/*
* Copyright (c) 2020, William McPherson <willmcpherson2@gmail.com>
* Copyright (c) 2023, Cameron Youell <cameronyouell@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Endian.h>
#include <LibAudio/WavLoader.h>
#include <LibAudio/WavTypes.h>
#include <LibAudio/WavWriter.h>
namespace Audio {
ErrorOr<NonnullOwnPtr<WavWriter>> WavWriter::create_from_file(StringView path, u32 sample_rate, u16 num_channels, PcmSampleFormat sample_format)
{
auto wav_writer = TRY(adopt_nonnull_own_or_enomem(new (nothrow) WavWriter(sample_rate, num_channels, sample_format)));
TRY(wav_writer->set_file(path));
return wav_writer;
}
WavWriter::WavWriter(u32 sample_rate, u16 num_channels, PcmSampleFormat sample_format)
: m_sample_rate(sample_rate)
, m_num_channels(num_channels)
, m_sample_format(sample_format)
{
}
WavWriter::~WavWriter()
{
if (!m_finalized)
(void)finalize();
}
ErrorOr<void> WavWriter::set_file(StringView path)
{
auto file = TRY(Core::File::open(path, Core::File::OpenMode::Write));
m_file = TRY(Core::OutputBufferedFile::create(move(file)));
TRY(m_file->seek(44, SeekMode::SetPosition));
m_finalized = false;
return {};
}
ErrorOr<void> WavWriter::write_samples(ReadonlySpan<Sample> samples)
{
switch (m_sample_format) {
// FIXME: For non-float formats, we don't add good quantization noise, leading to possibly unpleasant quantization artifacts.
case PcmSampleFormat::Uint8: {
constexpr float scale = static_cast<float>(NumericLimits<u8>::max()) * .5f;
for (auto const& sample : samples) {
u8 left = static_cast<u8>((sample.left + 1) * scale);
u8 right = static_cast<u8>((sample.right + 1) * scale);
TRY(m_file->write_value(left));
if (m_num_channels >= 2)
TRY(m_file->write_value(right));
}
m_data_sz += samples.size() * m_num_channels * sizeof(u8);
break;
}
case PcmSampleFormat::Int16: {
constexpr float scale = static_cast<float>(NumericLimits<i16>::max());
for (auto const& sample : samples) {
u16 left = AK::convert_between_host_and_little_endian(static_cast<i16>(sample.left * scale));
u16 right = AK::convert_between_host_and_little_endian(static_cast<i16>(sample.right * scale));
TRY(m_file->write_value(left));
if (m_num_channels >= 2)
TRY(m_file->write_value(right));
}
m_data_sz += samples.size() * m_num_channels * sizeof(u16);
break;
}
default:
VERIFY_NOT_REACHED();
}
return {};
}
ErrorOr<void> WavWriter::finalize()
{
VERIFY(!m_finalized);
m_finalized = true;
if (m_file && m_file->is_open()) {
TRY(m_file->seek(0, SeekMode::SetPosition));
TRY(write_header());
m_file->close();
}
m_data_sz = 0;
return {};
}
ErrorOr<void> WavWriter::write_header()
{
// "RIFF"
static u32 riff = 0x46464952;
TRY(m_file->write_value(riff));
// Size of data + (size of header - previous field - this field)
u32 sz = m_data_sz + (44 - 4 - 4);
TRY(m_file->write_value(sz));
// "WAVE"
static u32 wave = 0x45564157;
TRY(m_file->write_value(wave));
// "fmt "
static u32 fmt_id = 0x20746D66;
TRY(m_file->write_value(fmt_id));
// Size of the next 6 fields
static u32 fmt_size = 16;
TRY(m_file->write_value(fmt_size));
static u16 audio_format = to_underlying(Wav::WaveFormat::Pcm);
TRY(m_file->write_value(audio_format));
TRY(m_file->write_value(m_num_channels));
TRY(m_file->write_value(m_sample_rate));
VERIFY(m_sample_format == PcmSampleFormat::Int16 || m_sample_format == PcmSampleFormat::Uint8);
u16 bits_per_sample = pcm_bits_per_sample(m_sample_format);
u32 byte_rate = m_sample_rate * m_num_channels * (bits_per_sample / 8);
TRY(m_file->write_value(byte_rate));
u16 block_align = m_num_channels * (bits_per_sample / 8);
TRY(m_file->write_value(block_align));
TRY(m_file->write_value(bits_per_sample));
// "data"
static u32 chunk_id = 0x61746164;
TRY(m_file->write_value(chunk_id));
TRY(m_file->write_value(m_data_sz));
return {};
}
}
