refactor pop reframer

This commit is contained in:
Green Sky 2024-10-01 11:39:26 +02:00
parent 9501292fc9
commit acbc1552eb
No known key found for this signature in database
2 changed files with 100 additions and 77 deletions

View File

@ -0,0 +1,95 @@
#pragma once
#include "./audio_stream2.hpp"
// reframes audio frames to a specified size in ms
// TODO: use absolute sample count instead??
template<typename RealAudioStream>
struct AudioStreamPopReFramer : public FrameStream2I<AudioFrame2> {
uint32_t _frame_length_ms {20};
// gotta be careful of the multithreaded nature
// and false(true) sharing
uint64_t _pad0{};
RealAudioStream _stream;
uint64_t _pad1{};
// dequeue?
std::vector<int16_t> _buffer;
uint32_t _sample_rate {48'000};
size_t _channels {0};
AudioStreamPopReFramer(uint32_t frame_length_ms = 20)
: _frame_length_ms(frame_length_ms) {
}
AudioStreamPopReFramer(uint32_t frame_length_ms, FrameStream2I<AudioFrame2>&& stream)
: _frame_length_ms(frame_length_ms), _stream(std::move(stream)) {
}
~AudioStreamPopReFramer(void) {}
int32_t size(void) override { return -1; }
std::optional<AudioFrame2> pop(void) override {
auto new_in = _stream.pop();
if (new_in.has_value()) {
auto& new_value = new_in.value();
// changed
if (_sample_rate != new_value.sample_rate || _channels != new_value.channels) {
if (_channels != 0) {
//std::cerr << "ReFramer warning: reconfiguring, dropping buffer\n";
}
_sample_rate = new_value.sample_rate;
_channels = new_value.channels;
// buffer does not exist or config changed and we discard
_buffer = {};
}
//std::cout << "new incoming frame is " << new_value.getSpan().size/new_value.channels*1000/new_value.sample_rate << "ms\n";
auto new_span = new_value.getSpan();
if (_buffer.empty()) {
_buffer = {new_span.cbegin(), new_span.cend()};
} else {
_buffer.insert(_buffer.cend(), new_span.cbegin(), new_span.cend());
}
} else if (_buffer.empty()) {
// first pop might result in invalid state
return std::nullopt;
}
const size_t desired_size {_frame_length_ms * _sample_rate * _channels / 1000};
// > threshold?
if (_buffer.size() < desired_size) {
return std::nullopt;
}
// copy data
std::vector<int16_t> return_buffer(_buffer.cbegin(), _buffer.cbegin()+desired_size);
// now crop buffer (meh)
// move data from back to front
_buffer.erase(_buffer.cbegin(), _buffer.cbegin() + desired_size);
return AudioFrame2{
_sample_rate,
_channels,
std::move(return_buffer),
};
}
bool push(const AudioFrame2& value) override {
// might be worth it to instead do the work on push
//assert(false && "push reframing not implemented");
// passthrough
return _stream.push(value);
}
};

View File

@ -7,6 +7,7 @@
#include "./frame_streams/audio_stream2.hpp" #include "./frame_streams/audio_stream2.hpp"
#include "./frame_streams/locked_frame_stream.hpp" #include "./frame_streams/locked_frame_stream.hpp"
#include "./frame_streams/multi_source.hpp" #include "./frame_streams/multi_source.hpp"
#include "./frame_streams/audio_stream_pop_reframer.hpp"
#include <iostream> #include <iostream>
@ -28,73 +29,6 @@ namespace Components {
// vid // vid
} // Components } // Components
// TODO: make proper adapter
struct AudioStreamReFramer {
FrameStream2I<AudioFrame2>* _stream {nullptr};
uint32_t frame_length_ms {20};
// dequeue?
std::vector<int16_t> buffer;
uint32_t sample_rate {48'000};
size_t channels {0};
std::optional<AudioFrame2> pop(void) {
assert(_stream != nullptr);
auto new_in = _stream->pop();
if (new_in.has_value()) {
auto& new_value = new_in.value();
// changed
if (sample_rate != new_value.sample_rate || channels != new_value.channels) {
if (channels != 0) {
std::cerr << "ReFramer warning: reconfiguring, dropping buffer\n";
}
sample_rate = new_value.sample_rate;
channels = new_value.channels;
// buffer does not exist or config changed and we discard
buffer = {};
}
//std::cout << "new incoming frame is " << new_value.getSpan().size/new_value.channels*1000/new_value.sample_rate << "ms\n";
auto new_span = new_value.getSpan();
if (buffer.empty()) {
buffer = {new_span.cbegin(), new_span.cend()};
} else {
buffer.insert(buffer.cend(), new_span.cbegin(), new_span.cend());
}
} else if (buffer.empty()) {
// first pop might result in invalid state
return std::nullopt;
}
const size_t desired_size {frame_length_ms * sample_rate * channels / 1000};
// > threshold?
if (buffer.size() < desired_size) {
return std::nullopt;
}
// copy data
std::vector<int16_t> return_buffer(buffer.cbegin(), buffer.cbegin()+desired_size);
// now crop buffer (meh)
// move data from back to front
buffer.erase(buffer.cbegin(), buffer.cbegin() + desired_size);
return AudioFrame2{
sample_rate,
channels,
std::move(return_buffer),
};
}
};
struct ToxAVCallAudioSink : public FrameStream2SinkI<AudioFrame2> { struct ToxAVCallAudioSink : public FrameStream2SinkI<AudioFrame2> {
ToxAVI& _toxav; ToxAVI& _toxav;
@ -102,7 +36,7 @@ struct ToxAVCallAudioSink : public FrameStream2SinkI<AudioFrame2> {
uint32_t _audio_bitrate {32}; uint32_t _audio_bitrate {32};
uint32_t _fid; uint32_t _fid;
std::shared_ptr<LockedFrameStream2<AudioFrame2>> _writer; std::shared_ptr<AudioStreamPopReFramer<LockedFrameStream2<AudioFrame2>>> _writer;
ToxAVCallAudioSink(ToxAVI& toxav, uint32_t fid) : _toxav(toxav), _fid(fid) {} ToxAVCallAudioSink(ToxAVI& toxav, uint32_t fid) : _toxav(toxav), _fid(fid) {}
~ToxAVCallAudioSink(void) { ~ToxAVCallAudioSink(void) {
@ -124,7 +58,7 @@ struct ToxAVCallAudioSink : public FrameStream2SinkI<AudioFrame2> {
return nullptr; return nullptr;
} }
_writer = std::make_shared<LockedFrameStream2<AudioFrame2>>(); _writer = std::make_shared<AudioStreamPopReFramer<LockedFrameStream2<AudioFrame2>>>();
return _writer; return _writer;
} }
@ -183,7 +117,6 @@ void ToxAVVoIPModel::addAudioSink(ObjectHandle session, uint32_t friend_number)
auto new_asink = std::make_unique<ToxAVCallAudioSink>(_av, friend_number); auto new_asink = std::make_unique<ToxAVCallAudioSink>(_av, friend_number);
outgoing_audio.emplace<ToxAVCallAudioSink*>(new_asink.get()); outgoing_audio.emplace<ToxAVCallAudioSink*>(new_asink.get());
outgoing_audio.emplace<AudioStreamReFramer>();
outgoing_audio.emplace<Components::FrameStream2Sink<AudioFrame2>>(std::move(new_asink)); outgoing_audio.emplace<Components::FrameStream2Sink<AudioFrame2>>(std::move(new_asink));
outgoing_audio.emplace<Components::StreamSink>(Components::StreamSink::create<AudioFrame2>("ToxAV Friend Call Outgoing Audio")); outgoing_audio.emplace<Components::StreamSink>(Components::StreamSink::create<AudioFrame2>("ToxAV Friend Call Outgoing Audio"));
@ -270,17 +203,13 @@ ToxAVVoIPModel::~ToxAVVoIPModel(void) {
} }
void ToxAVVoIPModel::tick(void) { void ToxAVVoIPModel::tick(void) {
for (const auto& [oc, asink, asrf] : _os.registry().view<ToxAVCallAudioSink*, AudioStreamReFramer>().each()) { for (const auto& [oc, asink] : _os.registry().view<ToxAVCallAudioSink*>().each()) {
//for (const auto& [oc, asink] : _os.registry().view<ToxAVCallAudioSink*>().each()) {
if (!asink->_writer) { if (!asink->_writer) {
continue; continue;
} }
asrf._stream = asink->_writer.get();
for (size_t i = 0; i < 100; i++) { for (size_t i = 0; i < 100; i++) {
//auto new_frame_opt = asink->_writer->pop(); auto new_frame_opt = asink->_writer->pop();
auto new_frame_opt = asrf.pop();
if (!new_frame_opt.has_value()) { if (!new_frame_opt.has_value()) {
break; break;
} }
@ -316,7 +245,6 @@ ObjectHandle ToxAVVoIPModel::enter(const Contact3 c, const Components::VoIP::Def
const auto friend_number = _cr.get<Contact::Components::ToxFriendEphemeral>(c).friend_number; const auto friend_number = _cr.get<Contact::Components::ToxFriendEphemeral>(c).friend_number;
std::cerr << "TAVVOIP: lol\n";
const auto err = _av.toxavCall(friend_number, 0, 0); const auto err = _av.toxavCall(friend_number, 0, 0);
if (err != TOXAV_ERR_CALL_OK) { if (err != TOXAV_ERR_CALL_OK) {
std::cerr << "TAVVOIP error: failed to start call: " << err << "\n"; std::cerr << "TAVVOIP error: failed to start call: " << err << "\n";