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serenity/Userland/Libraries/LibAudio/QOALoader.cpp
Lucas CHOLLET 8c34959b53 AK: Add the Input word to input-only buffered streams 
This concerns both `BufferedSeekable` and `BufferedFile`.
2023-05-09 11:18:46 +02:00

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/*
* Copyright (c) 2023, kleines Filmröllchen <filmroellchen@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "QOALoader.h"
#include "Loader.h"
#include "LoaderError.h"
#include "QOATypes.h"
#include <AK/Array.h>
#include <AK/Assertions.h>
#include <AK/Endian.h>
#include <AK/FixedArray.h>
#include <AK/MemoryStream.h>
#include <AK/Stream.h>
#include <AK/Types.h>
#include <LibCore/File.h>
namespace Audio {
QOALoaderPlugin::QOALoaderPlugin(NonnullOwnPtr<AK::SeekableStream> stream)
: LoaderPlugin(move(stream))
{
}
Result<NonnullOwnPtr<QOALoaderPlugin>, LoaderError> QOALoaderPlugin::create(StringView path)
{
auto stream = LOADER_TRY(Core::InputBufferedFile::create(LOADER_TRY(Core::File::open(path, Core::File::OpenMode::Read))));
auto loader = make<QOALoaderPlugin>(move(stream));
LOADER_TRY(loader->initialize());
return loader;
}
Result<NonnullOwnPtr<QOALoaderPlugin>, LoaderError> QOALoaderPlugin::create(Bytes buffer)
{
auto loader = make<QOALoaderPlugin>(make<FixedMemoryStream>(buffer));
LOADER_TRY(loader->initialize());
return loader;
}
MaybeLoaderError QOALoaderPlugin::initialize()
{
TRY(parse_header());
TRY(reset());
return {};
}
MaybeLoaderError QOALoaderPlugin::parse_header()
{
u32 header_magic = LOADER_TRY(m_stream->read_value<BigEndian<u32>>());
if (header_magic != QOA::magic)
return LoaderError { LoaderError::Category::Format, 0, "QOA header: Magic number must be 'qoaf'" };
m_total_samples = LOADER_TRY(m_stream->read_value<BigEndian<u32>>());
return {};
}
MaybeLoaderError QOALoaderPlugin::load_one_frame(Span<Sample>& target, IsFirstFrame is_first_frame)
{
QOA::FrameHeader header = LOADER_TRY(m_stream->read_value<QOA::FrameHeader>());
if (header.num_channels > 8)
dbgln("QOALoader: Warning: QOA frame at {} has more than 8 channels ({}), this is not supported by the reference implementation.", LOADER_TRY(m_stream->tell()) - sizeof(QOA::FrameHeader), header.num_channels);
if (header.num_channels == 0)
return LoaderError { LoaderError::Category::Format, LOADER_TRY(m_stream->tell()), "QOA frame: Number of channels must be greater than 0" };
if (header.sample_count > QOA::max_frame_samples)
return LoaderError { LoaderError::Category::Format, LOADER_TRY(m_stream->tell()), "QOA frame: Too many samples in frame" };
// We weren't given a large enough buffer; signal that we didn't write anything and return.
if (header.sample_count > target.size()) {
target = target.trim(0);
LOADER_TRY(m_stream->seek(-sizeof(QOA::frame_header_size), AK::SeekMode::FromCurrentPosition));
return {};
}
target = target.trim(header.sample_count);
auto lms_states = LOADER_TRY(FixedArray<QOA::LMSState>::create(header.num_channels));
for (size_t channel = 0; channel < header.num_channels; ++channel) {
auto history_packed = LOADER_TRY(m_stream->read_value<BigEndian<u64>>());
auto weights_packed = LOADER_TRY(m_stream->read_value<BigEndian<u64>>());
lms_states[channel] = { history_packed, weights_packed };
}
// We pre-allocate very large arrays here, but that's the last allocation of the QOA loader!
// Everything else is just shuffling data around.
// (We will also be using all of the arrays in every frame but the last one.)
auto channels = LOADER_TRY((FixedArray<Array<i16, QOA::max_frame_samples>>::create(header.num_channels)));
// There's usually (and at maximum) 256 slices per channel, but less at the very end.
// If the final slice would be partial, we still need to decode it; integer division would tell us that this final slice doesn't exist.
auto const slice_count = static_cast<size_t>(ceil(static_cast<double>(header.sample_count) / static_cast<double>(QOA::slice_samples)));
VERIFY(slice_count <= QOA::max_slices_per_frame);
// Observe the loop nesting: Slices are channel-interleaved.
for (size_t slice = 0; slice < slice_count; ++slice) {
for (size_t channel = 0; channel < header.num_channels; ++channel) {
auto slice_samples = channels[channel].span().slice(slice * QOA::slice_samples, QOA::slice_samples);
TRY(read_one_slice(lms_states[channel], slice_samples));
}
}
if (is_first_frame == IsFirstFrame::Yes) {
m_num_channels = header.num_channels;
m_sample_rate = header.sample_rate;
} else {
if (m_sample_rate != header.sample_rate)
return LoaderError { LoaderError::Category::Unimplemented, LOADER_TRY(m_stream->tell()), "QOA: Differing sample rate in non-initial frame" };
if (m_num_channels != header.num_channels)
m_has_uniform_channel_count = false;
}
switch (header.num_channels) {
case 1:
for (size_t sample = 0; sample < header.sample_count; ++sample)
target[sample] = Sample { static_cast<float>(channels[0][sample]) / static_cast<float>(NumericLimits<i16>::max()) };
break;
// FIXME: Combine surround channels sensibly, FlacLoader has the same simplification at the moment.
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
default:
for (size_t sample = 0; sample < header.sample_count; ++sample) {
target[sample] = {
static_cast<float>(channels[0][sample]) / static_cast<float>(NumericLimits<i16>::max()),
static_cast<float>(channels[1][sample]) / static_cast<float>(NumericLimits<i16>::max()),
};
}
break;
}
return {};
}
ErrorOr<Vector<FixedArray<Sample>>, LoaderError> QOALoaderPlugin::load_chunks(size_t samples_to_read_from_input)
{
ssize_t const remaining_samples = static_cast<ssize_t>(m_total_samples - m_loaded_samples);
if (remaining_samples <= 0)
return Vector<FixedArray<Sample>> {};
size_t const samples_to_read = min(samples_to_read_from_input, remaining_samples);
auto is_first_frame = m_loaded_samples == 0 ? IsFirstFrame::Yes : IsFirstFrame::No;
Vector<FixedArray<Sample>> frames;
size_t current_loaded_samples = 0;
while (current_loaded_samples < samples_to_read) {
auto samples = LOADER_TRY(FixedArray<Sample>::create(QOA::max_frame_samples));
auto slice_to_load_into = samples.span();
TRY(this->load_one_frame(slice_to_load_into, is_first_frame));
is_first_frame = IsFirstFrame::No;
VERIFY(slice_to_load_into.size() <= QOA::max_frame_samples);
current_loaded_samples += slice_to_load_into.size();
if (slice_to_load_into.size() != samples.size()) {
auto smaller_samples = LOADER_TRY(FixedArray<Sample>::create(slice_to_load_into));
samples.swap(smaller_samples);
}
LOADER_TRY(frames.try_append(move(samples)));
if (slice_to_load_into.size() != samples.size())
break;
}
m_loaded_samples += current_loaded_samples;
return frames;
}
MaybeLoaderError QOALoaderPlugin::reset()
{
LOADER_TRY(m_stream->seek(QOA::header_size, AK::SeekMode::SetPosition));
m_loaded_samples = 0;
// Read the first frame, then seek back to the beginning. This is necessary since the first frame contains the sample rate and channel count.
auto frame_samples = LOADER_TRY(FixedArray<Sample>::create(QOA::max_frame_samples));
auto span = frame_samples.span();
LOADER_TRY(load_one_frame(span, IsFirstFrame::Yes));
LOADER_TRY(m_stream->seek(QOA::header_size, AK::SeekMode::SetPosition));
m_loaded_samples = 0;
return {};
}
MaybeLoaderError QOALoaderPlugin::seek(int sample_index)
{
if (sample_index == 0 && m_loaded_samples == 0)
return {};
// A QOA file consists of 8 bytes header followed by a number of usually fixed-size frames.
// This fixed bitrate allows us to seek in constant time.
if (!m_has_uniform_channel_count)
return LoaderError { LoaderError::Category::Unimplemented, LOADER_TRY(m_stream->tell()), "QOA with non-uniform channel count is currently not seekable"sv };
/// FIXME: Change the Loader API to use size_t.
VERIFY(sample_index >= 0);
// We seek to the frame "before"; i.e. the frame that contains that sample.
auto const frame_of_sample = static_cast<size_t>(AK::floor<double>(static_cast<double>(sample_index) / static_cast<double>(QOA::max_frame_samples)));
auto const frame_size = QOA::frame_header_size + m_num_channels * (QOA::lms_state_size + sizeof(QOA::PackedSlice) * QOA::max_slices_per_frame);
auto const byte_index = QOA::header_size + frame_of_sample * frame_size;
LOADER_TRY(m_stream->seek(byte_index, AK::SeekMode::SetPosition));
m_loaded_samples = frame_of_sample * QOA::max_frame_samples;
return {};
}
MaybeLoaderError QOALoaderPlugin::read_one_slice(QOA::LMSState& lms_state, Span<i16>& samples)
{
VERIFY(samples.size() == QOA::slice_samples);
auto packed_slice = LOADER_TRY(m_stream->read_value<BigEndian<u64>>());
auto unpacked_slice = unpack_slice(packed_slice);
for (size_t i = 0; i < QOA::slice_samples; ++i) {
auto const residual = unpacked_slice.residuals[i];
auto const predicted = lms_state.predict();
auto const dequantized = QOA::dequantization_table[unpacked_slice.scale_factor_index][residual];
auto const reconstructed = clamp(predicted + dequantized, QOA::sample_minimum, QOA::sample_maximum);
samples[i] = static_cast<i16>(reconstructed);
lms_state.update(reconstructed, dequantized);
}
return {};
}
QOA::UnpackedSlice QOALoaderPlugin::unpack_slice(QOA::PackedSlice packed_slice)
{
size_t const scale_factor_index = (packed_slice >> 60) & 0b1111;
Array<u8, 20> residuals = {};
auto shifted_slice = packed_slice << 4;
for (size_t i = 0; i < QOA::slice_samples; ++i) {
residuals[i] = static_cast<u8>((shifted_slice >> 61) & 0b111);
shifted_slice <<= 3;
}
return {
.scale_factor_index = scale_factor_index,
.residuals = residuals,
};
}
i16 QOALoaderPlugin::qoa_divide(i16 value, i16 scale_factor)
{
auto const reciprocal = QOA::reciprocal_table[scale_factor];
auto const n = (value * reciprocal + (1 << 15)) >> 16;
// Rounding away from zero gives better quantization for small values.
auto const n_rounded = n + (static_cast<int>(value > 0) - static_cast<int>(value < 0)) - (static_cast<int>(n > 0) - static_cast<int>(n < 0));
return static_cast<i16>(n_rounded);
}
}
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