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webrtc/modules/audio_processing/gain_control_unittest.cc
Sam Zackrisson f0d1c03c31 Add replacement interface for webrtc::GainConrol 
The pointer-to-submodule interfaces are being removed.
This CL:
1) introduces AudioProcessing::Config::GainController1 with most config,
2) adds functions to APM for setting and getting analog gain,
3) creates a temporary GainControlConfigProxy to support the transition
   to the new config.
4) Moves the lock references in GainControlForExperimentalAgc and
   GainControlImpl into the GainControlConfigProxy, as it becomes the
   sole AGC object with functionality exposed to the client.

Bug: webrtc:9947, webrtc:9878
Change-Id: Ic31e15e9bb26d6497a92b77874e0b6cab21ff2b2
Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/126485
Commit-Queue: Sam Zackrisson <saza@webrtc.org>
Reviewed-by: Fredrik Solenberg <solenberg@webrtc.org>
Reviewed-by: Alessio Bazzica <alessiob@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#27316}
2019-03-27 15:19:41 +00:00

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/*
* Copyright (c) 2016 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 <vector>
#include "api/array_view.h"
#include "modules/audio_processing/audio_buffer.h"
#include "modules/audio_processing/gain_control_impl.h"
#include "modules/audio_processing/test/audio_buffer_tools.h"
#include "modules/audio_processing/test/bitexactness_tools.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
const int kNumFramesToProcess = 100;
void ProcessOneFrame(int sample_rate_hz,
AudioBuffer* render_audio_buffer,
AudioBuffer* capture_audio_buffer,
GainControlImpl* gain_controller) {
if (sample_rate_hz > AudioProcessing::kSampleRate16kHz) {
render_audio_buffer->SplitIntoFrequencyBands();
capture_audio_buffer->SplitIntoFrequencyBands();
}
std::vector<int16_t> render_audio;
GainControlImpl::PackRenderAudioBuffer(render_audio_buffer, &render_audio);
gain_controller->ProcessRenderAudio(render_audio);
gain_controller->AnalyzeCaptureAudio(capture_audio_buffer);
gain_controller->ProcessCaptureAudio(capture_audio_buffer, false);
if (sample_rate_hz > AudioProcessing::kSampleRate16kHz) {
capture_audio_buffer->MergeFrequencyBands();
}
}
void SetupComponent(int sample_rate_hz,
GainControl::Mode mode,
int target_level_dbfs,
int stream_analog_level,
int compression_gain_db,
bool enable_limiter,
int analog_level_min,
int analog_level_max,
GainControlImpl* gain_controller) {
gain_controller->Initialize(1, sample_rate_hz);
GainControl* gc = static_cast<GainControl*>(gain_controller);
gc->Enable(true);
gc->set_mode(mode);
gc->set_stream_analog_level(stream_analog_level);
gc->set_target_level_dbfs(target_level_dbfs);
gc->set_compression_gain_db(compression_gain_db);
gc->enable_limiter(enable_limiter);
gc->set_analog_level_limits(analog_level_min, analog_level_max);
}
void RunBitExactnessTest(int sample_rate_hz,
size_t num_channels,
GainControl::Mode mode,
int target_level_dbfs,
int stream_analog_level,
int compression_gain_db,
bool enable_limiter,
int analog_level_min,
int analog_level_max,
int achieved_stream_analog_level_reference,
rtc::ArrayView<const float> output_reference) {
GainControlImpl gain_controller;
SetupComponent(sample_rate_hz, mode, target_level_dbfs, stream_analog_level,
compression_gain_db, enable_limiter, analog_level_min,
analog_level_max, &gain_controller);
const int samples_per_channel = rtc::CheckedDivExact(sample_rate_hz, 100);
const StreamConfig render_config(sample_rate_hz, num_channels, false);
AudioBuffer render_buffer(
render_config.num_frames(), render_config.num_channels(),
render_config.num_frames(), 1, render_config.num_frames());
test::InputAudioFile render_file(
test::GetApmRenderTestVectorFileName(sample_rate_hz));
std::vector<float> render_input(samples_per_channel * num_channels);
const StreamConfig capture_config(sample_rate_hz, num_channels, false);
AudioBuffer capture_buffer(
capture_config.num_frames(), capture_config.num_channels(),
capture_config.num_frames(), 1, capture_config.num_frames());
test::InputAudioFile capture_file(
test::GetApmCaptureTestVectorFileName(sample_rate_hz));
std::vector<float> capture_input(samples_per_channel * num_channels);
for (int frame_no = 0; frame_no < kNumFramesToProcess; ++frame_no) {
ReadFloatSamplesFromStereoFile(samples_per_channel, num_channels,
&render_file, render_input);
ReadFloatSamplesFromStereoFile(samples_per_channel, num_channels,
&capture_file, capture_input);
test::CopyVectorToAudioBuffer(render_config, render_input, &render_buffer);
test::CopyVectorToAudioBuffer(capture_config, capture_input,
&capture_buffer);
ProcessOneFrame(sample_rate_hz, &render_buffer, &capture_buffer,
&gain_controller);
}
// Extract and verify the test results.
std::vector<float> capture_output;
test::ExtractVectorFromAudioBuffer(capture_config, &capture_buffer,
&capture_output);
EXPECT_EQ(achieved_stream_analog_level_reference,
gain_controller.stream_analog_level());
// Compare the output with the reference. Only the first values of the output
// from last frame processed are compared in order not having to specify all
// preceeding frames as testvectors. As the algorithm being tested has a
// memory, testing only the last frame implicitly also tests the preceeding
// frames.
const float kElementErrorBound = 1.0f / 32768.0f;
EXPECT_TRUE(test::VerifyDeinterleavedArray(
capture_config.num_frames(), capture_config.num_channels(),
output_reference, capture_output, kElementErrorBound));
}
} // namespace
// TODO(peah): Activate all these tests for ARM and ARM64 once the issue on the
// Chromium ARM and ARM64 boths have been identified. This is tracked in the
// issue https://bugs.chromium.org/p/webrtc/issues/detail?id=5711.
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono8kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono8kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.006622f, -0.002747f, 0.001587f};
RunBitExactnessTest(8000, 1, GainControl::Mode::kAdaptiveAnalog, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.006561f, -0.004608f, -0.002899f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kAdaptiveAnalog, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Stereo16kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Stereo16kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.027313f, -0.015900f, -0.028107f,
-0.027313f, -0.015900f, -0.028107f};
RunBitExactnessTest(16000, 2, GainControl::Mode::kAdaptiveAnalog, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono32kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono32kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.010162f, -0.009155f, -0.008301f};
RunBitExactnessTest(32000, 1, GainControl::Mode::kAdaptiveAnalog, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono48kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono48kHz_AdaptiveAnalog_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.010162f, -0.009155f, -0.008301f};
RunBitExactnessTest(32000, 1, GainControl::Mode::kAdaptiveAnalog, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono8kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono8kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.004028f, -0.001678f, 0.000946f};
RunBitExactnessTest(8000, 1, GainControl::Mode::kAdaptiveDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.003967f, -0.002777f, -0.001770f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kAdaptiveDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Stereo16kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Stereo16kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.015411f, -0.008972f, -0.015839f,
-0.015411f, -0.008972f, -0.015839f};
RunBitExactnessTest(16000, 2, GainControl::Mode::kAdaptiveDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono32kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono32kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.006104f, -0.005524f, -0.004974f};
RunBitExactnessTest(32000, 1, GainControl::Mode::kAdaptiveDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono48kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono48kHz_AdaptiveDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.006104f, -0.005524f, -0.004974f};
RunBitExactnessTest(32000, 1, GainControl::Mode::kAdaptiveDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono8kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono8kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.011871f, -0.004944f, 0.002838f};
RunBitExactnessTest(8000, 1, GainControl::Mode::kFixedDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.011749f, -0.008270f, -0.005219f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kFixedDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Stereo16kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Stereo16kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.048950f, -0.028503f, -0.050354f,
-0.048950f, -0.028503f, -0.050354f};
RunBitExactnessTest(16000, 2, GainControl::Mode::kFixedDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono32kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono32kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.018188f, -0.016418f, -0.014862f};
RunBitExactnessTest(32000, 1, GainControl::Mode::kFixedDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono48kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono48kHz_FixedDigital_Tl10_SL50_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 50;
const float kOutputReference[] = {-0.018188f, -0.016418f, -0.014862f};
RunBitExactnessTest(32000, 1, GainControl::Mode::kFixedDigital, 10, 50, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_AdaptiveAnalog_Tl10_SL10_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_AdaptiveAnalog_Tl10_SL10_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 12;
const float kOutputReference[] = {-0.006561f, -0.004608f, -0.002899f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kAdaptiveAnalog, 10, 10, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_AdaptiveAnalog_Tl10_SL100_CG5_Lim_AL70_80) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_AdaptiveAnalog_Tl10_SL100_CG5_Lim_AL70_80) {
#endif
const int kStreamAnalogLevelReference = 100;
const float kOutputReference[] = {-0.003998f, -0.002808f, -0.001770f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kAdaptiveAnalog, 10, 100, 5,
true, 70, 80, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_AdaptiveDigital_Tl10_SL100_CG5_NoLim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_AdaptiveDigital_Tl10_SL100_CG5_NoLim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 100;
const float kOutputReference[] = {-0.004028f, -0.002838f, -0.001770f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kAdaptiveDigital, 10, 100, 5,
false, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_AdaptiveDigital_Tl40_SL100_CG5_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_AdaptiveDigital_Tl40_SL100_CG5_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 100;
const float kOutputReference[] = {-0.008728f, -0.006134f, -0.003845f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kAdaptiveDigital, 40, 100, 5,
true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
#if !(defined(WEBRTC_ARCH_ARM64) || defined(WEBRTC_ARCH_ARM) || \
defined(WEBRTC_ANDROID))
TEST(GainControlBitExactnessTest,
Mono16kHz_AdaptiveDigital_Tl10_SL100_CG30_Lim_AL0_100) {
#else
TEST(GainControlBitExactnessTest,
DISABLED_Mono16kHz_AdaptiveDigital_Tl10_SL100_CG30_Lim_AL0_100) {
#endif
const int kStreamAnalogLevelReference = 100;
const float kOutputReference[] = {-0.005859f, -0.004120f, -0.002594f};
RunBitExactnessTest(16000, 1, GainControl::Mode::kAdaptiveDigital, 10, 100,
30, true, 0, 100, kStreamAnalogLevelReference,
kOutputReference);
}
} // namespace webrtc
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