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164 lines
5.9 KiB
164 lines
5.9 KiB
/*
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* Copyright (c) 2014 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "common_audio/audio_converter.h"
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#include <algorithm>
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#include <cmath>
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#include <memory>
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#include <vector>
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#include "common_audio/channel_buffer.h"
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#include "common_audio/resampler/push_sinc_resampler.h"
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#include "rtc_base/arraysize.h"
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#include "rtc_base/format_macros.h"
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#include "test/gtest.h"
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namespace webrtc {
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typedef std::unique_ptr<ChannelBuffer<float>> ScopedBuffer;
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// Sets the signal value to increase by |data| with every sample.
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ScopedBuffer CreateBuffer(const std::vector<float>& data, size_t frames) {
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const size_t num_channels = data.size();
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ScopedBuffer sb(new ChannelBuffer<float>(frames, num_channels));
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for (size_t i = 0; i < num_channels; ++i)
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for (size_t j = 0; j < frames; ++j)
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sb->channels()[i][j] = data[i] * j;
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return sb;
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}
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void VerifyParams(const ChannelBuffer<float>& ref,
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const ChannelBuffer<float>& test) {
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EXPECT_EQ(ref.num_channels(), test.num_channels());
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EXPECT_EQ(ref.num_frames(), test.num_frames());
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}
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// Computes the best SNR based on the error between |ref_frame| and
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// |test_frame|. It searches around |expected_delay| in samples between the
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// signals to compensate for the resampling delay.
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float ComputeSNR(const ChannelBuffer<float>& ref,
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const ChannelBuffer<float>& test,
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size_t expected_delay) {
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VerifyParams(ref, test);
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float best_snr = 0;
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size_t best_delay = 0;
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// Search within one sample of the expected delay.
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for (size_t delay = std::max(expected_delay, static_cast<size_t>(1)) - 1;
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delay <= std::min(expected_delay + 1, ref.num_frames()); ++delay) {
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float mse = 0;
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float variance = 0;
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float mean = 0;
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for (size_t i = 0; i < ref.num_channels(); ++i) {
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for (size_t j = 0; j < ref.num_frames() - delay; ++j) {
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float error = ref.channels()[i][j] - test.channels()[i][j + delay];
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mse += error * error;
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variance += ref.channels()[i][j] * ref.channels()[i][j];
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mean += ref.channels()[i][j];
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}
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}
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const size_t length = ref.num_channels() * (ref.num_frames() - delay);
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mse /= length;
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variance /= length;
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mean /= length;
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variance -= mean * mean;
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float snr = 100; // We assign 100 dB to the zero-error case.
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if (mse > 0)
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snr = 10 * std::log10(variance / mse);
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if (snr > best_snr) {
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best_snr = snr;
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best_delay = delay;
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}
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}
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printf("SNR=%.1f dB at delay=%" RTC_PRIuS "\n", best_snr, best_delay);
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return best_snr;
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}
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// Sets the source to a linearly increasing signal for which we can easily
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// generate a reference. Runs the AudioConverter and ensures the output has
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// sufficiently high SNR relative to the reference.
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void RunAudioConverterTest(size_t src_channels,
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int src_sample_rate_hz,
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size_t dst_channels,
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int dst_sample_rate_hz) {
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const float kSrcLeft = 0.0002f;
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const float kSrcRight = 0.0001f;
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const float resampling_factor =
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(1.f * src_sample_rate_hz) / dst_sample_rate_hz;
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const float dst_left = resampling_factor * kSrcLeft;
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const float dst_right = resampling_factor * kSrcRight;
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const float dst_mono = (dst_left + dst_right) / 2;
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const size_t src_frames = static_cast<size_t>(src_sample_rate_hz / 100);
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const size_t dst_frames = static_cast<size_t>(dst_sample_rate_hz / 100);
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std::vector<float> src_data(1, kSrcLeft);
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if (src_channels == 2)
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src_data.push_back(kSrcRight);
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ScopedBuffer src_buffer = CreateBuffer(src_data, src_frames);
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std::vector<float> dst_data(1, 0);
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std::vector<float> ref_data;
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if (dst_channels == 1) {
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if (src_channels == 1)
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ref_data.push_back(dst_left);
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else
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ref_data.push_back(dst_mono);
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} else {
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dst_data.push_back(0);
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ref_data.push_back(dst_left);
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if (src_channels == 1)
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ref_data.push_back(dst_left);
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else
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ref_data.push_back(dst_right);
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}
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ScopedBuffer dst_buffer = CreateBuffer(dst_data, dst_frames);
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ScopedBuffer ref_buffer = CreateBuffer(ref_data, dst_frames);
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// The sinc resampler has a known delay, which we compute here.
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const size_t delay_frames =
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src_sample_rate_hz == dst_sample_rate_hz
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? 0
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: static_cast<size_t>(
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PushSincResampler::AlgorithmicDelaySeconds(src_sample_rate_hz) *
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dst_sample_rate_hz);
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// SNR reported on the same line later.
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printf("(%" RTC_PRIuS ", %d Hz) -> (%" RTC_PRIuS ", %d Hz) ", src_channels,
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src_sample_rate_hz, dst_channels, dst_sample_rate_hz);
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std::unique_ptr<AudioConverter> converter = AudioConverter::Create(
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src_channels, src_frames, dst_channels, dst_frames);
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converter->Convert(src_buffer->channels(), src_buffer->size(),
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dst_buffer->channels(), dst_buffer->size());
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EXPECT_LT(43.f,
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ComputeSNR(*ref_buffer.get(), *dst_buffer.get(), delay_frames));
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}
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TEST(AudioConverterTest, ConversionsPassSNRThreshold) {
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const int kSampleRates[] = {8000, 16000, 32000, 44100, 48000};
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const size_t kChannels[] = {1, 2};
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for (size_t src_rate = 0; src_rate < arraysize(kSampleRates); ++src_rate) {
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for (size_t dst_rate = 0; dst_rate < arraysize(kSampleRates); ++dst_rate) {
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for (size_t src_channel = 0; src_channel < arraysize(kChannels);
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++src_channel) {
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for (size_t dst_channel = 0; dst_channel < arraysize(kChannels);
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++dst_channel) {
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RunAudioConverterTest(kChannels[src_channel], kSampleRates[src_rate],
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kChannels[dst_channel], kSampleRates[dst_rate]);
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}
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}
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}
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}
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}
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} // namespace webrtc
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