mirror of
https://github.com/RGBCube/serenity
synced 2025-05-31 10:58:12 +00:00
6b392cef9c
I've realized that it probably makes more sense to change the input transfer characteristics to treat these as sRGB since color conversion in linear converted from BT.709 doesn't really make sense. If content creation applications expect media players to display BT.709 without conversions, this means they expect applications to treat it as sRGB, since that's what most displays use. That most likely also means they process it as sRGB internally, meaning we should do the same for our color primaries conversion.
264 lines
9.5 KiB
C++
264 lines
9.5 KiB
C++
/*
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* Copyright (c) 2022, Gregory Bertilson <zaggy1024@gmail.com>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Format.h>
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#include <LibCore/Timer.h>
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#include <LibVideo/MatroskaReader.h>
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#include <LibVideo/VP9/Decoder.h>
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#include "MatroskaDemuxer.h"
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#include "PlaybackManager.h"
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namespace Video {
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DecoderErrorOr<NonnullRefPtr<PlaybackManager>> PlaybackManager::from_file(Object* event_handler, StringView filename)
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{
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NonnullOwnPtr<Demuxer> demuxer = TRY(MatroskaDemuxer::from_file(filename));
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auto video_tracks = demuxer->get_tracks_for_type(TrackType::Video);
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if (video_tracks.is_empty())
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return DecoderError::with_description(DecoderErrorCategory::Invalid, "No video track is present"sv);
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auto track = video_tracks[0];
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dbgln_if(PLAYBACK_MANAGER_DEBUG, "Selecting video track number {}", track.identifier());
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NonnullOwnPtr<VideoDecoder> decoder = make<VP9::Decoder>();
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return PlaybackManager::construct(event_handler, demuxer, track, decoder);
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}
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PlaybackManager::PlaybackManager(Object* event_handler, NonnullOwnPtr<Demuxer>& demuxer, Track video_track, NonnullOwnPtr<VideoDecoder>& decoder)
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: Object(event_handler)
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, m_main_loop(Core::EventLoop::current())
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, m_demuxer(move(demuxer))
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, m_selected_video_track(video_track)
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, m_decoder(move(decoder))
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, m_frame_queue(make<VideoFrameQueue>())
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, m_present_timer(Core::Timer::construct())
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, m_decode_timer(Core::Timer::construct())
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{
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m_present_timer->set_single_shot(true);
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m_present_timer->set_interval(0);
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m_present_timer->on_timeout = [&] { update_presented_frame(); };
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m_decode_timer->set_single_shot(true);
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m_decode_timer->set_interval(0);
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m_decode_timer->on_timeout = [&] { on_decode_timer(); };
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}
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void PlaybackManager::set_playback_status(PlaybackStatus status)
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{
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if (status != m_status) {
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auto old_status = m_status;
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m_status = status;
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dbgln_if(PLAYBACK_MANAGER_DEBUG, "Set playback status from {} to {}", playback_status_to_string(old_status), playback_status_to_string(m_status));
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if (status == PlaybackStatus::Playing) {
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if (old_status == PlaybackStatus::Stopped || old_status == PlaybackStatus::Corrupted) {
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restart_playback();
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m_frame_queue->clear();
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m_skipped_frames = 0;
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}
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m_last_present_in_real_time = Time::now_monotonic();
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m_present_timer->start();
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} else {
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m_last_present_in_media_time = current_playback_time();
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m_last_present_in_real_time = Time::zero();
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m_present_timer->stop();
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}
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m_main_loop.post_event(*this, make<PlaybackStatusChangeEvent>(status, old_status));
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}
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}
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void PlaybackManager::event(Core::Event& event)
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{
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if (event.type() == DecoderErrorOccurred) {
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auto& error_event = static_cast<DecoderErrorEvent&>(event);
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VERIFY(error_event.error().category() != DecoderErrorCategory::EndOfStream);
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set_playback_status(PlaybackStatus::Corrupted);
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}
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// Allow events to bubble up in all cases.
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event.ignore();
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}
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void PlaybackManager::resume_playback()
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{
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set_playback_status(PlaybackStatus::Playing);
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}
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void PlaybackManager::pause_playback()
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{
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set_playback_status(PlaybackStatus::Paused);
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}
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bool PlaybackManager::prepare_next_frame()
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{
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if (m_next_frame.has_value())
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return true;
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if (m_frame_queue->is_empty())
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return false;
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auto frame_item = m_frame_queue->dequeue();
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m_next_frame.emplace(move(frame_item));
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m_decode_timer->start();
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return true;
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}
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Time PlaybackManager::current_playback_time()
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{
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if (is_playing())
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return m_last_present_in_media_time + (Time::now_monotonic() - m_last_present_in_real_time);
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return m_last_present_in_media_time;
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}
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Time PlaybackManager::duration()
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{
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return m_demuxer->duration();
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}
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void PlaybackManager::on_decoder_error(DecoderError error)
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{
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dbgln("Playback error encountered: {}", error.string_literal());
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switch (error.category()) {
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case DecoderErrorCategory::EndOfStream:
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set_playback_status(PlaybackStatus::Stopped);
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break;
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default:
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set_playback_status(PlaybackStatus::Corrupted);
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m_main_loop.post_event(*this, make<DecoderErrorEvent>(move(error)));
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break;
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}
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}
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void PlaybackManager::update_presented_frame()
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{
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bool out_of_queued_frames = false;
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Optional<FrameQueueItem> frame_item_to_display;
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while (true) {
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out_of_queued_frames = out_of_queued_frames || !prepare_next_frame();
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if (out_of_queued_frames)
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break;
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VERIFY(m_next_frame.has_value());
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if (m_next_frame->is_error() || m_next_frame->timestamp() > current_playback_time())
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break;
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if (frame_item_to_display.has_value()) {
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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());
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m_skipped_frames++;
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}
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frame_item_to_display = m_next_frame.release_value();
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}
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if (!out_of_queued_frames && frame_item_to_display.has_value()) {
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m_main_loop.post_event(*this, make<VideoFramePresentEvent>(frame_item_to_display->bitmap()));
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m_last_present_in_media_time = current_playback_time();
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m_last_present_in_real_time = Time::now_monotonic();
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frame_item_to_display.clear();
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}
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if (frame_item_to_display.has_value()) {
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VERIFY(!m_next_frame.has_value());
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m_next_frame = frame_item_to_display;
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dbgln_if(PLAYBACK_MANAGER_DEBUG, "Set next frame back to dequeued item {}", m_next_frame->debug_string());
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}
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if (!is_playing())
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return;
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if (!out_of_queued_frames) {
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if (m_next_frame->is_error()) {
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on_decoder_error(m_next_frame->release_error());
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m_next_frame.clear();
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return;
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}
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auto frame_time_ms = (m_next_frame->timestamp() - current_playback_time()).to_milliseconds();
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VERIFY(frame_time_ms <= NumericLimits<int>::max());
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dbgln_if(PLAYBACK_MANAGER_DEBUG, "Time until next frame is {}ms", frame_time_ms);
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m_present_timer->start(max(static_cast<int>(frame_time_ms), 0));
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return;
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}
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set_playback_status(PlaybackStatus::Buffering);
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m_decode_timer->start();
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}
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void PlaybackManager::restart_playback()
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{
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m_last_present_in_media_time = Time::zero();
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m_last_present_in_real_time = Time::zero();
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auto result = m_demuxer->seek_to_most_recent_keyframe(m_selected_video_track, 0);
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if (result.is_error())
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on_decoder_error(result.release_error());
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}
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bool PlaybackManager::decode_and_queue_one_sample()
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{
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if (m_frame_queue->size() >= FRAME_BUFFER_COUNT)
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return false;
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#if PLAYBACK_MANAGER_DEBUG
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auto start_time = Time::now_monotonic();
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#endif
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#define TRY_OR_ENQUEUE_ERROR(expression) \
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({ \
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auto _temporary_result = ((expression)); \
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if (_temporary_result.is_error()) { \
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dbgln("Enqueued decoder error: {}", _temporary_result.error().string_literal()); \
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m_frame_queue->enqueue(FrameQueueItem::error_marker(_temporary_result.release_error())); \
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return false; \
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} \
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_temporary_result.release_value(); \
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})
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auto frame_sample = TRY_OR_ENQUEUE_ERROR(m_demuxer->get_next_video_sample_for_track(m_selected_video_track));
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TRY_OR_ENQUEUE_ERROR(m_decoder->receive_sample(frame_sample->data()));
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auto decoded_frame = TRY_OR_ENQUEUE_ERROR(m_decoder->get_decoded_frame());
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auto& cicp = decoded_frame->cicp();
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cicp.adopt_specified_values(frame_sample->container_cicp());
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cicp.default_code_points_if_unspecified({ ColorPrimaries::BT709, TransferCharacteristics::BT709, MatrixCoefficients::BT709, ColorRange::Studio });
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// BT.601, BT.709 and BT.2020 have a similar transfer function to sRGB, so other applications
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// (Chromium, VLC) forgo transfer characteristics conversion. We will emulate that behavior by
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// handling those as sRGB instead, which causes no transfer function change in the output,
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// unless display color management is later implemented.
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switch (cicp.transfer_characteristics()) {
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case TransferCharacteristics::BT601:
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case TransferCharacteristics::BT709:
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case TransferCharacteristics::BT2020BitDepth10:
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case TransferCharacteristics::BT2020BitDepth12:
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cicp.set_transfer_characteristics(TransferCharacteristics::SRGB);
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break;
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default:
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break;
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}
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auto bitmap = TRY_OR_ENQUEUE_ERROR(decoded_frame->to_bitmap());
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m_frame_queue->enqueue(FrameQueueItem::frame(bitmap, frame_sample->timestamp()));
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#if PLAYBACK_MANAGER_DEBUG
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auto end_time = Time::now_monotonic();
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dbgln("Decoding took {}ms", (end_time - start_time).to_milliseconds());
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#endif
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return true;
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}
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void PlaybackManager::on_decode_timer()
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{
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if (!decode_and_queue_one_sample() && is_buffering()) {
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set_playback_status(PlaybackStatus::Playing);
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return;
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}
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// Continually decode until buffering is complete
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if (is_buffering())
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m_decode_timer->start();
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}
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}
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