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serenity/Userland/Libraries/LibVideo/PlaybackManager.cpp
Zaggy1024 393cfdd5c5 LibVideo: Read Matroska lazily so that large files can start quickly 
The Demuxer class was changed to return errors for more functions so
that all of the underlying reading can be done lazily. Other than that,
the demuxer interface is unchanged, and only the underlying reader was
modified.

The MatroskaDocument class is no more, and MatroskaReader's getter
functions replace it. Every MatroskaReader getter beyond the Segment
element's position is parsed lazily from the file as needed. This means
that all getter functions can return DecoderErrors which must be
handled by callers.
2022-11-25 23:28:39 +01:00

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/*
* Copyright (c) 2022, Gregory Bertilson <zaggy1024@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Format.h>
#include <LibCore/Timer.h>
#include <LibVideo/Containers/Matroska/MatroskaDemuxer.h>
#include <LibVideo/VP9/Decoder.h>
#include "PlaybackManager.h"
namespace Video {
DecoderErrorOr<NonnullOwnPtr<PlaybackManager>> PlaybackManager::from_file(Core::Object& event_handler, StringView filename)
{
NonnullOwnPtr<Demuxer> demuxer = TRY(Matroska::MatroskaDemuxer::from_file(filename));
auto video_tracks = TRY(demuxer->get_tracks_for_type(TrackType::Video));
if (video_tracks.is_empty())
return DecoderError::with_description(DecoderErrorCategory::Invalid, "No video track is present"sv);
auto track = video_tracks[0];
dbgln_if(PLAYBACK_MANAGER_DEBUG, "Selecting video track number {}", track.identifier());
return make<PlaybackManager>(event_handler, demuxer, track, make<VP9::Decoder>());
}
PlaybackManager::PlaybackManager(Core::Object& event_handler, NonnullOwnPtr<Demuxer>& demuxer, Track video_track, NonnullOwnPtr<VideoDecoder>&& decoder)
: m_event_handler(event_handler)
, m_main_loop(Core::EventLoop::current())
, m_demuxer(move(demuxer))
, m_selected_video_track(video_track)
, m_decoder(move(decoder))
, m_frame_queue(make<VideoFrameQueue>())
, m_present_timer(Core::Timer::construct())
, m_decode_timer(Core::Timer::construct())
{
m_present_timer->set_single_shot(true);
m_present_timer->set_interval(0);
m_present_timer->on_timeout = [&] { update_presented_frame(); };
m_decode_timer->set_single_shot(true);
m_decode_timer->set_interval(0);
m_decode_timer->on_timeout = [&] { on_decode_timer(); };
}
void PlaybackManager::set_playback_status(PlaybackStatus status)
{
if (status != m_status) {
auto old_status = m_status;
m_status = status;
dbgln_if(PLAYBACK_MANAGER_DEBUG, "Set playback status from {} to {}", playback_status_to_string(old_status), playback_status_to_string(m_status));
if (status == PlaybackStatus::Playing) {
if (old_status == PlaybackStatus::Stopped || old_status == PlaybackStatus::Corrupted) {
restart_playback();
m_frame_queue->clear();
m_skipped_frames = 0;
}
m_last_present_in_real_time = Time::now_monotonic();
m_present_timer->start(0);
} else {
m_last_present_in_media_time = current_playback_time();
m_last_present_in_real_time = Time::zero();
m_present_timer->stop();
}
m_main_loop.post_event(m_event_handler, make<PlaybackStatusChangeEvent>(status, old_status));
}
}
void PlaybackManager::resume_playback()
{
set_playback_status(PlaybackStatus::Playing);
}
void PlaybackManager::pause_playback()
{
set_playback_status(PlaybackStatus::Paused);
}
bool PlaybackManager::prepare_next_frame()
{
if (m_next_frame.has_value())
return true;
if (m_frame_queue->is_empty())
return false;
auto frame_item = m_frame_queue->dequeue();
m_next_frame.emplace(move(frame_item));
m_decode_timer->start(0);
return true;
}
Time PlaybackManager::current_playback_time()
{
if (is_playing())
return m_last_present_in_media_time + (Time::now_monotonic() - m_last_present_in_real_time);
return m_last_present_in_media_time;
}
Time PlaybackManager::duration()
{
auto duration_result = m_demuxer->duration();
if (duration_result.is_error())
on_decoder_error(duration_result.release_error());
return duration_result.release_value();
}
void PlaybackManager::on_decoder_error(DecoderError error)
{
dbgln("Playback error encountered: {}", error.string_literal());
switch (error.category()) {
case DecoderErrorCategory::EndOfStream:
set_playback_status(PlaybackStatus::Stopped);
break;
default:
set_playback_status(PlaybackStatus::Corrupted);
m_main_loop.post_event(m_event_handler, make<DecoderErrorEvent>(move(error)));
break;
}
}
void PlaybackManager::update_presented_frame()
{
bool out_of_queued_frames = false;
Optional<FrameQueueItem> frame_item_to_display;
while (true) {
out_of_queued_frames = out_of_queued_frames || !prepare_next_frame();
if (out_of_queued_frames)
break;
VERIFY(m_next_frame.has_value());
if (m_next_frame->is_error() || m_next_frame->timestamp() > current_playback_time())
break;
if (frame_item_to_display.has_value()) {
dbgln_if(PLAYBACK_MANAGER_DEBUG, "At {}ms: Dropped {} in favor of {}", current_playback_time().to_milliseconds(), frame_item_to_display->debug_string(), m_next_frame->debug_string());
m_skipped_frames++;
}
frame_item_to_display = m_next_frame.release_value();
}
if (!out_of_queued_frames && frame_item_to_display.has_value()) {
m_main_loop.post_event(m_event_handler, make<VideoFramePresentEvent>(frame_item_to_display->bitmap()));
m_last_present_in_media_time = current_playback_time();
m_last_present_in_real_time = Time::now_monotonic();
frame_item_to_display.clear();
}
if (frame_item_to_display.has_value()) {
VERIFY(!m_next_frame.has_value());
m_next_frame = frame_item_to_display;
dbgln_if(PLAYBACK_MANAGER_DEBUG, "Set next frame back to dequeued item {}", m_next_frame->debug_string());
}
if (!is_playing())
return;
if (!out_of_queued_frames) {
if (m_next_frame->is_error()) {
on_decoder_error(m_next_frame->release_error());
m_next_frame.clear();
return;
}
auto frame_time_ms = (m_next_frame->timestamp() - current_playback_time()).to_milliseconds();
VERIFY(frame_time_ms <= NumericLimits<int>::max());
dbgln_if(PLAYBACK_MANAGER_DEBUG, "Time until next frame is {}ms", frame_time_ms);
m_present_timer->start(max(static_cast<int>(frame_time_ms), 0));
return;
}
set_playback_status(PlaybackStatus::Buffering);
m_decode_timer->start(0);
}
void PlaybackManager::restart_playback()
{
m_last_present_in_media_time = Time::zero();
m_last_present_in_real_time = Time::zero();
auto result = m_demuxer->seek_to_most_recent_keyframe(m_selected_video_track, 0);
if (result.is_error())
on_decoder_error(result.release_error());
}
void PlaybackManager::post_decoder_error(DecoderError error)
{
m_main_loop.post_event(m_event_handler, make<DecoderErrorEvent>(error));
}
bool PlaybackManager::decode_and_queue_one_sample()
{
if (m_frame_queue->size() >= FRAME_BUFFER_COUNT)
return false;
#if PLAYBACK_MANAGER_DEBUG
auto start_time = Time::now_monotonic();
#endif
#define TRY_OR_ENQUEUE_ERROR(expression) \
({ \
auto _temporary_result = ((expression)); \
if (_temporary_result.is_error()) { \
dbgln("Enqueued decoder error: {}", _temporary_result.error().string_literal()); \
m_frame_queue->enqueue(FrameQueueItem::error_marker(_temporary_result.release_error())); \
return false; \
} \
_temporary_result.release_value(); \
})
auto frame_sample = TRY_OR_ENQUEUE_ERROR(m_demuxer->get_next_video_sample_for_track(m_selected_video_track));
OwnPtr<VideoFrame> decoded_frame = nullptr;
while (!decoded_frame) {
TRY_OR_ENQUEUE_ERROR(m_decoder->receive_sample(frame_sample->data()));
while (true) {
auto frame_result = m_decoder->get_decoded_frame();
if (frame_result.is_error()) {
if (frame_result.error().category() == DecoderErrorCategory::NeedsMoreInput)
break;
post_decoder_error(frame_result.release_error());
return false;
}
decoded_frame = frame_result.release_value();
VERIFY(decoded_frame);
}
}
auto& cicp = decoded_frame->cicp();
cicp.adopt_specified_values(frame_sample->container_cicp());
cicp.default_code_points_if_unspecified({ ColorPrimaries::BT709, TransferCharacteristics::BT709, MatrixCoefficients::BT709, ColorRange::Studio });
// BT.601, BT.709 and BT.2020 have a similar transfer function to sRGB, so other applications
// (Chromium, VLC) forgo transfer characteristics conversion. We will emulate that behavior by
// handling those as sRGB instead, which causes no transfer function change in the output,
// unless display color management is later implemented.
switch (cicp.transfer_characteristics()) {
case TransferCharacteristics::BT601:
case TransferCharacteristics::BT709:
case TransferCharacteristics::BT2020BitDepth10:
case TransferCharacteristics::BT2020BitDepth12:
cicp.set_transfer_characteristics(TransferCharacteristics::SRGB);
break;
default:
break;
}
auto bitmap = TRY_OR_ENQUEUE_ERROR(decoded_frame->to_bitmap());
m_frame_queue->enqueue(FrameQueueItem::frame(bitmap, frame_sample->timestamp()));
#if PLAYBACK_MANAGER_DEBUG
auto end_time = Time::now_monotonic();
dbgln("Decoding took {}ms", (end_time - start_time).to_milliseconds());
#endif
return true;
}
void PlaybackManager::on_decode_timer()
{
if (!decode_and_queue_one_sample() && is_buffering()) {
set_playback_status(PlaybackStatus::Playing);
return;
}
// Continually decode until buffering is complete
if (is_buffering())
m_decode_timer->start(0);
}
}
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