRemover, BasicApiCalls) {
	absl::optional<DelayEstimate> delay_estimate;
	for (auto rate : {16000, 32000, 48000}) {
	for (size_t num_render_channels : {1, 2, 8}) {
	for (size_t num_capture_channels : {1, 2, 8}) {
	SCOPED_TRACE(ProduceDebugText(rate));
	std::unique_ptr<EchoRemover> remover(
	EchoRemover::Create(EchoCanceller3Config(), rate,
	num_render_channels, num_capture_channels));
	std::unique_ptr<RenderDelayBuffer> render_buffer(
	RenderDelayBuffer::Create(EchoCanceller3Config(), rate,
	num_render_channels));

	std::vector<std::vector<std::vector<float>>> render(
	NumBandsForRate(rate),
	std::vector<std::vector<float>>(
	num_render_channels, std::vector<float>(kBlockSize, 0.f)));
	std::vector<std::vector<std::vector<float>>> capture(
	NumBandsForRate(rate),
	std::vector<std::vector<float>>(
	num_capture_channels, std::vector<float>(kBlockSize, 0.f)));
	for (size_t k = 0; k < 100; ++k) {
	EchoPathVariability echo_path_variability(
	k % 3 == 0 ? true : false,
	k % 5 == 0
	? EchoPathVariability::DelayAdjustment::kNewDetectedDelay
	: EchoPathVariability::DelayAdjustment::kNone,
	false);
	render_buffer->Insert(render);
	render_buffer->PrepareCaptureProcessing();

	remover->ProcessCapture(echo_path_variability,
	k % 2 == 0 ? true : false, delay_estimate,
	render_buffer->GetRenderBuffer(), &capture);
	}
	}
	}
	}
	}

	#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)

	// Verifies the check for the samplerate.
	// TODO(peah): Re-enable the test once the issue with memory leaks during DEATH
	// tests on test bots has been fixed.
	TEST(EchoRemover, DISABLED_WrongSampleRate) {
	EXPECT_DEATH(std::unique_ptr<EchoRemover>(
	EchoRemover::Create(EchoCanceller3Config(), 8001, 1, 1)),
	"");
	}

	// Verifies the check for the capture block size.
	TEST(EchoRemover, WrongCaptureBlockSize) {
	absl::optional<DelayEstimate> delay_estimate;
	for (auto rate : {16000, 32000, 48000}) {
	SCOPED_TRACE(ProduceDebugText(rate));
	std::unique_ptr<EchoRemover> remover(
	EchoRemover::Create(EchoCanceller3Config(), rate, 1, 1));
	std::unique_ptr<RenderDelayBuffer> render_buffer(
	RenderDelayBuffer::Create(EchoCanceller3Config(), rate, 1));
	std::vector<std::vector<std::vector<float>>> capture(
	NumBandsForRate(rate), std::vector<std::vector<float>>(
	1, std::vector<float>(kBlockSize - 1, 0.f)));
	EchoPathVariability echo_path_variability(
	false, EchoPathVariability::DelayAdjustment::kNone, false);
	EXPECT_DEATH(
	remover->ProcessCapture(echo_path_variability, false, delay_estimate,
	render_buffer->GetRenderBuffer(), &capture),
	"");
	}
	}

	// Verifies the check for the number of capture bands.
	// TODO(peah): Re-enable the test once the issue with memory leaks during DEATH
	// tests on test bots has been fixed.c
	TEST(EchoRemover, DISABLED_WrongCaptureNumBands) {
	absl::optional<DelayEstimate> delay_estimate;
	for (auto rate : {16000, 32000, 48000}) {
	SCOPED_TRACE(ProduceDebugText(rate));
	std::unique_ptr<EchoRemover> remover(
	EchoRemover::Create(EchoCanceller3Config(), rate, 1, 1));
	std::unique_ptr<RenderDelayBuffer> render_buffer(
	RenderDelayBuffer::Create(EchoCanceller3Config(), rate, 1));
	std::vector<std::vector<std::vector<float>>> capture(
	NumBandsForRate(rate == 48000 ? 16000 : rate + 16000),
	std::vector<std::vector<float>>(1,
	std::vector<float>(kBlockSize, 0.f)));
	EchoPathVariability echo_path_variability(
	false, EchoPathVariability::DelayAdjustment::kNone, false);
	EXPECT_DEATH(
	remover->ProcessCapture(echo_path_variability, false, delay_estimate,
	render_buffer->GetRenderBuffer(), &capture),
	"");
	}
	}

	// Verifies the check for non-null capture block.
	TEST(EchoRemover, NullCapture) {
	absl::optional<DelayEstimate> delay_estimate;
	std::unique_ptr<EchoRemover> remover(
	EchoRemover::Create(EchoCanceller3Config(), 16000, 1, 1));
	std::unique_ptr<RenderDelayBuffer> render_buffer(
	RenderDelayBuffer::Create(EchoCanceller3Config(), 16000, 1));
	EchoPathVariability echo_path_variability(
	false, EchoPathVariability::DelayAdjustment::kNone, false);
	EXPECT_DEATH(
	remover->ProcessCapture(echo_path_variability, false, delay_estimate,
	render_buffer->GetRenderBuffer(), nullptr),
	"");
	}

	#endif

	// Performs a sanity check that the echo_remover is able to properly
	// remove echoes.
	TEST(EchoRemover, BasicEchoRemoval) {
	constexpr int kNumBlocksToProcess = 500;
	Random random_generator(42U);
	absl::optional<DelayEstimate> delay_estimate;
	for (size_t num_channels : {1, 2, 4}) {
	for (auto rate : {16000, 32000, 48000}) {
	std::vector<std::vector<std::vector<float>>> x(
	NumBandsForRate(rate),
	std::vector<std::vector<float>>(num_channels,
	std::vector<float>(kBlockSize, 0.f)));
	std::vector<std::vector<std::vector<float>>> y(
	NumBandsForRate(rate),
	std::vector<std::vector<float>>(num_channels,
	std::vector<float>(kBlockSize, 0.f)));
	EchoPathVariability echo_path_variability(
	false, EchoPathVariability::DelayAdjustment::kNone, false);
	for (size_t delay_samples : {0, 64, 150, 200, 301}) {
	SCOPED_TRACE(ProduceDebugText(rate, delay_samples));
	EchoCanceller3Config config;
	std::unique_ptr<EchoRemover> remover(
	EchoRemover::Create(config, rate, num_channels, num_channels));
	std::unique_ptr<RenderDelayBuffer> render_buffer(
	RenderDelayBuffer::Create(config, rate, num_channels));
	render_buffer->AlignFromDelay(delay_samples / kBlockSize);

	std::vector<std::vector<std::unique_ptr<DelayBuffer<float>>>>
	delay_buffers(x.size());
	for (size_t band = 0; band < delay_buffers.size(); ++band) {
	delay_buffers[band].resize(x[0].size());
	}

	for (size_t band = 0; band < x.size(); ++band) {
	for (size_t channel = 0; channel < x[0].size(); ++channel) {
	delay_buffers[band][channel].reset(
	new DelayBuffer<float>(delay_samples));
	}
	}

	float input_energy = 0.f;
	float output_energy = 0.f;
	for (int k = 0; k < kNumBlocksToProcess; ++k) {
	const bool silence = k < 100 \|\| (k % 100 >= 10);

	for (size_t band = 0; band < x.size(); ++band) {
	for (size_t channel = 0; channel < x[0].size(); ++channel) {
	if (silence) {
	std::fill(x[band][channel].begin(), x[band][channel].end(),
	0.f);
	} else {
	RandomizeSampleVector(&random_generator, x[band][channel]);
	}
	delay_buffers[band][channel]->Delay(x[band][channel],
	y[band][channel]);
	}
	}

	if (k > kNumBlocksToProcess / 2) {
	input_energy = std::inner_product(y[0][0].begin(), y[0][0].end(),
	y[0][0].begin(), input_energy);
	}

	render_buffer->Insert(x);
	render_buffer->PrepareCaptureProcessing();

	remover->ProcessCapture(echo_path_variability, false, delay_estimate,
	render_buffer->GetRenderBuffer(), &y);

	if (k > kNumBlocksToProcess / 2) {
	output_energy = std::inner_product(y[0][0].begin(), y[0][0].end(),
	y[0][0].begin(), output_energy);
	}
	}
	EXPECT_GT(input_energy, 10.f * output_energy);
	}
	}
	}
	}

	} // namespace webrtc