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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 "modules/audio_processing/aec3/block_framer.h"
#include <string>
#include <vector>
#include "modules/audio_processing/aec3/aec3_common.h"
#include "rtc_base/strings/string_builder.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
void SetupSubFrameView(
std::vector<std::vector<std::vector<float>>>* sub_frame,
std::vector<std::vector<rtc::ArrayView<float>>>* sub_frame_view) {
for (size_t band = 0; band < sub_frame_view->size(); ++band) {
for (size_t channel = 0; channel < (*sub_frame_view)[band].size();
++channel) {
(*sub_frame_view)[band][channel] =
rtc::ArrayView<float>((*sub_frame)[band][channel].data(),
(*sub_frame)[band][channel].size());
}
}
}
float ComputeSampleValue(size_t chunk_counter,
size_t chunk_size,
size_t band,
size_t channel,
size_t sample_index,
int offset) {
float value = static_cast<int>(100 + chunk_counter * chunk_size +
sample_index + channel) +
offset;
return 5000 * band + value;
}
bool VerifySubFrame(
size_t sub_frame_counter,
int offset,
const std::vector<std::vector<rtc::ArrayView<float>>>& sub_frame_view) {
for (size_t band = 0; band < sub_frame_view.size(); ++band) {
for (size_t channel = 0; channel < sub_frame_view[band].size(); ++channel) {
for (size_t sample = 0; sample < sub_frame_view[band][channel].size();
++sample) {
const float reference_value = ComputeSampleValue(
sub_frame_counter, kSubFrameLength, band, channel, sample, offset);
if (reference_value != sub_frame_view[band][channel][sample]) {
return false;
}
}
}
}
return true;
}
void FillBlock(size_t block_counter,
std::vector<std::vector<std::vector<float>>>* block) {
for (size_t band = 0; band < block->size(); ++band) {
for (size_t channel = 0; channel < (*block)[band].size(); ++channel) {
for (size_t sample = 0; sample < (*block)[band][channel].size();
++sample) {
(*block)[band][channel][sample] = ComputeSampleValue(
block_counter, kBlockSize, band, channel, sample, 0);
}
}
}
}
// Verifies that the BlockFramer is able to produce the expected frame content.
void RunFramerTest(int sample_rate_hz, size_t num_channels) {
constexpr size_t kNumSubFramesToProcess = 10;
const size_t num_bands = NumBandsForRate(sample_rate_hz);
std::vector<std::vector<std::vector<float>>> block(
num_bands, std::vector<std::vector<float>>(
num_channels, std::vector<float>(kBlockSize, 0.f)));
std::vector<std::vector<std::vector<float>>> output_sub_frame(
num_bands, std::vector<std::vector<float>>(
num_channels, std::vector<float>(kSubFrameLength, 0.f)));
std::vector<std::vector<rtc::ArrayView<float>>> output_sub_frame_view(
num_bands, std::vector<rtc::ArrayView<float>>(num_channels));
SetupSubFrameView(&output_sub_frame, &output_sub_frame_view);
BlockFramer framer(num_bands, num_channels);
size_t block_index = 0;
for (size_t sub_frame_index = 0; sub_frame_index < kNumSubFramesToProcess;
++sub_frame_index) {
FillBlock(block_index++, &block);
framer.InsertBlockAndExtractSubFrame(block, &output_sub_frame_view);
if (sub_frame_index > 1) {
EXPECT_TRUE(VerifySubFrame(sub_frame_index, -64, output_sub_frame_view));
}
if ((sub_frame_index + 1) % 4 == 0) {
FillBlock(block_index++, &block);
framer.InsertBlock(block);
}
}
}
#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
// Verifies that the BlockFramer crashes if the InsertBlockAndExtractSubFrame
// method is called for inputs with the wrong number of bands or band lengths.
void RunWronglySizedInsertAndExtractParametersTest(
int sample_rate_hz,
size_t correct_num_channels,
size_t num_block_bands,
size_t num_block_channels,
size_t block_length,
size_t num_sub_frame_bands,
size_t num_sub_frame_channels,
size_t sub_frame_length) {
const size_t correct_num_bands = NumBandsForRate(sample_rate_hz);
std::vector<std::vector<std::vector<float>>> block(
num_block_bands,
std::vector<std::vector<float>>(num_block_channels,
std::vector<float>(block_length, 0.f)));
std::vector<std::vector<std::vector<float>>> output_sub_frame(
num_sub_frame_bands,
std::vector<std::vector<float>>(
num_sub_frame_channels, std::vector<float>(sub_frame_length, 0.f)));
std::vector<std::vector<rtc::ArrayView<float>>> output_sub_frame_view(
output_sub_frame.size(),
std::vector<rtc::ArrayView<float>>(num_sub_frame_channels));
SetupSubFrameView(&output_sub_frame, &output_sub_frame_view);
BlockFramer framer(correct_num_bands, correct_num_channels);
EXPECT_DEATH(
framer.InsertBlockAndExtractSubFrame(block, &output_sub_frame_view), "");
}
// Verifies that the BlockFramer crashes if the InsertBlock method is called for
// inputs with the wrong number of bands or band lengths.
void RunWronglySizedInsertParameterTest(int sample_rate_hz,
size_t correct_num_channels,
size_t num_block_bands,
size_t num_block_channels,
size_t block_length) {
const size_t correct_num_bands = NumBandsForRate(sample_rate_hz);
std::vector<std::vector<std::vector<float>>> correct_block(
correct_num_bands,
std::vector<std::vector<float>>(correct_num_channels,
std::vector<float>(kBlockSize, 0.f)));
std::vector<std::vector<std::vector<float>>> wrong_block(
num_block_bands,
std::vector<std::vector<float>>(num_block_channels,
std::vector<float>(block_length, 0.f)));
std::vector<std::vector<std::vector<float>>> output_sub_frame(
correct_num_bands,
std::vector<std::vector<float>>(
correct_num_channels, std::vector<float>(kSubFrameLength, 0.f)));
std::vector<std::vector<rtc::ArrayView<float>>> output_sub_frame_view(
output_sub_frame.size(),
std::vector<rtc::ArrayView<float>>(correct_num_channels));
SetupSubFrameView(&output_sub_frame, &output_sub_frame_view);
BlockFramer framer(correct_num_bands, correct_num_channels);
framer.InsertBlockAndExtractSubFrame(correct_block, &output_sub_frame_view);
framer.InsertBlockAndExtractSubFrame(correct_block, &output_sub_frame_view);
framer.InsertBlockAndExtractSubFrame(correct_block, &output_sub_frame_view);
framer.InsertBlockAndExtractSubFrame(correct_block, &output_sub_frame_view);
EXPECT_DEATH(framer.InsertBlock(wrong_block), "");
}
// Verifies that the BlockFramer crashes if the InsertBlock method is called
// after a wrong number of previous InsertBlockAndExtractSubFrame method calls
// have been made.
void RunWronglyInsertOrderTest(int sample_rate_hz,
size_t num_channels,
size_t num_preceeding_api_calls) {
const size_t correct_num_bands = NumBandsForRate(sample_rate_hz);
std::vector<std::vector<std::vector<float>>> block(
correct_num_bands,
std::vector<std::vector<float>>(num_channels,
std::vector<float>(kBlockSize, 0.f)));
std::vector<std::vector<std::vector<float>>> output_sub_frame(
correct_num_bands,
std::vector<std::vector<float>>(
num_channels, std::vector<float>(kSubFrameLength, 0.f)));
std::vector<std::vector<rtc::ArrayView<float>>> output_sub_frame_view(
output_sub_frame.size(),
std::vector<rtc::ArrayView<float>>(num_channels));
SetupSubFrameView(&output_sub_frame, &output_sub_frame_view);
BlockFramer framer(correct_num_bands, num_channels);
for (size_t k = 0; k < num_preceeding_api_calls; ++k) {
framer.InsertBlockAndExtractSubFrame(block, &output_sub_frame_view);
}
EXPECT_DEATH(framer.InsertBlock(block), "");
}
#endif
std::string ProduceDebugText(int sample_rate_hz, size_t num_channels) {
rtc::StringBuilder ss;
ss << "Sample rate: " << sample_rate_hz;
ss << ", number of channels: " << num_channels;
return ss.Release();
}
} // namespace
#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
TEST(BlockFramer, WrongNumberOfBandsInBlockForInsertBlockAndExtractSubFrame) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
const size_t wrong_num_bands = (correct_num_bands % 3) + 1;
RunWronglySizedInsertAndExtractParametersTest(
rate, correct_num_channels, wrong_num_bands, correct_num_channels,
kBlockSize, correct_num_bands, correct_num_channels, kSubFrameLength);
}
}
}
TEST(BlockFramer,
WrongNumberOfChannelsInBlockForInsertBlockAndExtractSubFrame) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
const size_t wrong_num_channels = correct_num_channels + 1;
RunWronglySizedInsertAndExtractParametersTest(
rate, correct_num_channels, correct_num_bands, wrong_num_channels,
kBlockSize, correct_num_bands, correct_num_channels, kSubFrameLength);
}
}
}
TEST(BlockFramer,
WrongNumberOfBandsInSubFrameForInsertBlockAndExtractSubFrame) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
const size_t wrong_num_bands = (correct_num_bands % 3) + 1;
RunWronglySizedInsertAndExtractParametersTest(
rate, correct_num_channels, correct_num_bands, correct_num_channels,
kBlockSize, wrong_num_bands, correct_num_channels, kSubFrameLength);
}
}
}
TEST(BlockFramer,
WrongNumberOfChannelsInSubFrameForInsertBlockAndExtractSubFrame) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
const size_t wrong_num_channels = correct_num_channels + 1;
RunWronglySizedInsertAndExtractParametersTest(
rate, correct_num_channels, correct_num_bands, correct_num_channels,
kBlockSize, correct_num_bands, wrong_num_channels, kSubFrameLength);
}
}
}
TEST(BlockFramer, WrongNumberOfSamplesInBlockForInsertBlockAndExtractSubFrame) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
RunWronglySizedInsertAndExtractParametersTest(
rate, correct_num_channels, correct_num_bands, correct_num_channels,
kBlockSize - 1, correct_num_bands, correct_num_channels,
kSubFrameLength);
}
}
}
TEST(BlockFramer,
WrongNumberOfSamplesInSubFrameForInsertBlockAndExtractSubFrame) {
const size_t correct_num_channels = 1;
for (auto rate : {16000, 32000, 48000}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
RunWronglySizedInsertAndExtractParametersTest(
rate, correct_num_channels, correct_num_bands, correct_num_channels,
kBlockSize, correct_num_bands, correct_num_channels,
kSubFrameLength - 1);
}
}
TEST(BlockFramer, WrongNumberOfBandsInBlockForInsertBlock) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
const size_t wrong_num_bands = (correct_num_bands % 3) + 1;
RunWronglySizedInsertParameterTest(rate, correct_num_channels,
wrong_num_bands, correct_num_channels,
kBlockSize);
}
}
}
TEST(BlockFramer, WrongNumberOfChannelsInBlockForInsertBlock) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
const size_t wrong_num_channels = correct_num_channels + 1;
RunWronglySizedInsertParameterTest(rate, correct_num_channels,
correct_num_bands, wrong_num_channels,
kBlockSize);
}
}
}
TEST(BlockFramer, WrongNumberOfSamplesInBlockForInsertBlock) {
for (auto rate : {16000, 32000, 48000}) {
for (auto correct_num_channels : {1, 2, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, correct_num_channels));
const size_t correct_num_bands = NumBandsForRate(rate);
RunWronglySizedInsertParameterTest(rate, correct_num_channels,
correct_num_bands,
correct_num_channels, kBlockSize - 1);
}
}
}
TEST(BlockFramer, WrongNumberOfPreceedingApiCallsForInsertBlock) {
for (size_t num_channels : {1, 2, 8}) {
for (auto rate : {16000, 32000, 48000}) {
for (size_t num_calls = 0; num_calls < 4; ++num_calls) {
rtc::StringBuilder ss;
ss << "Sample rate: " << rate;
ss << ", Num channels: " << num_channels;
ss << ", Num preceeding InsertBlockAndExtractSubFrame calls: "
<< num_calls;
SCOPED_TRACE(ss.str());
RunWronglyInsertOrderTest(rate, num_channels, num_calls);
}
}
}
}
// Verifies that the verification for 0 number of channels works.
TEST(BlockFramer, ZeroNumberOfChannelsParameter) {
EXPECT_DEATH(BlockFramer(16000, 0), "");
}
// Verifies that the verification for 0 number of bands works.
TEST(BlockFramer, ZeroNumberOfBandsParameter) {
EXPECT_DEATH(BlockFramer(0, 1), "");
}
// Verifies that the verification for null sub_frame pointer works.
TEST(BlockFramer, NullSubFrameParameter) {
EXPECT_DEATH(BlockFramer(1, 1).InsertBlockAndExtractSubFrame(
std::vector<std::vector<std::vector<float>>>(
1, std::vector<std::vector<float>>(
1, std::vector<float>(kBlockSize, 0.f))),
nullptr),
"");
}
#endif
TEST(BlockFramer, FrameBitexactness) {
for (auto rate : {16000, 32000, 48000}) {
for (auto num_channels : {1, 2, 4, 8}) {
SCOPED_TRACE(ProduceDebugText(rate, num_channels));
RunFramerTest(rate, num_channels);
}
}
}
} // namespace webrtc