modules/audio_processing/agc2/gain_applier_unittest.cc - mirrors/cros/chromiumos/third_party/webrtc-apm - 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/gain_applier.h"

 #include <math.h>

 #include <algorithm>
 #include <limits>

 #include "modules/audio_processing/agc2/vector_float_frame.h"
 #include "rtc_base/gunit.h"

 namespace webrtc {
 TEST(AutomaticGainController2GainApplier, InitialGainIsRespected) {
   constexpr float initial_signal_level = 123.f;
   constexpr float gain_factor = 10.f;
   VectorFloatFrame fake_audio(1, 1, initial_signal_level);
   GainApplier gain_applier(true, gain_factor);

   gain_applier.ApplyGain(fake_audio.float_frame_view());
   EXPECT_NEAR(fake_audio.float_frame_view().channel(0)[0],
               initial_signal_level * gain_factor, 0.1f);
 }

 TEST(AutomaticGainController2GainApplier, ClippingIsDone) {
   constexpr float initial_signal_level = 30000.f;
   constexpr float gain_factor = 10.f;
   VectorFloatFrame fake_audio(1, 1, initial_signal_level);
   GainApplier gain_applier(true, gain_factor);

   gain_applier.ApplyGain(fake_audio.float_frame_view());
   EXPECT_NEAR(fake_audio.float_frame_view().channel(0)[0],
               std::numeric_limits<int16_t>::max(), 0.1f);
 }

 TEST(AutomaticGainController2GainApplier, ClippingIsNotDone) {
   constexpr float initial_signal_level = 30000.f;
   constexpr float gain_factor = 10.f;
   VectorFloatFrame fake_audio(1, 1, initial_signal_level);
   GainApplier gain_applier(false, gain_factor);

   gain_applier.ApplyGain(fake_audio.float_frame_view());

   EXPECT_NEAR(fake_audio.float_frame_view().channel(0)[0],
               initial_signal_level * gain_factor, 0.1f);
 }

 TEST(AutomaticGainController2GainApplier, RampingIsDone) {
   constexpr float initial_signal_level = 30000.f;
   constexpr float initial_gain_factor = 1.f;
   constexpr float target_gain_factor = 0.5f;
   constexpr int num_channels = 3;
   constexpr int samples_per_channel = 4;
   VectorFloatFrame fake_audio(num_channels, samples_per_channel,
                               initial_signal_level);
   GainApplier gain_applier(false, initial_gain_factor);

   gain_applier.SetGainFactor(target_gain_factor);
   gain_applier.ApplyGain(fake_audio.float_frame_view());

   // The maximal gain change should be close to that in linear interpolation.
   for (size_t channel = 0; channel < num_channels; ++channel) {
     float max_signal_change = 0.f;
     float last_signal_level = initial_signal_level;
     for (const auto sample : fake_audio.float_frame_view().channel(channel)) {
       const float current_change = fabs(last_signal_level - sample);
       max_signal_change = std::max(max_signal_change, current_change);
       last_signal_level = sample;
     }
     const float total_gain_change =
         fabs((initial_gain_factor - target_gain_factor) * initial_signal_level);
     EXPECT_NEAR(max_signal_change, total_gain_change / samples_per_channel,
                 0.1f);
   }

   // Next frame should have the desired level.
   VectorFloatFrame next_fake_audio_frame(num_channels, samples_per_channel,
                                          initial_signal_level);
   gain_applier.ApplyGain(next_fake_audio_frame.float_frame_view());

   // The last sample should have the new gain.
   EXPECT_NEAR(next_fake_audio_frame.float_frame_view().channel(0)[0],
               initial_signal_level * target_gain_factor, 0.1f);
 }
 }  // 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/gain_applier.h"

	#include <math.h>

	#include <algorithm>
	#include <limits>

	#include "modules/audio_processing/agc2/vector_float_frame.h"
	#include "rtc_base/gunit.h"

	namespace webrtc {
	TEST(AutomaticGainController2GainApplier, InitialGainIsRespected) {
	constexpr float initial_signal_level = 123.f;
	constexpr float gain_factor = 10.f;
	VectorFloatFrame fake_audio(1, 1, initial_signal_level);
	GainApplier gain_applier(true, gain_factor);

	gain_applier.ApplyGain(fake_audio.float_frame_view());
	EXPECT_NEAR(fake_audio.float_frame_view().channel(0)[0],
	initial_signal_level * gain_factor, 0.1f);
	}

	TEST(AutomaticGainController2GainApplier, ClippingIsDone) {
	constexpr float initial_signal_level = 30000.f;
	constexpr float gain_factor = 10.f;
	VectorFloatFrame fake_audio(1, 1, initial_signal_level);
	GainApplier gain_applier(true, gain_factor);

	gain_applier.ApplyGain(fake_audio.float_frame_view());
	EXPECT_NEAR(fake_audio.float_frame_view().channel(0)[0],
	std::numeric_limits<int16_t>::max(), 0.1f);
	}

	TEST(AutomaticGainController2GainApplier, ClippingIsNotDone) {
	constexpr float initial_signal_level = 30000.f;
	constexpr float gain_factor = 10.f;
	VectorFloatFrame fake_audio(1, 1, initial_signal_level);
	GainApplier gain_applier(false, gain_factor);

	gain_applier.ApplyGain(fake_audio.float_frame_view());

	EXPECT_NEAR(fake_audio.float_frame_view().channel(0)[0],
	initial_signal_level * gain_factor, 0.1f);
	}

	TEST(AutomaticGainController2GainApplier, RampingIsDone) {
	constexpr float initial_signal_level = 30000.f;
	constexpr float initial_gain_factor = 1.f;
	constexpr float target_gain_factor = 0.5f;
	constexpr int num_channels = 3;
	constexpr int samples_per_channel = 4;
	VectorFloatFrame fake_audio(num_channels, samples_per_channel,
	initial_signal_level);
	GainApplier gain_applier(false, initial_gain_factor);

	gain_applier.SetGainFactor(target_gain_factor);
	gain_applier.ApplyGain(fake_audio.float_frame_view());

	// The maximal gain change should be close to that in linear interpolation.
	for (size_t channel = 0; channel < num_channels; ++channel) {
	float max_signal_change = 0.f;
	float last_signal_level = initial_signal_level;
	for (const auto sample : fake_audio.float_frame_view().channel(channel)) {
	const float current_change = fabs(last_signal_level - sample);
	max_signal_change = std::max(max_signal_change, current_change);
	last_signal_level = sample;
	}
	const float total_gain_change =
	fabs((initial_gain_factor - target_gain_factor) * initial_signal_level);
	EXPECT_NEAR(max_signal_change, total_gain_change / samples_per_channel,
	0.1f);
	}

	// Next frame should have the desired level.
	VectorFloatFrame next_fake_audio_frame(num_channels, samples_per_channel,
	initial_signal_level);
	gain_applier.ApplyGain(next_fake_audio_frame.float_frame_view());

	// The last sample should have the new gain.
	EXPECT_NEAR(next_fake_audio_frame.float_frame_view().channel(0)[0],
	initial_signal_level * target_gain_factor, 0.1f);
	}
	} // namespace webrtc