/* Copyright (C) 2012 Carl Hetherington This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /** @file src/j2k_wav_encoder.cc * @brief An encoder which writes JPEG2000 and WAV files. */ #include #include #include #include #include #include #include #include #include #include "j2k_wav_encoder.h" #include "config.h" #include "options.h" #include "exceptions.h" #include "dcp_video_frame.h" #include "server.h" #include "filter.h" #include "log.h" #include "cross.h" #include "film.h" using std::string; using std::stringstream; using std::list; using std::vector; using std::pair; using boost::shared_ptr; using boost::thread; using boost::lexical_cast; J2KWAVEncoder::J2KWAVEncoder (shared_ptr f, shared_ptr o) : Encoder (f, o) #ifdef HAVE_SWRESAMPLE , _swr_context (0) #endif , _audio_frames_written (0) , _process_end (false) { /* Create sound output files with .tmp suffixes; we will rename them if and when we complete. */ for (int i = 0; i < _film->audio_channels(); ++i) { SF_INFO sf_info; sf_info.samplerate = dcp_audio_sample_rate (_film->audio_sample_rate()); /* We write mono files */ sf_info.channels = 1; sf_info.format = SF_FORMAT_WAV | SF_FORMAT_PCM_24; SNDFILE* f = sf_open (_opt->multichannel_audio_out_path (i, true).c_str (), SFM_WRITE, &sf_info); if (f == 0) { throw CreateFileError (_opt->multichannel_audio_out_path (i, true)); } _sound_files.push_back (f); } } J2KWAVEncoder::~J2KWAVEncoder () { terminate_worker_threads (); close_sound_files (); } void J2KWAVEncoder::terminate_worker_threads () { boost::mutex::scoped_lock lock (_worker_mutex); _process_end = true; _worker_condition.notify_all (); lock.unlock (); for (list::iterator i = _worker_threads.begin(); i != _worker_threads.end(); ++i) { (*i)->join (); delete *i; } } void J2KWAVEncoder::close_sound_files () { for (vector::iterator i = _sound_files.begin(); i != _sound_files.end(); ++i) { sf_close (*i); } _sound_files.clear (); } void J2KWAVEncoder::process_video (shared_ptr yuv, int frame, shared_ptr sub) { boost::mutex::scoped_lock lock (_worker_mutex); /* Wait until the queue has gone down a bit */ while (_queue.size() >= _worker_threads.size() * 2 && !_process_end) { TIMING ("decoder sleeps with queue of %1", _queue.size()); _worker_condition.wait (lock); TIMING ("decoder wakes with queue of %1", _queue.size()); } if (_process_end) { return; } /* Only do the processing if we don't already have a file for this frame */ if (!boost::filesystem::exists (_opt->frame_out_path (frame, false))) { pair const s = Filter::ffmpeg_strings (_film->filters()); TIMING ("adding to queue of %1", _queue.size ()); _queue.push_back (boost::shared_ptr ( new DCPVideoFrame ( yuv, sub, _opt->out_size, _opt->padding, _film->subtitle_offset(), _film->subtitle_scale(), _film->scaler(), frame, _film->frames_per_second(), s.second, Config::instance()->colour_lut_index (), Config::instance()->j2k_bandwidth (), _film->log() ) )); _worker_condition.notify_all (); } else { frame_skipped (); } } void J2KWAVEncoder::encoder_thread (ServerDescription* server) { /* Number of seconds that we currently wait between attempts to connect to the server; not relevant for localhost encodings. */ int remote_backoff = 0; while (1) { TIMING ("encoder thread %1 sleeps", boost::this_thread::get_id()); boost::mutex::scoped_lock lock (_worker_mutex); while (_queue.empty () && !_process_end) { _worker_condition.wait (lock); } if (_process_end) { return; } TIMING ("encoder thread %1 wakes with queue of %2", boost::this_thread::get_id(), _queue.size()); boost::shared_ptr vf = _queue.front (); _film->log()->log (String::compose ("Encoder thread %1 pops frame %2 from queue", boost::this_thread::get_id(), vf->frame())); _queue.pop_front (); lock.unlock (); shared_ptr encoded; if (server) { try { encoded = vf->encode_remotely (server); if (remote_backoff > 0) { _film->log()->log (String::compose ("%1 was lost, but now she is found; removing backoff", server->host_name ())); } /* This job succeeded, so remove any backoff */ remote_backoff = 0; } catch (std::exception& e) { if (remote_backoff < 60) { /* back off more */ remote_backoff += 10; } _film->log()->log ( String::compose ( "Remote encode of %1 on %2 failed (%3); thread sleeping for %4s", vf->frame(), server->host_name(), e.what(), remote_backoff) ); } } else { try { TIMING ("encoder thread %1 begins local encode of %2", boost::this_thread::get_id(), vf->frame()); encoded = vf->encode_locally (); TIMING ("encoder thread %1 finishes local encode of %2", boost::this_thread::get_id(), vf->frame()); } catch (std::exception& e) { _film->log()->log (String::compose ("Local encode failed (%1)", e.what ())); } } if (encoded) { encoded->write (_opt, vf->frame ()); frame_done (vf->frame ()); } else { lock.lock (); _film->log()->log ( String::compose ("Encoder thread %1 pushes frame %2 back onto queue after failure", boost::this_thread::get_id(), vf->frame()) ); _queue.push_front (vf); lock.unlock (); } if (remote_backoff > 0) { dvdomatic_sleep (remote_backoff); } lock.lock (); _worker_condition.notify_all (); } } void J2KWAVEncoder::process_begin (int64_t audio_channel_layout) { if (_film->audio_sample_rate() != _film->target_audio_sample_rate()) { #ifdef HAVE_SWRESAMPLE stringstream s; s << "Will resample audio from " << _film->audio_sample_rate() << " to " << _film->target_audio_sample_rate(); _film->log()->log (s.str ()); /* We will be using planar float data when we call the resampler */ _swr_context = swr_alloc_set_opts ( 0, audio_channel_layout, AV_SAMPLE_FMT_FLTP, _film->target_audio_sample_rate(), audio_channel_layout, AV_SAMPLE_FMT_FLTP, _film->audio_sample_rate(), 0, 0 ); swr_init (_swr_context); #else throw EncodeError ("Cannot resample audio as libswresample is not present"); #endif } else { #ifdef HAVE_SWRESAMPLE _swr_context = 0; #endif } for (int i = 0; i < Config::instance()->num_local_encoding_threads (); ++i) { _worker_threads.push_back (new boost::thread (boost::bind (&J2KWAVEncoder::encoder_thread, this, (ServerDescription *) 0))); } vector servers = Config::instance()->servers (); for (vector::iterator i = servers.begin(); i != servers.end(); ++i) { for (int j = 0; j < (*i)->threads (); ++j) { _worker_threads.push_back (new boost::thread (boost::bind (&J2KWAVEncoder::encoder_thread, this, *i))); } } } void J2KWAVEncoder::process_end () { boost::mutex::scoped_lock lock (_worker_mutex); _film->log()->log ("Clearing queue of " + lexical_cast (_queue.size ())); /* Keep waking workers until the queue is empty */ while (!_queue.empty ()) { _film->log()->log ("Waking with " + lexical_cast (_queue.size ())); _worker_condition.notify_all (); _worker_condition.wait (lock); } lock.unlock (); terminate_worker_threads (); _film->log()->log ("Mopping up " + lexical_cast (_queue.size())); /* The following sequence of events can occur in the above code: 1. a remote worker takes the last image off the queue 2. the loop above terminates 3. the remote worker fails to encode the image and puts it back on the queue 4. the remote worker is then terminated by terminate_worker_threads So just mop up anything left in the queue here. */ for (list >::iterator i = _queue.begin(); i != _queue.end(); ++i) { _film->log()->log (String::compose ("Encode left-over frame %1", (*i)->frame ())); try { shared_ptr e = (*i)->encode_locally (); e->write (_opt, (*i)->frame ()); frame_done ((*i)->frame ()); } catch (std::exception& e) { _film->log()->log (String::compose ("Local encode failed (%1)", e.what ())); } } #if HAVE_SWRESAMPLE if (_swr_context) { shared_ptr out (new AudioBuffers (_film->audio_channels(), 256)); while (1) { int const frames = swr_convert (_swr_context, (uint8_t **) out->data(), 256, 0, 0); if (frames < 0) { throw EncodeError ("could not run sample-rate converter"); } if (frames == 0) { break; } write_audio (out); } swr_free (&_swr_context); } #endif int const dcp_sr = dcp_audio_sample_rate (_film->audio_sample_rate ()); int64_t const extra_audio_frames = dcp_sr - (_audio_frames_written % dcp_sr); shared_ptr silence (new AudioBuffers (_film->audio_channels(), extra_audio_frames)); silence->make_silent (); write_audio (silence); close_sound_files (); /* Rename .wav.tmp files to .wav */ for (int i = 0; i < _film->audio_channels(); ++i) { if (boost::filesystem::exists (_opt->multichannel_audio_out_path (i, false))) { boost::filesystem::remove (_opt->multichannel_audio_out_path (i, false)); } boost::filesystem::rename (_opt->multichannel_audio_out_path (i, true), _opt->multichannel_audio_out_path (i, false)); } } void J2KWAVEncoder::process_audio (shared_ptr audio) { shared_ptr resampled; #if HAVE_SWRESAMPLE /* Maybe sample-rate convert */ if (_swr_context) { /* Compute the resampled frames count and add 32 for luck */ int const max_resampled_frames = ceil (audio->frames() * _film->target_audio_sample_rate() / _film->audio_sample_rate()) + 32; resampled.reset (new AudioBuffers (_film->audio_channels(), max_resampled_frames)); /* Resample audio */ int const resampled_frames = swr_convert ( _swr_context, (uint8_t **) resampled->data(), max_resampled_frames, (uint8_t const **) audio->data(), audio->frames() ); if (resampled_frames < 0) { throw EncodeError ("could not run sample-rate converter"); } resampled->set_frames (resampled_frames); /* And point our variables at the resampled audio */ audio = resampled; } #endif write_audio (audio); } void J2KWAVEncoder::write_audio (shared_ptr audio) { for (int i = 0; i < _film->audio_channels(); ++i) { sf_write_float (_sound_files[i], audio->data(i), audio->frames()); } _audio_frames_written += audio->frames (); }