diff options
Diffstat (limited to 'src/codecs/miniflac copy.cpp')
| -rw-r--r-- | src/codecs/miniflac copy.cpp | 207 |
1 files changed, 207 insertions, 0 deletions
diff --git a/src/codecs/miniflac copy.cpp b/src/codecs/miniflac copy.cpp new file mode 100644 index 00000000..866cb49b --- /dev/null +++ b/src/codecs/miniflac copy.cpp @@ -0,0 +1,207 @@ +/* + * Copyright 2023 jacqueline <me@jacqueline.id.au> + * + * SPDX-License-Identifier: GPL-3.0-only + */ + +#include "miniflac.hpp" + +#include <cstdint> +#include <cstdlib> + +#include "esp_heap_caps.h" +#include "esp_log.h" +#include "miniflac.h" +#include "result.hpp" +#include "sample.hpp" + +namespace codecs { + +[[maybe_unused]] static const char kTag[] = "flac"; + +static constexpr size_t kMaxFrameSize = 4608; + +MiniFlacDecoder::MiniFlacDecoder() + : input_(), + buffer_(), + flac_(reinterpret_cast<miniflac_t*>( + heap_caps_malloc(sizeof(miniflac_t), + MALLOC_CAP_INTERNAL | MALLOC_CAP_8BIT))), + current_sample_() { + miniflac_init(flac_.get(), MINIFLAC_CONTAINER_UNKNOWN); + for (int i = 0; i < samples_by_channel_.size(); i++) { + uint32_t caps; + if (i == 0) { + caps = MALLOC_CAP_8BIT | MALLOC_CAP_INTERNAL; + } else { + // FIXME: We can *almost* fit two channels into internal ram, but we're a + // few KiB shy of being able to do it safely. + caps = MALLOC_CAP_SPIRAM; + } + samples_by_channel_[i] = reinterpret_cast<int32_t*>( + heap_caps_malloc(kMaxFrameSize * sizeof(int32_t), caps)); + } +} + +MiniFlacDecoder::~MiniFlacDecoder() { + for (int i = 0; i < samples_by_channel_.size(); i++) { + heap_caps_free(samples_by_channel_[i]); + } +} + +auto MiniFlacDecoder::OpenStream(std::shared_ptr<IStream> input,uint32_t offset) + -> cpp::result<OutputFormat, Error> { + input_ = input; + + MINIFLAC_RESULT res; + auto read_until_result = [&](auto fn) { + while (true) { + bool eof = buffer_.Refill(input_.get()); + buffer_.ConsumeBytes(fn); + if (res == MINIFLAC_CONTINUE && !eof) { + continue; + } + break; + } + }; + + uint32_t sample_rate = 0; + + read_until_result([&](cpp::span<std::byte> buf) -> size_t { + uint32_t bytes_used = 0; + res = miniflac_streaminfo_sample_rate( + flac_.get(), reinterpret_cast<const uint8_t*>(buf.data()), + buf.size_bytes(), &bytes_used, &sample_rate); + return bytes_used; + }); + + if (res != MINIFLAC_OK) { + return cpp::fail(Error::kMalformedData); + } + + uint8_t channels = 0; + + read_until_result([&](cpp::span<std::byte> buf) -> size_t { + uint32_t bytes_used = 0; + res = miniflac_streaminfo_channels( + flac_.get(), reinterpret_cast<const uint8_t*>(buf.data()), + buf.size_bytes(), &bytes_used, &channels); + return bytes_used; + }); + + if (res != MINIFLAC_OK) { + return cpp::fail(Error::kMalformedData); + } + + uint64_t total_samples = 0; + + read_until_result([&](cpp::span<std::byte> buf) -> size_t { + uint32_t bytes_used = 0; + res = miniflac_streaminfo_total_samples( + flac_.get(), reinterpret_cast<const uint8_t*>(buf.data()), + buf.size_bytes(), &bytes_used, &total_samples); + return bytes_used; + }); + + if (res != MINIFLAC_OK) { + return cpp::fail(Error::kMalformedData); + } + + if (channels == 0 || channels > 2) { + return cpp::fail(Error::kMalformedData); + } + + if (offset) { + uint64_t samples_count = 0; + uint32_t offset_count = 0; + while (offset_count < offset) { + read_until_result([&](cpp::span<std::byte> buf) -> size_t { + uint32_t bytes_used = 0; + res = miniflac_sync( + flac_.get(), reinterpret_cast<const uint8_t*>(buf.data()), + buf.size_bytes(), &bytes_used); + return bytes_used; + }); + if (res != MINIFLAC_OK) { + return cpp::fail(Error::kMalformedData); + } + + uint32_t frame_samplerate = flac_.get()->frame.header.sample_rate; + uint16_t frame_blocksize = flac_.get()->frame.header.block_size; + if (!frame_samplerate || !frame_blocksize) { + continue; + } + + samples_count += frame_blocksize; + offset_count = samples_count / sample_rate; + } + } + + OutputFormat format{ + .num_channels = static_cast<uint8_t>(channels), + .sample_rate_hz = static_cast<uint32_t>(sample_rate), + .total_samples = total_samples * channels, + }; + + return format; +} + +auto MiniFlacDecoder::DecodeTo(cpp::span<sample::Sample> output) + -> cpp::result<OutputInfo, Error> { + bool is_eof = false; + + if (!current_sample_) { + MINIFLAC_RESULT res = MINIFLAC_CONTINUE; + while (res == MINIFLAC_CONTINUE && !is_eof) { + is_eof = buffer_.Refill(input_.get()); + buffer_.ConsumeBytes([&](cpp::span<std::byte> buf) -> size_t { + // FIXME: We should do a miniflac_sync first, in order to check that + // our sample buffers have enough space for the next frame. + uint32_t bytes_read = 0; + res = miniflac_decode( + flac_.get(), reinterpret_cast<const uint8_t*>(buf.data()), + buf.size_bytes(), &bytes_read, samples_by_channel_.data()); + return bytes_read; + }); + } + + if (res == MINIFLAC_OK) { + current_sample_ = 0; + } else if (is_eof) { + return OutputInfo{ + .samples_written = 0, + .is_stream_finished = true, + }; + } else { + return cpp::fail(Error::kMalformedData); + } + } + + size_t samples_written = 0; + if (current_sample_) { + while (*current_sample_ < flac_->frame.header.block_size) { + if (samples_written + flac_->frame.header.channels >= output.size()) { + // We can't fit the next full PCM frame into the buffer. + return OutputInfo{.samples_written = samples_written, + .is_stream_finished = false}; + } + + for (int channel = 0; channel < flac_->frame.header.channels; channel++) { + output[samples_written++] = + sample::FromSigned(samples_by_channel_[channel][*current_sample_], + flac_->frame.header.bps); + } + (*current_sample_)++; + } + } + + current_sample_.reset(); + return OutputInfo{.samples_written = samples_written, + .is_stream_finished = samples_written == 0 && is_eof}; +} + +auto MiniFlacDecoder::SeekTo(size_t target) -> cpp::result<void, Error> { + return {}; +} + +} // namespace codecs |