| /* |
| * 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 "modules/audio_processing/aec3/echo_canceller3.h" |
| |
| #include <deque> |
| #include <memory> |
| #include <string> |
| #include <utility> |
| #include <vector> |
| |
| #include "modules/audio_processing/aec3/aec3_common.h" |
| #include "modules/audio_processing/aec3/block_processor.h" |
| #include "modules/audio_processing/aec3/frame_blocker.h" |
| #include "modules/audio_processing/aec3/mock/mock_block_processor.h" |
| #include "modules/audio_processing/audio_buffer.h" |
| #include "modules/audio_processing/high_pass_filter.h" |
| #include "modules/audio_processing/utility/cascaded_biquad_filter.h" |
| #include "rtc_base/strings/string_builder.h" |
| #include "test/field_trial.h" |
| #include "test/gmock.h" |
| #include "test/gtest.h" |
| |
| namespace webrtc { |
| namespace { |
| |
| using ::testing::_; |
| using ::testing::StrictMock; |
| |
| // Populates the frame with linearly increasing sample values for each band, |
| // with a band-specific offset, in order to allow simple bitexactness |
| // verification for each band. |
| void PopulateInputFrame(size_t frame_length, |
| size_t num_bands, |
| size_t frame_index, |
| float* const* frame, |
| int offset) { |
| for (size_t k = 0; k < num_bands; ++k) { |
| for (size_t i = 0; i < frame_length; ++i) { |
| float value = static_cast<int>(frame_index * frame_length + i) + offset; |
| frame[k][i] = (value > 0 ? 5000 * k + value : 0); |
| } |
| } |
| } |
| |
| // Populates the frame with linearly increasing sample values. |
| void PopulateInputFrame(size_t frame_length, |
| size_t frame_index, |
| float* frame, |
| int offset) { |
| for (size_t i = 0; i < frame_length; ++i) { |
| float value = static_cast<int>(frame_index * frame_length + i) + offset; |
| frame[i] = std::max(value, 0.f); |
| } |
| } |
| |
| // Verifies the that samples in the output frame are identical to the samples |
| // that were produced for the input frame, with an offset in order to compensate |
| // for buffering delays. |
| bool VerifyOutputFrameBitexactness(size_t frame_length, |
| size_t num_bands, |
| size_t frame_index, |
| const float* const* frame, |
| int offset) { |
| float reference_frame_data[kMaxNumBands][2 * kSubFrameLength]; |
| float* reference_frame[kMaxNumBands]; |
| for (size_t k = 0; k < num_bands; ++k) { |
| reference_frame[k] = &reference_frame_data[k][0]; |
| } |
| |
| PopulateInputFrame(frame_length, num_bands, frame_index, reference_frame, |
| offset); |
| for (size_t k = 0; k < num_bands; ++k) { |
| for (size_t i = 0; i < frame_length; ++i) { |
| if (reference_frame[k][i] != frame[k][i]) { |
| return false; |
| } |
| } |
| } |
| |
| return true; |
| } |
| |
| bool VerifyOutputFrameBitexactness(rtc::ArrayView<const float> reference, |
| rtc::ArrayView<const float> frame, |
| int offset) { |
| for (size_t k = 0; k < frame.size(); ++k) { |
| int reference_index = static_cast<int>(k) + offset; |
| if (reference_index >= 0) { |
| if (reference[reference_index] != frame[k]) { |
| return false; |
| } |
| } |
| } |
| return true; |
| } |
| |
| // Class for testing that the capture data is properly received by the block |
| // processor and that the processor data is properly passed to the |
| // EchoCanceller3 output. |
| class CaptureTransportVerificationProcessor : public BlockProcessor { |
| public: |
| explicit CaptureTransportVerificationProcessor(size_t /* num_bands */) {} |
| |
| CaptureTransportVerificationProcessor() = delete; |
| CaptureTransportVerificationProcessor( |
| const CaptureTransportVerificationProcessor&) = delete; |
| CaptureTransportVerificationProcessor& operator=( |
| const CaptureTransportVerificationProcessor&) = delete; |
| |
| ~CaptureTransportVerificationProcessor() override = default; |
| |
| void ProcessCapture(bool /* level_change */, |
| bool /* saturated_microphone_signal */, |
| Block* /* linear_output */, |
| Block* /* capture_block */) override {} |
| |
| void BufferRender(const Block& /* block */) override {} |
| |
| void UpdateEchoLeakageStatus(bool /* leakage_detected */) override {} |
| |
| void GetMetrics(EchoControl::Metrics* /* metrics */) const override {} |
| |
| void SetAudioBufferDelay(int /* delay_ms */) override {} |
| |
| void SetCaptureOutputUsage(bool /* capture_output_used */) {} |
| }; |
| |
| // Class for testing that the render data is properly received by the block |
| // processor. |
| class RenderTransportVerificationProcessor : public BlockProcessor { |
| public: |
| explicit RenderTransportVerificationProcessor(size_t /* num_bands */) {} |
| |
| RenderTransportVerificationProcessor() = delete; |
| RenderTransportVerificationProcessor( |
| const RenderTransportVerificationProcessor&) = delete; |
| RenderTransportVerificationProcessor& operator=( |
| const RenderTransportVerificationProcessor&) = delete; |
| |
| ~RenderTransportVerificationProcessor() override = default; |
| |
| void ProcessCapture(bool /* level_change */, |
| bool /* saturated_microphone_signal */, |
| Block* /* linear_output */, |
| Block* capture_block) override { |
| Block render_block = received_render_blocks_.front(); |
| received_render_blocks_.pop_front(); |
| capture_block->Swap(render_block); |
| } |
| |
| void BufferRender(const Block& block) override { |
| received_render_blocks_.push_back(block); |
| } |
| |
| void UpdateEchoLeakageStatus(bool /* leakage_detected */) override {} |
| |
| void GetMetrics(EchoControl::Metrics* /* metrics */) const override {} |
| |
| void SetAudioBufferDelay(int delay_ms) override {} |
| |
| void SetCaptureOutputUsage(bool capture_output_used) {} |
| |
| private: |
| std::deque<Block> received_render_blocks_; |
| }; |
| |
| 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 variant) { |
| rtc::StringBuilder ss; |
| ss << "Sample rate: " << sample_rate_hz << ", variant: " << variant; |
| return ss.Release(); |
| } |
| |
| void RunAecInStereo(AudioBuffer& buffer, |
| EchoCanceller3& aec3, |
| float channel_0_value, |
| float channel_1_value) { |
| rtc::ArrayView<float> data_channel_0(&buffer.channels()[0][0], |
| buffer.num_frames()); |
| std::fill(data_channel_0.begin(), data_channel_0.end(), channel_0_value); |
| rtc::ArrayView<float> data_channel_1(&buffer.channels()[1][0], |
| buffer.num_frames()); |
| std::fill(data_channel_1.begin(), data_channel_1.end(), channel_1_value); |
| aec3.AnalyzeRender(&buffer); |
| aec3.AnalyzeCapture(&buffer); |
| aec3.ProcessCapture(&buffer, /*level_change=*/false); |
| } |
| |
| void RunAecInSMono(AudioBuffer& buffer, |
| EchoCanceller3& aec3, |
| float channel_0_value) { |
| rtc::ArrayView<float> data_channel_0(&buffer.channels()[0][0], |
| buffer.num_frames()); |
| std::fill(data_channel_0.begin(), data_channel_0.end(), channel_0_value); |
| aec3.AnalyzeRender(&buffer); |
| aec3.AnalyzeCapture(&buffer); |
| aec3.ProcessCapture(&buffer, /*level_change=*/false); |
| } |
| |
| } // namespace |
| |
| class EchoCanceller3Tester { |
| public: |
| explicit EchoCanceller3Tester(int sample_rate_hz) |
| : sample_rate_hz_(sample_rate_hz), |
| num_bands_(NumBandsForRate(sample_rate_hz_)), |
| frame_length_(160), |
| fullband_frame_length_(rtc::CheckedDivExact(sample_rate_hz_, 100)), |
| capture_buffer_(fullband_frame_length_ * 100, |
| 1, |
| fullband_frame_length_ * 100, |
| 1, |
| fullband_frame_length_ * 100, |
| 1), |
| render_buffer_(fullband_frame_length_ * 100, |
| 1, |
| fullband_frame_length_ * 100, |
| 1, |
| fullband_frame_length_ * 100, |
| 1) {} |
| |
| EchoCanceller3Tester() = delete; |
| EchoCanceller3Tester(const EchoCanceller3Tester&) = delete; |
| EchoCanceller3Tester& operator=(const EchoCanceller3Tester&) = delete; |
| |
| // Verifies that the capture data is properly received by the block processor |
| // and that the processor data is properly passed to the EchoCanceller3 |
| // output. |
| void RunCaptureTransportVerificationTest() { |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, sample_rate_hz_, |
| 1, 1); |
| aec3.SetBlockProcessorForTesting( |
| std::make_unique<CaptureTransportVerificationProcessor>(num_bands_)); |
| |
| for (size_t frame_index = 0; frame_index < kNumFramesToProcess; |
| ++frame_index) { |
| aec3.AnalyzeCapture(&capture_buffer_); |
| OptionalBandSplit(); |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &capture_buffer_.split_bands(0)[0], 0); |
| PopulateInputFrame(frame_length_, frame_index, |
| &render_buffer_.channels()[0][0], 0); |
| |
| aec3.AnalyzeRender(&render_buffer_); |
| aec3.ProcessCapture(&capture_buffer_, false); |
| EXPECT_TRUE(VerifyOutputFrameBitexactness( |
| frame_length_, num_bands_, frame_index, |
| &capture_buffer_.split_bands(0)[0], -64)); |
| } |
| } |
| |
| // Test method for testing that the render data is properly received by the |
| // block processor. |
| void RunRenderTransportVerificationTest() { |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, sample_rate_hz_, |
| 1, 1); |
| aec3.SetBlockProcessorForTesting( |
| std::make_unique<RenderTransportVerificationProcessor>(num_bands_)); |
| |
| std::vector<std::vector<float>> render_input(1); |
| std::vector<float> capture_output; |
| for (size_t frame_index = 0; frame_index < kNumFramesToProcess; |
| ++frame_index) { |
| aec3.AnalyzeCapture(&capture_buffer_); |
| OptionalBandSplit(); |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &capture_buffer_.split_bands(0)[0], 100); |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &render_buffer_.split_bands(0)[0], 0); |
| |
| for (size_t k = 0; k < frame_length_; ++k) { |
| render_input[0].push_back(render_buffer_.split_bands(0)[0][k]); |
| } |
| aec3.AnalyzeRender(&render_buffer_); |
| aec3.ProcessCapture(&capture_buffer_, false); |
| for (size_t k = 0; k < frame_length_; ++k) { |
| capture_output.push_back(capture_buffer_.split_bands(0)[0][k]); |
| } |
| } |
| |
| EXPECT_TRUE( |
| VerifyOutputFrameBitexactness(render_input[0], capture_output, -64)); |
| } |
| |
| // Verifies that information about echo path changes are properly propagated |
| // to the block processor. |
| // The cases tested are: |
| // -That no set echo path change flags are received when there is no echo path |
| // change. |
| // -That set echo path change flags are received and continues to be received |
| // as long as echo path changes are flagged. |
| // -That set echo path change flags are no longer received when echo path |
| // change events stop being flagged. |
| enum class EchoPathChangeTestVariant { kNone, kOneSticky, kOneNonSticky }; |
| |
| void RunEchoPathChangeVerificationTest( |
| EchoPathChangeTestVariant echo_path_change_test_variant) { |
| constexpr size_t kNumFullBlocksPerFrame = 160 / kBlockSize; |
| constexpr size_t kExpectedNumBlocksToProcess = |
| (kNumFramesToProcess * 160) / kBlockSize; |
| std::unique_ptr<testing::StrictMock<webrtc::test::MockBlockProcessor>> |
| block_processor_mock( |
| new StrictMock<webrtc::test::MockBlockProcessor>()); |
| EXPECT_CALL(*block_processor_mock, BufferRender(_)) |
| .Times(kExpectedNumBlocksToProcess); |
| EXPECT_CALL(*block_processor_mock, UpdateEchoLeakageStatus(_)).Times(0); |
| |
| switch (echo_path_change_test_variant) { |
| case EchoPathChangeTestVariant::kNone: |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(false, _, _, _)) |
| .Times(kExpectedNumBlocksToProcess); |
| break; |
| case EchoPathChangeTestVariant::kOneSticky: |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(true, _, _, _)) |
| .Times(kExpectedNumBlocksToProcess); |
| break; |
| case EchoPathChangeTestVariant::kOneNonSticky: |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(true, _, _, _)) |
| .Times(kNumFullBlocksPerFrame); |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(false, _, _, _)) |
| .Times(kExpectedNumBlocksToProcess - kNumFullBlocksPerFrame); |
| break; |
| } |
| |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, sample_rate_hz_, |
| 1, 1); |
| aec3.SetBlockProcessorForTesting(std::move(block_processor_mock)); |
| |
| for (size_t frame_index = 0; frame_index < kNumFramesToProcess; |
| ++frame_index) { |
| bool echo_path_change = false; |
| switch (echo_path_change_test_variant) { |
| case EchoPathChangeTestVariant::kNone: |
| break; |
| case EchoPathChangeTestVariant::kOneSticky: |
| echo_path_change = true; |
| break; |
| case EchoPathChangeTestVariant::kOneNonSticky: |
| if (frame_index == 0) { |
| echo_path_change = true; |
| } |
| break; |
| } |
| |
| aec3.AnalyzeCapture(&capture_buffer_); |
| OptionalBandSplit(); |
| |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &capture_buffer_.split_bands(0)[0], 0); |
| PopulateInputFrame(frame_length_, frame_index, |
| &render_buffer_.channels()[0][0], 0); |
| |
| aec3.AnalyzeRender(&render_buffer_); |
| aec3.ProcessCapture(&capture_buffer_, echo_path_change); |
| } |
| } |
| |
| // Test for verifying that echo leakage information is being properly passed |
| // to the processor. |
| // The cases tested are: |
| // -That no method calls are received when they should not. |
| // -That false values are received each time they are flagged. |
| // -That true values are received each time they are flagged. |
| // -That a false value is received when flagged after a true value has been |
| // flagged. |
| enum class EchoLeakageTestVariant { |
| kNone, |
| kFalseSticky, |
| kTrueSticky, |
| kTrueNonSticky |
| }; |
| |
| void RunEchoLeakageVerificationTest( |
| EchoLeakageTestVariant leakage_report_variant) { |
| constexpr size_t kExpectedNumBlocksToProcess = |
| (kNumFramesToProcess * 160) / kBlockSize; |
| std::unique_ptr<testing::StrictMock<webrtc::test::MockBlockProcessor>> |
| block_processor_mock( |
| new StrictMock<webrtc::test::MockBlockProcessor>()); |
| EXPECT_CALL(*block_processor_mock, BufferRender(_)) |
| .Times(kExpectedNumBlocksToProcess); |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(_, _, _, _)) |
| .Times(kExpectedNumBlocksToProcess); |
| |
| switch (leakage_report_variant) { |
| case EchoLeakageTestVariant::kNone: |
| EXPECT_CALL(*block_processor_mock, UpdateEchoLeakageStatus(_)).Times(0); |
| break; |
| case EchoLeakageTestVariant::kFalseSticky: |
| EXPECT_CALL(*block_processor_mock, UpdateEchoLeakageStatus(false)) |
| .Times(1); |
| break; |
| case EchoLeakageTestVariant::kTrueSticky: |
| EXPECT_CALL(*block_processor_mock, UpdateEchoLeakageStatus(true)) |
| .Times(1); |
| break; |
| case EchoLeakageTestVariant::kTrueNonSticky: { |
| ::testing::InSequence s; |
| EXPECT_CALL(*block_processor_mock, UpdateEchoLeakageStatus(true)) |
| .Times(1); |
| EXPECT_CALL(*block_processor_mock, UpdateEchoLeakageStatus(false)) |
| .Times(kNumFramesToProcess - 1); |
| } break; |
| } |
| |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, sample_rate_hz_, |
| 1, 1); |
| aec3.SetBlockProcessorForTesting(std::move(block_processor_mock)); |
| |
| for (size_t frame_index = 0; frame_index < kNumFramesToProcess; |
| ++frame_index) { |
| switch (leakage_report_variant) { |
| case EchoLeakageTestVariant::kNone: |
| break; |
| case EchoLeakageTestVariant::kFalseSticky: |
| if (frame_index == 0) { |
| aec3.UpdateEchoLeakageStatus(false); |
| } |
| break; |
| case EchoLeakageTestVariant::kTrueSticky: |
| if (frame_index == 0) { |
| aec3.UpdateEchoLeakageStatus(true); |
| } |
| break; |
| case EchoLeakageTestVariant::kTrueNonSticky: |
| if (frame_index == 0) { |
| aec3.UpdateEchoLeakageStatus(true); |
| } else { |
| aec3.UpdateEchoLeakageStatus(false); |
| } |
| break; |
| } |
| |
| aec3.AnalyzeCapture(&capture_buffer_); |
| OptionalBandSplit(); |
| |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &capture_buffer_.split_bands(0)[0], 0); |
| PopulateInputFrame(frame_length_, frame_index, |
| &render_buffer_.channels()[0][0], 0); |
| |
| aec3.AnalyzeRender(&render_buffer_); |
| aec3.ProcessCapture(&capture_buffer_, false); |
| } |
| } |
| |
| // This verifies that saturation information is properly passed to the |
| // BlockProcessor. |
| // The cases tested are: |
| // -That no saturation event is passed to the processor if there is no |
| // saturation. |
| // -That one frame with one negative saturated sample value is reported to be |
| // saturated and that following non-saturated frames are properly reported as |
| // not being saturated. |
| // -That one frame with one positive saturated sample value is reported to be |
| // saturated and that following non-saturated frames are properly reported as |
| // not being saturated. |
| enum class SaturationTestVariant { kNone, kOneNegative, kOnePositive }; |
| |
| void RunCaptureSaturationVerificationTest( |
| SaturationTestVariant saturation_variant) { |
| const size_t kNumFullBlocksPerFrame = 160 / kBlockSize; |
| const size_t kExpectedNumBlocksToProcess = |
| (kNumFramesToProcess * 160) / kBlockSize; |
| std::unique_ptr<testing::StrictMock<webrtc::test::MockBlockProcessor>> |
| block_processor_mock( |
| new StrictMock<webrtc::test::MockBlockProcessor>()); |
| EXPECT_CALL(*block_processor_mock, BufferRender(_)) |
| .Times(kExpectedNumBlocksToProcess); |
| EXPECT_CALL(*block_processor_mock, UpdateEchoLeakageStatus(_)).Times(0); |
| |
| switch (saturation_variant) { |
| case SaturationTestVariant::kNone: |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(_, false, _, _)) |
| .Times(kExpectedNumBlocksToProcess); |
| break; |
| case SaturationTestVariant::kOneNegative: { |
| ::testing::InSequence s; |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(_, true, _, _)) |
| .Times(kNumFullBlocksPerFrame); |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(_, false, _, _)) |
| .Times(kExpectedNumBlocksToProcess - kNumFullBlocksPerFrame); |
| } break; |
| case SaturationTestVariant::kOnePositive: { |
| ::testing::InSequence s; |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(_, true, _, _)) |
| .Times(kNumFullBlocksPerFrame); |
| EXPECT_CALL(*block_processor_mock, ProcessCapture(_, false, _, _)) |
| .Times(kExpectedNumBlocksToProcess - kNumFullBlocksPerFrame); |
| } break; |
| } |
| |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, sample_rate_hz_, |
| 1, 1); |
| aec3.SetBlockProcessorForTesting(std::move(block_processor_mock)); |
| for (size_t frame_index = 0; frame_index < kNumFramesToProcess; |
| ++frame_index) { |
| for (int k = 0; k < fullband_frame_length_; ++k) { |
| capture_buffer_.channels()[0][k] = 0.f; |
| } |
| switch (saturation_variant) { |
| case SaturationTestVariant::kNone: |
| break; |
| case SaturationTestVariant::kOneNegative: |
| if (frame_index == 0) { |
| capture_buffer_.channels()[0][10] = -32768.f; |
| } |
| break; |
| case SaturationTestVariant::kOnePositive: |
| if (frame_index == 0) { |
| capture_buffer_.channels()[0][10] = 32767.f; |
| } |
| break; |
| } |
| |
| aec3.AnalyzeCapture(&capture_buffer_); |
| OptionalBandSplit(); |
| |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &capture_buffer_.split_bands(0)[0], 0); |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &render_buffer_.split_bands(0)[0], 0); |
| |
| aec3.AnalyzeRender(&render_buffer_); |
| aec3.ProcessCapture(&capture_buffer_, false); |
| } |
| } |
| |
| // This test verifies that the swapqueue is able to handle jitter in the |
| // capture and render API calls. |
| void RunRenderSwapQueueVerificationTest() { |
| const EchoCanceller3Config config; |
| EchoCanceller3 aec3(config, /*multichannel_config=*/std::nullopt, |
| sample_rate_hz_, 1, 1); |
| aec3.SetBlockProcessorForTesting( |
| std::make_unique<RenderTransportVerificationProcessor>(num_bands_)); |
| |
| std::vector<std::vector<float>> render_input(1); |
| std::vector<float> capture_output; |
| |
| for (size_t frame_index = 0; frame_index < kRenderTransferQueueSizeFrames; |
| ++frame_index) { |
| if (sample_rate_hz_ > 16000) { |
| render_buffer_.SplitIntoFrequencyBands(); |
| } |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &render_buffer_.split_bands(0)[0], 0); |
| |
| if (sample_rate_hz_ > 16000) { |
| render_buffer_.SplitIntoFrequencyBands(); |
| } |
| |
| for (size_t k = 0; k < frame_length_; ++k) { |
| render_input[0].push_back(render_buffer_.split_bands(0)[0][k]); |
| } |
| aec3.AnalyzeRender(&render_buffer_); |
| } |
| |
| for (size_t frame_index = 0; frame_index < kRenderTransferQueueSizeFrames; |
| ++frame_index) { |
| aec3.AnalyzeCapture(&capture_buffer_); |
| if (sample_rate_hz_ > 16000) { |
| capture_buffer_.SplitIntoFrequencyBands(); |
| } |
| |
| PopulateInputFrame(frame_length_, num_bands_, frame_index, |
| &capture_buffer_.split_bands(0)[0], 0); |
| |
| aec3.ProcessCapture(&capture_buffer_, false); |
| for (size_t k = 0; k < frame_length_; ++k) { |
| capture_output.push_back(capture_buffer_.split_bands(0)[0][k]); |
| } |
| } |
| |
| EXPECT_TRUE( |
| VerifyOutputFrameBitexactness(render_input[0], capture_output, -64)); |
| } |
| |
| // This test verifies that a buffer overrun in the render swapqueue is |
| // properly reported. |
| void RunRenderPipelineSwapQueueOverrunReturnValueTest() { |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, sample_rate_hz_, |
| 1, 1); |
| |
| constexpr size_t kRenderTransferQueueSize = 30; |
| for (size_t k = 0; k < 2; ++k) { |
| for (size_t frame_index = 0; frame_index < kRenderTransferQueueSize; |
| ++frame_index) { |
| if (sample_rate_hz_ > 16000) { |
| render_buffer_.SplitIntoFrequencyBands(); |
| } |
| PopulateInputFrame(frame_length_, frame_index, |
| &render_buffer_.channels()[0][0], 0); |
| |
| aec3.AnalyzeRender(&render_buffer_); |
| } |
| } |
| } |
| |
| #if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID) |
| // Verifies the that the check for the number of bands in the AnalyzeRender |
| // input is correct by adjusting the sample rates of EchoCanceller3 and the |
| // input AudioBuffer to have a different number of bands. |
| void RunAnalyzeRenderNumBandsCheckVerification() { |
| // Set aec3_sample_rate_hz to be different from sample_rate_hz_ in such a |
| // way that the number of bands for the rates are different. |
| const int aec3_sample_rate_hz = sample_rate_hz_ == 48000 ? 32000 : 48000; |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, |
| aec3_sample_rate_hz, 1, 1); |
| PopulateInputFrame(frame_length_, 0, &render_buffer_.channels_f()[0][0], 0); |
| |
| EXPECT_DEATH(aec3.AnalyzeRender(&render_buffer_), ""); |
| } |
| |
| // Verifies the that the check for the number of bands in the ProcessCapture |
| // input is correct by adjusting the sample rates of EchoCanceller3 and the |
| // input AudioBuffer to have a different number of bands. |
| void RunProcessCaptureNumBandsCheckVerification() { |
| // Set aec3_sample_rate_hz to be different from sample_rate_hz_ in such a |
| // way that the number of bands for the rates are different. |
| const int aec3_sample_rate_hz = sample_rate_hz_ == 48000 ? 32000 : 48000; |
| EchoCanceller3 aec3(EchoCanceller3Config(), |
| /*multichannel_config=*/std::nullopt, |
| aec3_sample_rate_hz, 1, 1); |
| PopulateInputFrame(frame_length_, num_bands_, 0, |
| &capture_buffer_.split_bands_f(0)[0], 100); |
| EXPECT_DEATH(aec3.ProcessCapture(&capture_buffer_, false), ""); |
| } |
| |
| #endif |
| |
| private: |
| void OptionalBandSplit() { |
| if (sample_rate_hz_ > 16000) { |
| capture_buffer_.SplitIntoFrequencyBands(); |
| render_buffer_.SplitIntoFrequencyBands(); |
| } |
| } |
| |
| static constexpr size_t kNumFramesToProcess = 20; |
| const int sample_rate_hz_; |
| const size_t num_bands_; |
| const size_t frame_length_; |
| const int fullband_frame_length_; |
| AudioBuffer capture_buffer_; |
| AudioBuffer render_buffer_; |
| }; |
| |
| TEST(EchoCanceller3Buffering, CaptureBitexactness) { |
| for (auto rate : {16000, 32000, 48000}) { |
| SCOPED_TRACE(ProduceDebugText(rate)); |
| EchoCanceller3Tester(rate).RunCaptureTransportVerificationTest(); |
| } |
| } |
| |
| TEST(EchoCanceller3Buffering, RenderBitexactness) { |
| for (auto rate : {16000, 32000, 48000}) { |
| SCOPED_TRACE(ProduceDebugText(rate)); |
| EchoCanceller3Tester(rate).RunRenderTransportVerificationTest(); |
| } |
| } |
| |
| TEST(EchoCanceller3Buffering, RenderSwapQueue) { |
| EchoCanceller3Tester(16000).RunRenderSwapQueueVerificationTest(); |
| } |
| |
| TEST(EchoCanceller3Buffering, RenderSwapQueueOverrunReturnValue) { |
| for (auto rate : {16000, 32000, 48000}) { |
| SCOPED_TRACE(ProduceDebugText(rate)); |
| EchoCanceller3Tester(rate) |
| .RunRenderPipelineSwapQueueOverrunReturnValueTest(); |
| } |
| } |
| |
| TEST(EchoCanceller3Messaging, CaptureSaturation) { |
| auto variants = {EchoCanceller3Tester::SaturationTestVariant::kNone, |
| EchoCanceller3Tester::SaturationTestVariant::kOneNegative, |
| EchoCanceller3Tester::SaturationTestVariant::kOnePositive}; |
| for (auto rate : {16000, 32000, 48000}) { |
| for (auto variant : variants) { |
| SCOPED_TRACE(ProduceDebugText(rate, static_cast<int>(variant))); |
| EchoCanceller3Tester(rate).RunCaptureSaturationVerificationTest(variant); |
| } |
| } |
| } |
| |
| TEST(EchoCanceller3Messaging, EchoPathChange) { |
| auto variants = { |
| EchoCanceller3Tester::EchoPathChangeTestVariant::kNone, |
| EchoCanceller3Tester::EchoPathChangeTestVariant::kOneSticky, |
| EchoCanceller3Tester::EchoPathChangeTestVariant::kOneNonSticky}; |
| for (auto rate : {16000, 32000, 48000}) { |
| for (auto variant : variants) { |
| SCOPED_TRACE(ProduceDebugText(rate, static_cast<int>(variant))); |
| EchoCanceller3Tester(rate).RunEchoPathChangeVerificationTest(variant); |
| } |
| } |
| } |
| |
| TEST(EchoCanceller3Messaging, EchoLeakage) { |
| auto variants = { |
| EchoCanceller3Tester::EchoLeakageTestVariant::kNone, |
| EchoCanceller3Tester::EchoLeakageTestVariant::kFalseSticky, |
| EchoCanceller3Tester::EchoLeakageTestVariant::kTrueSticky, |
| EchoCanceller3Tester::EchoLeakageTestVariant::kTrueNonSticky}; |
| for (auto rate : {16000, 32000, 48000}) { |
| for (auto variant : variants) { |
| SCOPED_TRACE(ProduceDebugText(rate, static_cast<int>(variant))); |
| EchoCanceller3Tester(rate).RunEchoLeakageVerificationTest(variant); |
| } |
| } |
| } |
| |
| // Tests the parameter functionality for the field trial override for the |
| // anti-howling gain. |
| TEST(EchoCanceller3FieldTrials, Aec3SuppressorAntiHowlingGainOverride) { |
| EchoCanceller3Config default_config; |
| EchoCanceller3Config adjusted_config = AdjustConfig(default_config); |
| ASSERT_EQ( |
| default_config.suppressor.high_bands_suppression.anti_howling_gain, |
| adjusted_config.suppressor.high_bands_suppression.anti_howling_gain); |
| |
| webrtc::test::ScopedFieldTrials field_trials( |
| "WebRTC-Aec3SuppressorAntiHowlingGainOverride/0.02/"); |
| adjusted_config = AdjustConfig(default_config); |
| |
| ASSERT_NE( |
| default_config.suppressor.high_bands_suppression.anti_howling_gain, |
| adjusted_config.suppressor.high_bands_suppression.anti_howling_gain); |
| EXPECT_FLOAT_EQ( |
| 0.02f, |
| adjusted_config.suppressor.high_bands_suppression.anti_howling_gain); |
| } |
| |
| // Tests the field trial override for the enforcement of a low active render |
| // limit. |
| TEST(EchoCanceller3FieldTrials, Aec3EnforceLowActiveRenderLimit) { |
| EchoCanceller3Config default_config; |
| EchoCanceller3Config adjusted_config = AdjustConfig(default_config); |
| ASSERT_EQ(default_config.render_levels.active_render_limit, |
| adjusted_config.render_levels.active_render_limit); |
| |
| webrtc::test::ScopedFieldTrials field_trials( |
| "WebRTC-Aec3EnforceLowActiveRenderLimit/Enabled/"); |
| adjusted_config = AdjustConfig(default_config); |
| |
| ASSERT_NE(default_config.render_levels.active_render_limit, |
| adjusted_config.render_levels.active_render_limit); |
| EXPECT_FLOAT_EQ(50.f, adjusted_config.render_levels.active_render_limit); |
| } |
| |
| // Testing the field trial-based override of the suppressor parameters for a |
| // joint passing of all parameters. |
| TEST(EchoCanceller3FieldTrials, Aec3SuppressorTuningOverrideAllParams) { |
| webrtc::test::ScopedFieldTrials field_trials( |
| "WebRTC-Aec3SuppressorTuningOverride/" |
| "nearend_tuning_mask_lf_enr_transparent:0.1,nearend_tuning_mask_lf_enr_" |
| "suppress:0.2,nearend_tuning_mask_hf_enr_transparent:0.3,nearend_tuning_" |
| "mask_hf_enr_suppress:0.4,nearend_tuning_max_inc_factor:0.5,nearend_" |
| "tuning_max_dec_factor_lf:0.6,normal_tuning_mask_lf_enr_transparent:0.7," |
| "normal_tuning_mask_lf_enr_suppress:0.8,normal_tuning_mask_hf_enr_" |
| "transparent:0.9,normal_tuning_mask_hf_enr_suppress:1.0,normal_tuning_" |
| "max_inc_factor:1.1,normal_tuning_max_dec_factor_lf:1.2,dominant_nearend_" |
| "detection_enr_threshold:1.3,dominant_nearend_detection_enr_exit_" |
| "threshold:1.4,dominant_nearend_detection_snr_threshold:1.5,dominant_" |
| "nearend_detection_hold_duration:10,dominant_nearend_detection_trigger_" |
| "threshold:11/"); |
| |
| EchoCanceller3Config default_config; |
| EchoCanceller3Config adjusted_config = AdjustConfig(default_config); |
| |
| ASSERT_NE(adjusted_config.suppressor.nearend_tuning.mask_lf.enr_transparent, |
| default_config.suppressor.nearend_tuning.mask_lf.enr_transparent); |
| ASSERT_NE(adjusted_config.suppressor.nearend_tuning.mask_lf.enr_suppress, |
| default_config.suppressor.nearend_tuning.mask_lf.enr_suppress); |
| ASSERT_NE(adjusted_config.suppressor.nearend_tuning.mask_hf.enr_transparent, |
| default_config.suppressor.nearend_tuning.mask_hf.enr_transparent); |
| ASSERT_NE(adjusted_config.suppressor.nearend_tuning.mask_hf.enr_suppress, |
| default_config.suppressor.nearend_tuning.mask_hf.enr_suppress); |
| ASSERT_NE(adjusted_config.suppressor.nearend_tuning.max_inc_factor, |
| default_config.suppressor.nearend_tuning.max_inc_factor); |
| ASSERT_NE(adjusted_config.suppressor.nearend_tuning.max_dec_factor_lf, |
| default_config.suppressor.nearend_tuning.max_dec_factor_lf); |
| ASSERT_NE(adjusted_config.suppressor.normal_tuning.mask_lf.enr_transparent, |
| default_config.suppressor.normal_tuning.mask_lf.enr_transparent); |
| ASSERT_NE(adjusted_config.suppressor.normal_tuning.mask_lf.enr_suppress, |
| default_config.suppressor.normal_tuning.mask_lf.enr_suppress); |
| ASSERT_NE(adjusted_config.suppressor.normal_tuning.mask_hf.enr_transparent, |
| default_config.suppressor.normal_tuning.mask_hf.enr_transparent); |
| ASSERT_NE(adjusted_config.suppressor.normal_tuning.mask_hf.enr_suppress, |
| default_config.suppressor.normal_tuning.mask_hf.enr_suppress); |
| ASSERT_NE(adjusted_config.suppressor.normal_tuning.max_inc_factor, |
| default_config.suppressor.normal_tuning.max_inc_factor); |
| ASSERT_NE(adjusted_config.suppressor.normal_tuning.max_dec_factor_lf, |
| default_config.suppressor.normal_tuning.max_dec_factor_lf); |
| ASSERT_NE(adjusted_config.suppressor.dominant_nearend_detection.enr_threshold, |
| default_config.suppressor.dominant_nearend_detection.enr_threshold); |
| ASSERT_NE( |
| adjusted_config.suppressor.dominant_nearend_detection.enr_exit_threshold, |
| default_config.suppressor.dominant_nearend_detection.enr_exit_threshold); |
| ASSERT_NE(adjusted_config.suppressor.dominant_nearend_detection.snr_threshold, |
| default_config.suppressor.dominant_nearend_detection.snr_threshold); |
| ASSERT_NE(adjusted_config.suppressor.dominant_nearend_detection.hold_duration, |
| default_config.suppressor.dominant_nearend_detection.hold_duration); |
| ASSERT_NE( |
| adjusted_config.suppressor.dominant_nearend_detection.trigger_threshold, |
| default_config.suppressor.dominant_nearend_detection.trigger_threshold); |
| |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.nearend_tuning.mask_lf.enr_transparent, 0.1); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.nearend_tuning.mask_lf.enr_suppress, 0.2); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.nearend_tuning.mask_hf.enr_transparent, 0.3); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.nearend_tuning.mask_hf.enr_suppress, 0.4); |
| EXPECT_FLOAT_EQ(adjusted_config.suppressor.nearend_tuning.max_inc_factor, |
| 0.5); |
| EXPECT_FLOAT_EQ(adjusted_config.suppressor.nearend_tuning.max_dec_factor_lf, |
| 0.6); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.normal_tuning.mask_lf.enr_transparent, 0.7); |
| EXPECT_FLOAT_EQ(adjusted_config.suppressor.normal_tuning.mask_lf.enr_suppress, |
| 0.8); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.normal_tuning.mask_hf.enr_transparent, 0.9); |
| EXPECT_FLOAT_EQ(adjusted_config.suppressor.normal_tuning.mask_hf.enr_suppress, |
| 1.0); |
| EXPECT_FLOAT_EQ(adjusted_config.suppressor.normal_tuning.max_inc_factor, 1.1); |
| EXPECT_FLOAT_EQ(adjusted_config.suppressor.normal_tuning.max_dec_factor_lf, |
| 1.2); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.dominant_nearend_detection.enr_threshold, 1.3); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.dominant_nearend_detection.enr_exit_threshold, |
| 1.4); |
| EXPECT_FLOAT_EQ( |
| adjusted_config.suppressor.dominant_nearend_detection.snr_threshold, 1.5); |
| EXPECT_EQ(adjusted_config.suppressor.dominant_nearend_detection.hold_duration, |
| 10); |
| EXPECT_EQ( |
| adjusted_config.suppressor.dominant_nearend_detection.trigger_threshold, |
| 11); |
| } |
| |
| // Testing the field trial-based override of the suppressor parameters for |
| // passing one parameter. |
| TEST(EchoCanceller3FieldTrials, Aec3SuppressorTuningOverrideOneParam) { |
| webrtc::test::ScopedFieldTrials field_trials( |
| "WebRTC-Aec3SuppressorTuningOverride/nearend_tuning_max_inc_factor:0.5/"); |
| |
| EchoCanceller3Config default_config; |
| EchoCanceller3Config adjusted_config = AdjustConfig(default_config); |
| |
| ASSERT_EQ(adjusted_config.suppressor.nearend_tuning.mask_lf.enr_transparent, |
| default_config.suppressor.nearend_tuning.mask_lf.enr_transparent); |
| ASSERT_EQ(adjusted_config.suppressor.nearend_tuning.mask_lf.enr_suppress, |
| default_config.suppressor.nearend_tuning.mask_lf.enr_suppress); |
| ASSERT_EQ(adjusted_config.suppressor.nearend_tuning.mask_hf.enr_transparent, |
| default_config.suppressor.nearend_tuning.mask_hf.enr_transparent); |
| ASSERT_EQ(adjusted_config.suppressor.nearend_tuning.mask_hf.enr_suppress, |
| default_config.suppressor.nearend_tuning.mask_hf.enr_suppress); |
| ASSERT_EQ(adjusted_config.suppressor.nearend_tuning.max_dec_factor_lf, |
| default_config.suppressor.nearend_tuning.max_dec_factor_lf); |
| ASSERT_EQ(adjusted_config.suppressor.normal_tuning.mask_lf.enr_transparent, |
| default_config.suppressor.normal_tuning.mask_lf.enr_transparent); |
| ASSERT_EQ(adjusted_config.suppressor.normal_tuning.mask_lf.enr_suppress, |
| default_config.suppressor.normal_tuning.mask_lf.enr_suppress); |
| ASSERT_EQ(adjusted_config.suppressor.normal_tuning.mask_hf.enr_transparent, |
| default_config.suppressor.normal_tuning.mask_hf.enr_transparent); |
| ASSERT_EQ(adjusted_config.suppressor.normal_tuning.mask_hf.enr_suppress, |
| default_config.suppressor.normal_tuning.mask_hf.enr_suppress); |
| ASSERT_EQ(adjusted_config.suppressor.normal_tuning.max_inc_factor, |
| default_config.suppressor.normal_tuning.max_inc_factor); |
| ASSERT_EQ(adjusted_config.suppressor.normal_tuning.max_dec_factor_lf, |
| default_config.suppressor.normal_tuning.max_dec_factor_lf); |
| ASSERT_EQ(adjusted_config.suppressor.dominant_nearend_detection.enr_threshold, |
| default_config.suppressor.dominant_nearend_detection.enr_threshold); |
| ASSERT_EQ( |
| adjusted_config.suppressor.dominant_nearend_detection.enr_exit_threshold, |
| default_config.suppressor.dominant_nearend_detection.enr_exit_threshold); |
| ASSERT_EQ(adjusted_config.suppressor.dominant_nearend_detection.snr_threshold, |
| default_config.suppressor.dominant_nearend_detection.snr_threshold); |
| ASSERT_EQ(adjusted_config.suppressor.dominant_nearend_detection.hold_duration, |
| default_config.suppressor.dominant_nearend_detection.hold_duration); |
| ASSERT_EQ( |
| adjusted_config.suppressor.dominant_nearend_detection.trigger_threshold, |
| default_config.suppressor.dominant_nearend_detection.trigger_threshold); |
| |
| ASSERT_NE(adjusted_config.suppressor.nearend_tuning.max_inc_factor, |
| default_config.suppressor.nearend_tuning.max_inc_factor); |
| |
| EXPECT_FLOAT_EQ(adjusted_config.suppressor.nearend_tuning.max_inc_factor, |
| 0.5); |
| } |
| |
| // Testing the field trial-based that override the exponential decay parameters. |
| TEST(EchoCanceller3FieldTrials, Aec3UseNearendReverb) { |
| webrtc::test::ScopedFieldTrials field_trials( |
| "WebRTC-Aec3UseNearendReverbLen/default_len:0.9,nearend_len:0.8/"); |
| EchoCanceller3Config default_config; |
| EchoCanceller3Config adjusted_config = AdjustConfig(default_config); |
| EXPECT_FLOAT_EQ(adjusted_config.ep_strength.default_len, 0.9); |
| EXPECT_FLOAT_EQ(adjusted_config.ep_strength.nearend_len, 0.8); |
| } |
| |
| // Testing the field trial-based that overrides the maximum allowed ecess render |
| // blocks in the render buffering. |
| TEST(EchoCanceller3FieldTrials, Aec3BufferingMaxAllowedExcessRenderBlocks) { |
| webrtc::test::ScopedFieldTrials field_trials( |
| "WebRTC-Aec3BufferingMaxAllowedExcessRenderBlocksOverride/2/"); |
| EchoCanceller3Config default_config; |
| EchoCanceller3Config adjusted_config = AdjustConfig(default_config); |
| EXPECT_EQ(adjusted_config.buffering.max_allowed_excess_render_blocks, 2ul); |
| } |
| |
| TEST(EchoCanceller3, DetectionOfProperStereo) { |
| constexpr int kSampleRateHz = 16000; |
| constexpr int kNumChannels = 2; |
| AudioBuffer buffer(/*input_rate=*/kSampleRateHz, |
| /*input_num_channels=*/kNumChannels, |
| /*input_rate=*/kSampleRateHz, |
| /*buffer_num_channels=*/kNumChannels, |
| /*output_rate=*/kSampleRateHz, |
| /*output_num_channels=*/kNumChannels); |
| |
| constexpr size_t kNumBlocksForMonoConfig = 1; |
| constexpr size_t kNumBlocksForSurroundConfig = 2; |
| EchoCanceller3Config mono_config; |
| std::optional<EchoCanceller3Config> multichannel_config; |
| |
| mono_config.multi_channel.detect_stereo_content = true; |
| mono_config.multi_channel.stereo_detection_threshold = 0.0f; |
| mono_config.multi_channel.stereo_detection_hysteresis_seconds = 0.0f; |
| multichannel_config = mono_config; |
| mono_config.filter.coarse_initial.length_blocks = kNumBlocksForMonoConfig; |
| multichannel_config->filter.coarse_initial.length_blocks = |
| kNumBlocksForSurroundConfig; |
| |
| EchoCanceller3 aec3(mono_config, multichannel_config, |
| /*sample_rate_hz=*/kSampleRateHz, |
| /*num_render_channels=*/kNumChannels, |
| /*num_capture_input_channels=*/kNumChannels); |
| |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| |
| RunAecInStereo(buffer, aec3, 100.0f, 100.0f); |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| |
| RunAecInStereo(buffer, aec3, 100.0f, 101.0f); |
| EXPECT_TRUE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForSurroundConfig); |
| } |
| |
| TEST(EchoCanceller3, DetectionOfProperStereoUsingThreshold) { |
| constexpr int kSampleRateHz = 16000; |
| constexpr int kNumChannels = 2; |
| AudioBuffer buffer(/*input_rate=*/kSampleRateHz, |
| /*input_num_channels=*/kNumChannels, |
| /*input_rate=*/kSampleRateHz, |
| /*buffer_num_channels=*/kNumChannels, |
| /*output_rate=*/kSampleRateHz, |
| /*output_num_channels=*/kNumChannels); |
| |
| constexpr size_t kNumBlocksForMonoConfig = 1; |
| constexpr size_t kNumBlocksForSurroundConfig = 2; |
| EchoCanceller3Config mono_config; |
| std::optional<EchoCanceller3Config> multichannel_config; |
| |
| constexpr float kStereoDetectionThreshold = 2.0f; |
| mono_config.multi_channel.detect_stereo_content = true; |
| mono_config.multi_channel.stereo_detection_threshold = |
| kStereoDetectionThreshold; |
| mono_config.multi_channel.stereo_detection_hysteresis_seconds = 0.0f; |
| multichannel_config = mono_config; |
| mono_config.filter.coarse_initial.length_blocks = kNumBlocksForMonoConfig; |
| multichannel_config->filter.coarse_initial.length_blocks = |
| kNumBlocksForSurroundConfig; |
| |
| EchoCanceller3 aec3(mono_config, multichannel_config, |
| /*sample_rate_hz=*/kSampleRateHz, |
| /*num_render_channels=*/kNumChannels, |
| /*num_capture_input_channels=*/kNumChannels); |
| |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| |
| RunAecInStereo(buffer, aec3, 100.0f, |
| 100.0f + kStereoDetectionThreshold - 1.0f); |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| |
| RunAecInStereo(buffer, aec3, 100.0f, |
| 100.0f + kStereoDetectionThreshold + 10.0f); |
| EXPECT_TRUE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForSurroundConfig); |
| } |
| |
| TEST(EchoCanceller3, DetectionOfProperStereoUsingHysteresis) { |
| constexpr int kSampleRateHz = 16000; |
| constexpr int kNumChannels = 2; |
| AudioBuffer buffer(/*input_rate=*/kSampleRateHz, |
| /*input_num_channels=*/kNumChannels, |
| /*input_rate=*/kSampleRateHz, |
| /*buffer_num_channels=*/kNumChannels, |
| /*output_rate=*/kSampleRateHz, |
| /*output_num_channels=*/kNumChannels); |
| |
| constexpr size_t kNumBlocksForMonoConfig = 1; |
| constexpr size_t kNumBlocksForSurroundConfig = 2; |
| EchoCanceller3Config mono_config; |
| std::optional<EchoCanceller3Config> surround_config; |
| |
| mono_config.multi_channel.detect_stereo_content = true; |
| mono_config.multi_channel.stereo_detection_hysteresis_seconds = 0.5f; |
| surround_config = mono_config; |
| mono_config.filter.coarse_initial.length_blocks = kNumBlocksForMonoConfig; |
| surround_config->filter.coarse_initial.length_blocks = |
| kNumBlocksForSurroundConfig; |
| |
| EchoCanceller3 aec3(mono_config, surround_config, |
| /*sample_rate_hz=*/kSampleRateHz, |
| /*num_render_channels=*/kNumChannels, |
| /*num_capture_input_channels=*/kNumChannels); |
| |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| |
| RunAecInStereo(buffer, aec3, 100.0f, 100.0f); |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| |
| constexpr int kNumFramesPerSecond = 100; |
| for (int k = 0; |
| k < static_cast<int>( |
| kNumFramesPerSecond * |
| mono_config.multi_channel.stereo_detection_hysteresis_seconds); |
| ++k) { |
| RunAecInStereo(buffer, aec3, 100.0f, 101.0f); |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| } |
| |
| RunAecInStereo(buffer, aec3, 100.0f, 101.0f); |
| EXPECT_TRUE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForSurroundConfig); |
| } |
| |
| TEST(EchoCanceller3, StereoContentDetectionForMonoSignals) { |
| constexpr int kSampleRateHz = 16000; |
| constexpr int kNumChannels = 2; |
| AudioBuffer buffer(/*input_rate=*/kSampleRateHz, |
| /*input_num_channels=*/kNumChannels, |
| /*input_rate=*/kSampleRateHz, |
| /*buffer_num_channels=*/kNumChannels, |
| /*output_rate=*/kSampleRateHz, |
| /*output_num_channels=*/kNumChannels); |
| |
| constexpr size_t kNumBlocksForMonoConfig = 1; |
| constexpr size_t kNumBlocksForSurroundConfig = 2; |
| EchoCanceller3Config mono_config; |
| std::optional<EchoCanceller3Config> multichannel_config; |
| |
| for (bool detect_stereo_content : {false, true}) { |
| mono_config.multi_channel.detect_stereo_content = detect_stereo_content; |
| multichannel_config = mono_config; |
| mono_config.filter.coarse_initial.length_blocks = kNumBlocksForMonoConfig; |
| multichannel_config->filter.coarse_initial.length_blocks = |
| kNumBlocksForSurroundConfig; |
| |
| AudioBuffer mono_buffer(/*input_rate=*/kSampleRateHz, |
| /*input_num_channels=*/1, |
| /*input_rate=*/kSampleRateHz, |
| /*buffer_num_channels=*/1, |
| /*output_rate=*/kSampleRateHz, |
| /*output_num_channels=*/1); |
| |
| EchoCanceller3 aec3(mono_config, multichannel_config, |
| /*sample_rate_hz=*/kSampleRateHz, |
| /*num_render_channels=*/1, |
| /*num_capture_input_channels=*/1); |
| |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| |
| RunAecInSMono(mono_buffer, aec3, 100.0f); |
| EXPECT_FALSE(aec3.StereoRenderProcessingActiveForTesting()); |
| EXPECT_EQ( |
| aec3.GetActiveConfigForTesting().filter.coarse_initial.length_blocks, |
| kNumBlocksForMonoConfig); |
| } |
| } |
| |
| #if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID) |
| |
| TEST(EchoCanceller3InputCheckDeathTest, WrongCaptureNumBandsCheckVerification) { |
| for (auto rate : {16000, 32000, 48000}) { |
| SCOPED_TRACE(ProduceDebugText(rate)); |
| EchoCanceller3Tester(rate).RunProcessCaptureNumBandsCheckVerification(); |
| } |
| } |
| |
| // Verifiers that the verification for null input to the capture processing api |
| // call works. |
| TEST(EchoCanceller3InputCheckDeathTest, NullCaptureProcessingParameter) { |
| EXPECT_DEATH( |
| EchoCanceller3(EchoCanceller3Config(), |
| /*multichannel_config_=*/std::nullopt, 16000, 1, 1) |
| .ProcessCapture(nullptr, false), |
| ""); |
| } |
| |
| // Verifies the check for correct sample rate. |
| // TODO(peah): Re-enable the test once the issue with memory leaks during DEATH |
| // tests on test bots has been fixed. |
| TEST(EchoCanceller3InputCheckDeathTest, DISABLED_WrongSampleRate) { |
| ApmDataDumper data_dumper(0); |
| EXPECT_DEATH( |
| EchoCanceller3(EchoCanceller3Config(), |
| /*multichannel_config_=*/std::nullopt, 8001, 1, 1), |
| ""); |
| } |
| |
| #endif |
| |
| } // namespace webrtc |