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| 1 // Copyright (c) 2012 The Chromium Authors. All rights reserved. |
| 2 // Use of this source code is governed by a BSD-style license that can be |
| 3 // found in the LICENSE file. |
| 4 |
| 5 // MSVC++ requires this to be set before any other includes to get M_PI. |
| 6 #define _USE_MATH_DEFINES |
| 7 |
| 8 #include <cmath> |
| 9 |
| 10 #include "base/command_line.h" |
| 11 #include "base/logging.h" |
| 12 #include "base/memory/scoped_ptr.h" |
| 13 #include "base/memory/scoped_vector.h" |
| 14 #include "base/string_number_conversions.h" |
| 15 #include "base/time.h" |
| 16 #include "media/base/audio_converter.h" |
| 17 #include "media/base/fake_audio_render_callback.h" |
| 18 #include "testing/gmock/include/gmock/gmock.h" |
| 19 #include "testing/gtest/include/gtest/gtest.h" |
| 20 |
| 21 namespace media { |
| 22 |
| 23 // Command line switch for runtime adjustment of benchmark iterations. |
| 24 static const char kBenchmarkIterations[] = "audio-converter-iterations"; |
| 25 static const int kDefaultIterations = 10; |
| 26 |
| 27 // Parameters which control the many input case tests. |
| 28 static const int kConvertInputs = 8; |
| 29 static const int kConvertCycles = 3; |
| 30 |
| 31 // Parameters used for testing. |
| 32 static const int kBitsPerChannel = 32; |
| 33 static const ChannelLayout kChannelLayout = CHANNEL_LAYOUT_STEREO; |
| 34 static const int kHighLatencyBufferSize = 2048; |
| 35 static const int kLowLatencyBufferSize = 256; |
| 36 static const int kSampleRate = 48000; |
| 37 |
| 38 // Number of full sine wave cycles for each Render() call. |
| 39 static const int kSineCycles = 4; |
| 40 |
| 41 // Tuple of <input sampling rate, output sampling rate, epsilon>. |
| 42 typedef std::tr1::tuple<int, int, double> AudioConverterTestData; |
| 43 class AudioConverterTest |
| 44 : public testing::TestWithParam<AudioConverterTestData> { |
| 45 public: |
| 46 AudioConverterTest() |
| 47 : epsilon_(std::tr1::get<2>(GetParam())) { |
| 48 // Create input and output parameters based on test parameters. |
| 49 input_parameters_ = AudioParameters( |
| 50 AudioParameters::AUDIO_PCM_LINEAR, kChannelLayout, |
| 51 std::tr1::get<0>(GetParam()), kBitsPerChannel, kHighLatencyBufferSize); |
| 52 output_parameters_ = AudioParameters( |
| 53 AudioParameters::AUDIO_PCM_LOW_LATENCY, kChannelLayout, |
| 54 std::tr1::get<1>(GetParam()), 16, kLowLatencyBufferSize); |
| 55 |
| 56 converter_.reset(new AudioConverter( |
| 57 input_parameters_, output_parameters_, false)); |
| 58 |
| 59 audio_bus_ = AudioBus::Create(output_parameters_); |
| 60 expected_audio_bus_ = AudioBus::Create(output_parameters_); |
| 61 |
| 62 // Allocate one callback for generating expected results. |
| 63 double step = kSineCycles / static_cast<double>( |
| 64 output_parameters_.frames_per_buffer()); |
| 65 expected_callback_.reset(new FakeAudioRenderCallback(step)); |
| 66 } |
| 67 |
| 68 void InitializeInputs(int count) { |
| 69 // Setup FakeAudioRenderCallback step to compensate for resampling. |
| 70 double scale_factor = input_parameters_.sample_rate() / |
| 71 static_cast<double>(output_parameters_.sample_rate()); |
| 72 double step = kSineCycles / (scale_factor * |
| 73 static_cast<double>(output_parameters_.frames_per_buffer())); |
| 74 |
| 75 for (int i = 0; i < count; ++i) { |
| 76 fake_callbacks_.push_back(new FakeAudioRenderCallback(step)); |
| 77 converter_->AddInput(fake_callbacks_[i]); |
| 78 } |
| 79 } |
| 80 |
| 81 void Reset() { |
| 82 converter_->Reset(); |
| 83 for (size_t i = 0; i < fake_callbacks_.size(); ++i) |
| 84 fake_callbacks_[i]->reset(); |
| 85 expected_callback_->reset(); |
| 86 } |
| 87 |
| 88 void SetVolume(float volume) { |
| 89 for (size_t i = 0; i < fake_callbacks_.size(); ++i) |
| 90 fake_callbacks_[i]->set_volume(volume); |
| 91 } |
| 92 |
| 93 bool ValidateAudioData(int index, int frames, float scale) { |
| 94 for (int i = 0; i < audio_bus_->channels(); ++i) { |
| 95 for (int j = index; j < frames; j++) { |
| 96 double error = fabs(audio_bus_->channel(i)[j] - |
| 97 expected_audio_bus_->channel(i)[j] * scale); |
| 98 if (error > epsilon_) { |
| 99 EXPECT_NEAR(expected_audio_bus_->channel(i)[j] * scale, |
| 100 audio_bus_->channel(i)[j], epsilon_) |
| 101 << " i=" << i << ", j=" << j; |
| 102 return false; |
| 103 } |
| 104 } |
| 105 } |
| 106 return true; |
| 107 } |
| 108 |
| 109 bool RenderAndValidateAudioData(float scale) { |
| 110 // Render actual audio data. |
| 111 converter_->Convert(audio_bus_.get()); |
| 112 |
| 113 // Render expected audio data. |
| 114 expected_callback_->Render(expected_audio_bus_.get(), 0); |
| 115 |
| 116 return ValidateAudioData(0, audio_bus_->frames(), scale); |
| 117 } |
| 118 |
| 119 // Fill |audio_bus_| fully with |value|. |
| 120 void FillAudioData(float value) { |
| 121 for (int i = 0; i < audio_bus_->channels(); ++i) { |
| 122 std::fill(audio_bus_->channel(i), |
| 123 audio_bus_->channel(i) + audio_bus_->frames(), value); |
| 124 } |
| 125 } |
| 126 |
| 127 // Verify output with a number of transform inputs. |
| 128 void RunTest(int inputs) { |
| 129 InitializeInputs(inputs); |
| 130 |
| 131 SetVolume(0); |
| 132 for (int i = 0; i < kConvertCycles; ++i) |
| 133 ASSERT_TRUE(RenderAndValidateAudioData(0)); |
| 134 |
| 135 Reset(); |
| 136 |
| 137 // Set a different volume for each input and verify the results. |
| 138 float total_scale = 0; |
| 139 for (size_t i = 0; i < fake_callbacks_.size(); ++i) { |
| 140 float volume = static_cast<float>(i) / fake_callbacks_.size(); |
| 141 total_scale += volume; |
| 142 fake_callbacks_[i]->set_volume(volume); |
| 143 } |
| 144 for (int i = 0; i < kConvertCycles; ++i) |
| 145 ASSERT_TRUE(RenderAndValidateAudioData(total_scale)); |
| 146 |
| 147 Reset(); |
| 148 |
| 149 // Remove every other input. |
| 150 for (size_t i = 1; i < fake_callbacks_.size(); i += 2) |
| 151 converter_->RemoveInput(fake_callbacks_[i]); |
| 152 |
| 153 SetVolume(1); |
| 154 float scale = inputs > 1 ? inputs / 2.0f : inputs; |
| 155 for (int i = 0; i < kConvertCycles; ++i) |
| 156 ASSERT_TRUE(RenderAndValidateAudioData(scale)); |
| 157 } |
| 158 |
| 159 protected: |
| 160 virtual ~AudioConverterTest() {} |
| 161 |
| 162 scoped_ptr<AudioConverter> converter_; |
| 163 AudioParameters input_parameters_; |
| 164 AudioParameters output_parameters_; |
| 165 scoped_ptr<AudioBus> audio_bus_; |
| 166 scoped_ptr<AudioBus> expected_audio_bus_; |
| 167 ScopedVector<FakeAudioRenderCallback> fake_callbacks_; |
| 168 scoped_ptr<FakeAudioRenderCallback> expected_callback_; |
| 169 double epsilon_; |
| 170 |
| 171 DISALLOW_COPY_AND_ASSIGN(AudioConverterTest); |
| 172 }; |
| 173 |
| 174 // Ensure the buffer delay provided by AudioConverter is accurate. |
| 175 TEST(AudioConverterTest, AudioDelay) { |
| 176 // Choose input and output parameters such that the transform must make |
| 177 // multiple calls to fill the buffer. |
| 178 AudioParameters input_parameters = AudioParameters( |
| 179 AudioParameters::AUDIO_PCM_LINEAR, kChannelLayout, kSampleRate, |
| 180 kBitsPerChannel, kLowLatencyBufferSize); |
| 181 AudioParameters output_parameters = AudioParameters( |
| 182 AudioParameters::AUDIO_PCM_LINEAR, kChannelLayout, kSampleRate * 2, |
| 183 kBitsPerChannel, kHighLatencyBufferSize); |
| 184 |
| 185 AudioConverter converter(input_parameters, output_parameters, false); |
| 186 FakeAudioRenderCallback callback(0.2); |
| 187 scoped_ptr<AudioBus> audio_bus = AudioBus::Create(output_parameters); |
| 188 converter.AddInput(&callback); |
| 189 converter.Convert(audio_bus.get()); |
| 190 |
| 191 // Calculate the expected buffer delay for given AudioParameters. |
| 192 double input_sample_rate = input_parameters.sample_rate(); |
| 193 int fill_count = |
| 194 (output_parameters.frames_per_buffer() * input_sample_rate / |
| 195 output_parameters.sample_rate()) / input_parameters.frames_per_buffer(); |
| 196 |
| 197 base::TimeDelta input_frame_duration = base::TimeDelta::FromMicroseconds( |
| 198 base::Time::kMicrosecondsPerSecond / input_sample_rate); |
| 199 |
| 200 int expected_last_delay_milliseconds = |
| 201 fill_count * input_parameters.frames_per_buffer() * |
| 202 input_frame_duration.InMillisecondsF(); |
| 203 |
| 204 EXPECT_EQ(expected_last_delay_milliseconds, |
| 205 callback.last_audio_delay_milliseconds()); |
| 206 } |
| 207 |
| 208 // Benchmark for audio conversion. Original benchmarks were run with |
| 209 // --audio-converter-iterations=50000. |
| 210 TEST(AudioConverterTest, ConvertBenchmark) { |
| 211 int benchmark_iterations = kDefaultIterations; |
| 212 std::string iterations(CommandLine::ForCurrentProcess()->GetSwitchValueASCII( |
| 213 kBenchmarkIterations)); |
| 214 base::StringToInt(iterations, &benchmark_iterations); |
| 215 if (benchmark_iterations < kDefaultIterations) |
| 216 benchmark_iterations = kDefaultIterations; |
| 217 |
| 218 // Create input and output parameters to convert between the two most common |
| 219 // sets of parameters (as indicated via UMA data). |
| 220 AudioParameters input_params( |
| 221 AudioParameters::AUDIO_PCM_LINEAR, CHANNEL_LAYOUT_MONO, 48000, 16, 2048); |
| 222 AudioParameters output_params( |
| 223 AudioParameters::AUDIO_PCM_LINEAR, CHANNEL_LAYOUT_STEREO, 44100, 16, 440); |
| 224 scoped_ptr<AudioConverter> converter( |
| 225 new AudioConverter(input_params, output_params, false)); |
| 226 |
| 227 scoped_ptr<AudioBus> output_bus = AudioBus::Create(output_params); |
| 228 FakeAudioRenderCallback fake_input1(0.2); |
| 229 FakeAudioRenderCallback fake_input2(0.4); |
| 230 FakeAudioRenderCallback fake_input3(0.6); |
| 231 converter->AddInput(&fake_input1); |
| 232 converter->AddInput(&fake_input2); |
| 233 converter->AddInput(&fake_input3); |
| 234 |
| 235 printf("Benchmarking %d iterations:\n", benchmark_iterations); |
| 236 |
| 237 // Benchmark Convert() w/ FIFO. |
| 238 base::TimeTicks start = base::TimeTicks::HighResNow(); |
| 239 for (int i = 0; i < benchmark_iterations; ++i) { |
| 240 converter->Convert(output_bus.get()); |
| 241 } |
| 242 double total_time_ms = |
| 243 (base::TimeTicks::HighResNow() - start).InMillisecondsF(); |
| 244 printf("Convert() w/ FIFO took %.2fms.\n", total_time_ms); |
| 245 |
| 246 converter.reset(new AudioConverter(input_params, output_params, true)); |
| 247 converter->AddInput(&fake_input1); |
| 248 converter->AddInput(&fake_input2); |
| 249 converter->AddInput(&fake_input3); |
| 250 |
| 251 // Benchmark Convert() w/o FIFO. |
| 252 start = base::TimeTicks::HighResNow(); |
| 253 for (int i = 0; i < benchmark_iterations; ++i) { |
| 254 converter->Convert(output_bus.get()); |
| 255 } |
| 256 total_time_ms = |
| 257 (base::TimeTicks::HighResNow() - start).InMillisecondsF(); |
| 258 printf("Convert() w/o FIFO took %.2fms.\n", total_time_ms); |
| 259 } |
| 260 |
| 261 TEST_P(AudioConverterTest, NoInputs) { |
| 262 FillAudioData(1.0f); |
| 263 EXPECT_TRUE(RenderAndValidateAudioData(0.0f)); |
| 264 } |
| 265 |
| 266 TEST_P(AudioConverterTest, OneInput) { |
| 267 RunTest(1); |
| 268 } |
| 269 |
| 270 TEST_P(AudioConverterTest, ManyInputs) { |
| 271 RunTest(kConvertInputs); |
| 272 } |
| 273 |
| 274 INSTANTIATE_TEST_CASE_P( |
| 275 // TODO(dalecurtis): Add test cases for channel transforms. |
| 276 AudioConverterTest, AudioConverterTest, testing::Values( |
| 277 // No resampling. |
| 278 std::tr1::make_tuple(44100, 44100, 0.00000048), |
| 279 |
| 280 // Upsampling. |
| 281 std::tr1::make_tuple(44100, 48000, 0.033), |
| 282 |
| 283 // Downsampling. |
| 284 std::tr1::make_tuple(48000, 41000, 0.042))); |
| 285 |
| 286 } // namespace media |
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Chromium Code Reviews
Issue 11410012:
Collapse AudioRendererMixer and OnMoreDataResampler into AudioTransform. (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/src