X-Git-Url: https://main.carlh.net/gitweb/?a=blobdiff_plain;f=src%2Flib%2Fffmpeg_encoder.cc;h=c1170f098ce8b416cacd1ab1562e4d99cd4a1fd7;hb=HEAD;hp=572e7ae16080ef7b8bc2a44bf781a0defe2299d7;hpb=335ef709439cd3678f6813a3fb880110e4c9cb26;p=dcpomatic.git diff --git a/src/lib/ffmpeg_encoder.cc b/src/lib/ffmpeg_encoder.cc index 572e7ae16..c1170f098 100644 --- a/src/lib/ffmpeg_encoder.cc +++ b/src/lib/ffmpeg_encoder.cc @@ -18,33 +18,36 @@ */ + +#include "butler.h" +#include "cross.h" #include "ffmpeg_encoder.h" #include "film.h" +#include "image.h" #include "job.h" +#include "log.h" #include "player.h" #include "player_video.h" -#include "log.h" -#include "image.h" -#include "cross.h" -#include "butler.h" #include "compose.hpp" #include #include "i18n.h" -using std::string; -using std::runtime_error; + using std::cout; -using std::pair; using std::list; -using std::map; -using boost::shared_ptr; +using std::make_shared; +using std::shared_ptr; +using std::string; +using std::weak_ptr; using boost::bind; -using boost::weak_ptr; using boost::optional; using namespace dcpomatic; +#if BOOST_VERSION >= 106100 +using namespace boost::placeholders; +#endif + -/** @param key Key to use to encrypt MP4 outputs */ FFmpegEncoder::FFmpegEncoder ( shared_ptr film, weak_ptr job, @@ -52,21 +55,96 @@ FFmpegEncoder::FFmpegEncoder ( ExportFormat format, bool mixdown_to_stereo, bool split_reels, + bool audio_stream_per_channel, int x264_crf -#ifdef DCPOMATIC_VARIANT_SWAROOP - , optional key - , optional id -#endif ) : Encoder (film, job) - , _history (1000) + , _output_audio_channels(mixdown_to_stereo ? 2 : (_film->audio_channels() > 8 ? 16 : _film->audio_channels())) + , _history (200) + , _output (output) + , _format (format) + , _split_reels (split_reels) + , _audio_stream_per_channel (audio_stream_per_channel) + , _x264_crf (x264_crf) + , _butler( + _film, + _player, + mixdown_to_stereo ? stereo_map() : many_channel_map(), + _output_audio_channels, + boost::bind(&PlayerVideo::force, FFmpegFileEncoder::pixel_format(format)), + VideoRange::VIDEO, + Image::Alignment::PADDED, + false, + false, + Butler::Audio::ENABLED + ) { - int const files = split_reels ? film->reels().size() : 1; + _player.set_always_burn_open_subtitles(); + _player.set_play_referenced(); +} + + +AudioMapping +FFmpegEncoder::stereo_map() const +{ + auto map = AudioMapping(_film->audio_channels(), 2); + float const overall_gain = 2 / (4 + sqrt(2)); + float const minus_3dB = 1 / sqrt(2); + switch (_film->audio_channels()) { + case 2: + map.set(dcp::Channel::LEFT, 0, 1); + map.set(dcp::Channel::RIGHT, 1, 1); + break; + case 4: + map.set(dcp::Channel::LEFT, 0, overall_gain); + map.set(dcp::Channel::RIGHT, 1, overall_gain); + map.set(dcp::Channel::CENTRE, 0, overall_gain * minus_3dB); + map.set(dcp::Channel::CENTRE, 1, overall_gain * minus_3dB); + map.set(dcp::Channel::LS, 0, overall_gain); + break; + default: + map.set(dcp::Channel::LEFT, 0, overall_gain); + map.set(dcp::Channel::RIGHT, 1, overall_gain); + map.set(dcp::Channel::CENTRE, 0, overall_gain * minus_3dB); + map.set(dcp::Channel::CENTRE, 1, overall_gain * minus_3dB); + map.set(dcp::Channel::LS, 0, overall_gain); + map.set(dcp::Channel::RS, 1, overall_gain); + break; + } + return map; +} + + +AudioMapping +FFmpegEncoder::many_channel_map() const +{ + auto map = AudioMapping(_film->audio_channels(), _output_audio_channels); + for (int i = 0; i < _film->audio_channels(); ++i) { + map.set(i, i, 1); + } + return map; +} + + +void +FFmpegEncoder::go () +{ + { + auto job = _job.lock (); + DCPOMATIC_ASSERT (job); + job->sub (_("Encoding")); + } + + Waker waker; + + list file_encoders; + + int const files = _split_reels ? _film->reels().size() : 1; for (int i = 0; i < files; ++i) { - boost::filesystem::path filename = output; - string extension = boost::filesystem::extension (filename); - filename = boost::filesystem::change_extension (filename, ""); + boost::filesystem::path filename = _output; + auto extension = dcp::filesystem::extension(filename); + filename = dcp::filesystem::change_extension(filename, ""); if (files > 1) { /// TRANSLATORS: _reel%1 here is to be added to an export filename to indicate @@ -74,101 +152,74 @@ FFmpegEncoder::FFmpegEncoder ( filename = filename.string() + String::compose(_("_reel%1"), i + 1); } - _file_encoders.push_back ( + file_encoders.push_back ( FileEncoderSet ( _film->frame_size(), _film->video_frame_rate(), _film->audio_frame_rate(), - mixdown_to_stereo ? 2 : film->audio_channels(), - format, - x264_crf, + _output_audio_channels, + _format, + _audio_stream_per_channel, + _x264_crf, _film->three_d(), filename, extension -#ifdef DCPOMATIC_VARIANT_SWAROOP - , key - , id -#endif ) ); } - _player->set_always_burn_open_subtitles (); - _player->set_play_referenced (); - - int const ch = film->audio_channels (); - - AudioMapping map; - if (mixdown_to_stereo) { - _output_audio_channels = 2; - map = AudioMapping (ch, 2); - float const overall_gain = 2 / (4 + sqrt(2)); - float const minus_3dB = 1 / sqrt(2); - map.set (dcp::LEFT, 0, overall_gain); - map.set (dcp::RIGHT, 1, overall_gain); - map.set (dcp::CENTRE, 0, overall_gain * minus_3dB); - map.set (dcp::CENTRE, 1, overall_gain * minus_3dB); - map.set (dcp::LS, 0, overall_gain); - map.set (dcp::RS, 1, overall_gain); - } else { - _output_audio_channels = ch; - map = AudioMapping (ch, ch); - for (int i = 0; i < ch; ++i) { - map.set (i, i, 1); - } - } - - _butler.reset (new Butler(_player, map, _output_audio_channels, bind(&PlayerVideo::force, _1, FFmpegFileEncoder::pixel_format(format)), true, false)); -} - -void -FFmpegEncoder::go () -{ - { - shared_ptr job = _job.lock (); - DCPOMATIC_ASSERT (job); - job->sub (_("Encoding")); - } - - list reel_periods = _film->reels (); - list::const_iterator reel = reel_periods.begin (); - list::iterator encoder = _file_encoders.begin (); + auto reel_periods = _film->reels (); + auto reel = reel_periods.begin (); + auto encoder = file_encoders.begin (); - DCPTime const video_frame = DCPTime::from_frames (1, _film->video_frame_rate ()); + auto const video_frame = DCPTime::from_frames (1, _film->video_frame_rate ()); int const audio_frames = video_frame.frames_round(_film->audio_frame_rate()); - float* interleaved = new float[_output_audio_channels * audio_frames]; - shared_ptr deinterleaved (new AudioBuffers (_output_audio_channels, audio_frames)); + std::vector interleaved(_output_audio_channels * audio_frames); + auto deinterleaved = make_shared(_output_audio_channels, audio_frames); int const gets_per_frame = _film->three_d() ? 2 : 1; - for (DCPTime i; i < _film->length(); i += video_frame) { + for (DCPTime time; time < _film->length(); time += video_frame) { - if (_file_encoders.size() > 1 && !reel->contains(i)) { + if (file_encoders.size() > 1 && !reel->contains(time)) { /* Next reel and file */ ++reel; ++encoder; DCPOMATIC_ASSERT (reel != reel_periods.end()); - DCPOMATIC_ASSERT (encoder != _file_encoders.end()); + DCPOMATIC_ASSERT (encoder != file_encoders.end()); } for (int j = 0; j < gets_per_frame; ++j) { - pair, DCPTime> v = _butler->get_video (true, 0); - encoder->get(v.first->eyes())->video(v.first, v.second); + Butler::Error e; + auto video = _butler.get_video(Butler::Behaviour::BLOCKING, &e); + _butler.rethrow(); + if (video.first) { + auto fe = encoder->get(video.first->eyes()); + if (fe) { + fe->video(video.first, video.second - reel->from); + } + } else { + if (e.code != Butler::Error::Code::FINISHED) { + throw DecodeError(String::compose("Error during decoding: %1", e.summary())); + } + } } _history.event (); { boost::mutex::scoped_lock lm (_mutex); - _last_time = i; + _last_time = time; } - shared_ptr job = _job.lock (); + auto job = _job.lock (); if (job) { - job->set_progress (float(i.get()) / _film->length().get()); + job->set_progress(float(time.get()) / _film->length().get()); } - _butler->get_audio (interleaved, audio_frames); + waker.nudge (); + + _butler.get_audio(Butler::Behaviour::BLOCKING, interleaved.data(), audio_frames); /* XXX: inefficient; butler interleaves and we deinterleave again */ - float* p = interleaved; + float* p = interleaved.data(); for (int j = 0; j < audio_frames; ++j) { for (int k = 0; k < _output_audio_channels; ++k) { deinterleaved->data(k)[j] = *p++; @@ -176,14 +227,13 @@ FFmpegEncoder::go () } encoder->audio (deinterleaved); } - delete[] interleaved; - BOOST_FOREACH (FileEncoderSet i, _file_encoders) { + for (auto i: file_encoders) { i.flush (); } } -float +optional FFmpegEncoder::current_rate () const { return _history.rate (); @@ -202,40 +252,28 @@ FFmpegEncoder::FileEncoderSet::FileEncoderSet ( int audio_frame_rate, int channels, ExportFormat format, + bool audio_stream_per_channel, int x264_crf, bool three_d, boost::filesystem::path output, string extension -#ifdef DCPOMATIC_VARIANT_SWAROOP - , optional key - , optional id -#endif ) { if (three_d) { - /// TRANSLATORS: L here is an abbreviation for "left", to indicate the left-eye part of a 3D export - _encoders[EYES_LEFT] = shared_ptr( - new FFmpegFileEncoder(video_frame_size, video_frame_rate, audio_frame_rate, channels, format, x264_crf, String::compose("%1_%2%3", output.string(), _("L"), extension) -#ifdef DCPOMATIC_VARIANT_SWAROOP - , key, id -#endif - ) + _encoders[Eyes::LEFT] = make_shared( + video_frame_size, video_frame_rate, audio_frame_rate, channels, format, + // TRANSLATORS: L here is an abbreviation for "left", to indicate the left-eye part of a 3D export + audio_stream_per_channel, x264_crf, String::compose("%1_%2%3", output.string(), _("L"), extension) ); - /// TRANSLATORS: R here is an abbreviation for "right", to indicate the right-eye part of a 3D export - _encoders[EYES_RIGHT] = shared_ptr( - new FFmpegFileEncoder(video_frame_size, video_frame_rate, audio_frame_rate, channels, format, x264_crf, String::compose("%1_%2%3", output.string(), _("R"), extension) -#ifdef DCPOMATIC_VARIANT_SWAROOP - , key, id -#endif - ) + _encoders[Eyes::RIGHT] = make_shared( + video_frame_size, video_frame_rate, audio_frame_rate, channels, format, + // TRANSLATORS: R here is an abbreviation for "right", to indicate the right-eye part of a 3D export + audio_stream_per_channel, x264_crf, String::compose("%1_%2%3", output.string(), _("R"), extension) ); } else { - _encoders[EYES_BOTH] = shared_ptr( - new FFmpegFileEncoder(video_frame_size, video_frame_rate, audio_frame_rate, channels, format, x264_crf, String::compose("%1%2", output.string(), extension) -#ifdef DCPOMATIC_VARIANT_SWAROOP - , key, id -#endif - ) + _encoders[Eyes::BOTH] = make_shared( + video_frame_size, video_frame_rate, audio_frame_rate, channels, format, + audio_stream_per_channel, x264_crf, String::compose("%1%2", output.string(), extension) ); } } @@ -243,7 +281,18 @@ FFmpegEncoder::FileEncoderSet::FileEncoderSet ( shared_ptr FFmpegEncoder::FileEncoderSet::get (Eyes eyes) const { - map >::const_iterator i = _encoders.find (eyes); + if (_encoders.size() == 1) { + /* We are doing a 2D export... */ + if (eyes == Eyes::LEFT) { + /* ...but we got some 3D data; put the left eye into the output... */ + eyes = Eyes::BOTH; + } else if (eyes == Eyes::RIGHT) { + /* ...and ignore the right eye.*/ + return {}; + } + } + + auto i = _encoders.find (eyes); DCPOMATIC_ASSERT (i != _encoders.end()); return i->second; } @@ -251,15 +300,15 @@ FFmpegEncoder::FileEncoderSet::get (Eyes eyes) const void FFmpegEncoder::FileEncoderSet::flush () { - for (map >::iterator i = _encoders.begin(); i != _encoders.end(); ++i) { - i->second->flush (); + for (auto& i: _encoders) { + i.second->flush (); } } void FFmpegEncoder::FileEncoderSet::audio (shared_ptr a) { - for (map >::iterator i = _encoders.begin(); i != _encoders.end(); ++i) { - i->second->audio (a); + for (auto& i: _encoders) { + i.second->audio (a); } }