int const Encoder::_history_size = 25;
-/** @param f Film that we are encoding.
- * @param o Options.
- */
-Encoder::Encoder (shared_ptr<const Film> f)
+/** @param f Film that we are encoding */
+Encoder::Encoder (shared_ptr<Film> f)
: _film (f)
- , _just_skipped (false)
, _video_frames_in (0)
, _video_frames_out (0)
#ifdef HAVE_SWRESAMPLE
, _swr_context (0)
#endif
, _have_a_real_frame (false)
- , _terminate_encoder (false)
+ , _terminate (false)
{
}
Encoder::~Encoder ()
{
- terminate_worker_threads ();
+ terminate_threads ();
if (_writer) {
_writer->finish ();
}
}
for (int i = 0; i < Config::instance()->num_local_encoding_threads (); ++i) {
- _worker_threads.push_back (new boost::thread (boost::bind (&Encoder::encoder_thread, this, (ServerDescription *) 0)));
+ _threads.push_back (new boost::thread (boost::bind (&Encoder::encoder_thread, this, (ServerDescription *) 0)));
}
vector<ServerDescription*> servers = Config::instance()->servers ();
for (vector<ServerDescription*>::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 (&Encoder::encoder_thread, this, *i)));
+ _threads.push_back (new boost::thread (boost::bind (&Encoder::encoder_thread, this, *i)));
}
}
}
out->set_frames (frames);
- _writer->write (out);
+ write_audio (out);
}
swr_free (&_swr_context);
}
#endif
- boost::mutex::scoped_lock lock (_worker_mutex);
+ boost::mutex::scoped_lock lock (_mutex);
- _film->log()->log ("Clearing queue of " + lexical_cast<string> (_encode_queue.size ()));
+ _film->log()->log ("Clearing queue of " + lexical_cast<string> (_queue.size ()));
/* Keep waking workers until the queue is empty */
- while (!_encode_queue.empty ()) {
- _film->log()->log ("Waking with " + lexical_cast<string> (_encode_queue.size ()), Log::VERBOSE);
- _worker_condition.notify_all ();
- _worker_condition.wait (lock);
+ while (!_queue.empty ()) {
+ _film->log()->log ("Waking with " + lexical_cast<string> (_queue.size ()), Log::VERBOSE);
+ _condition.notify_all ();
+ _condition.wait (lock);
}
lock.unlock ();
- terminate_worker_threads ();
+ terminate_threads ();
- _film->log()->log ("Mopping up " + lexical_cast<string> (_encode_queue.size()));
+ _film->log()->log ("Mopping up " + lexical_cast<string> (_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
+ 4. the remote worker is then terminated by terminate_threads
So just mop up anything left in the queue here.
*/
- for (list<shared_ptr<DCPVideoFrame> >::iterator i = _encode_queue.begin(); i != _encode_queue.end(); ++i) {
+ for (list<shared_ptr<DCPVideoFrame> >::iterator i = _queue.begin(); i != _queue.end(); ++i) {
_film->log()->log (String::compose ("Encode left-over frame %1", (*i)->frame ()));
try {
_writer->write ((*i)->encode_locally(), (*i)->frame ());
return _history_size / (seconds (now) - seconds (_time_history.back ()));
}
-/** @return true if the last frame to be processed was skipped as it already existed */
-bool
-Encoder::skipping () const
-{
- boost::mutex::scoped_lock (_history_mutex);
- return _just_skipped;
-}
-
/** @return Number of video frames that have been sent out */
int
Encoder::video_frames_out () const
Encoder::frame_done ()
{
boost::mutex::scoped_lock lock (_history_mutex);
- _just_skipped = false;
struct timeval tv;
gettimeofday (&tv, 0);
}
}
-/** Called by a subclass when it has just skipped the processing
- of a frame because it has already been done.
-*/
-void
-Encoder::frame_skipped ()
-{
- boost::mutex::scoped_lock lock (_history_mutex);
- _just_skipped = true;
-}
-
void
Encoder::process_video (shared_ptr<Image> image, bool same, boost::shared_ptr<Subtitle> sub)
{
return;
}
- boost::mutex::scoped_lock lock (_worker_mutex);
+ boost::mutex::scoped_lock lock (_mutex);
/* Wait until the queue has gone down a bit */
- while (_encode_queue.size() >= _worker_threads.size() * 2 && !_terminate_encoder) {
- TIMING ("decoder sleeps with queue of %1", _encode_queue.size());
- _worker_condition.wait (lock);
- TIMING ("decoder wakes with queue of %1", _encode_queue.size());
+ while (_queue.size() >= _threads.size() * 2 && !_terminate) {
+ TIMING ("decoder sleeps with queue of %1", _queue.size());
+ _condition.wait (lock);
+ TIMING ("decoder wakes with queue of %1", _queue.size());
}
- if (_terminate_encoder) {
+ if (_terminate) {
return;
}
- /* Only do the processing if we don't already have a file for this frame */
- if (boost::filesystem::exists (_film->frame_out_path (_video_frames_out, false))) {
- frame_skipped ();
- return;
+ if (_writer->thrown ()) {
+ _writer->rethrow ();
}
- if (same && _have_a_real_frame) {
+ if (_writer->can_fake_write (_video_frames_out)) {
+ _writer->fake_write (_video_frames_out);
+ _have_a_real_frame = false;
+ frame_done ();
+ } else if (same && _have_a_real_frame) {
/* Use the last frame that we encoded. */
_writer->repeat (_video_frames_out);
frame_done ();
} else {
/* Queue this new frame for encoding */
pair<string, string> const s = Filter::ffmpeg_strings (_film->filters());
- TIMING ("adding to queue of %1", _encode_queue.size ());
- _encode_queue.push_back (boost::shared_ptr<DCPVideoFrame> (
+ TIMING ("adding to queue of %1", _queue.size ());
+ _queue.push_back (boost::shared_ptr<DCPVideoFrame> (
new DCPVideoFrame (
image, sub, _film->format()->dcp_size(), _film->format()->dcp_padding (_film),
_film->subtitle_offset(), _film->subtitle_scale(),
)
));
- _worker_condition.notify_all ();
+ _condition.notify_all ();
_have_a_real_frame = true;
}
}
#endif
- if (_film->audio_channels() == 1) {
- /* We need to switch things around so that the mono channel is on
- the centre channel of a 5.1 set (with other channels silent).
- */
-
- shared_ptr<AudioBuffers> b (new AudioBuffers (6, data->frames ()));
- b->make_silent (libdcp::LEFT);
- b->make_silent (libdcp::RIGHT);
- memcpy (b->data()[libdcp::CENTRE], data->data()[0], data->frames() * sizeof(float));
- b->make_silent (libdcp::LFE);
- b->make_silent (libdcp::LS);
- b->make_silent (libdcp::RS);
-
- data = b;
- }
-
- _writer->write (data);
+ write_audio (data);
}
void
-Encoder::terminate_worker_threads ()
+Encoder::terminate_threads ()
{
- boost::mutex::scoped_lock lock (_worker_mutex);
- _terminate_encoder = true;
- _worker_condition.notify_all ();
+ boost::mutex::scoped_lock lock (_mutex);
+ _terminate = true;
+ _condition.notify_all ();
lock.unlock ();
- for (list<boost::thread *>::iterator i = _worker_threads.begin(); i != _worker_threads.end(); ++i) {
+ for (list<boost::thread *>::iterator i = _threads.begin(); i != _threads.end(); ++i) {
(*i)->join ();
delete *i;
}
while (1) {
TIMING ("encoder thread %1 sleeps", boost::this_thread::get_id());
- boost::mutex::scoped_lock lock (_worker_mutex);
- while (_encode_queue.empty () && !_terminate_encoder) {
- _worker_condition.wait (lock);
+ boost::mutex::scoped_lock lock (_mutex);
+ while (_queue.empty () && !_terminate) {
+ _condition.wait (lock);
}
- if (_terminate_encoder) {
+ if (_terminate) {
return;
}
- TIMING ("encoder thread %1 wakes with queue of %2", boost::this_thread::get_id(), _encode_queue.size());
- boost::shared_ptr<DCPVideoFrame> vf = _encode_queue.front ();
+ TIMING ("encoder thread %1 wakes with queue of %2", boost::this_thread::get_id(), _queue.size());
+ boost::shared_ptr<DCPVideoFrame> vf = _queue.front ();
_film->log()->log (String::compose ("Encoder thread %1 pops frame %2 from queue", boost::this_thread::get_id(), vf->frame()), Log::VERBOSE);
- _encode_queue.pop_front ();
+ _queue.pop_front ();
lock.unlock ();
_film->log()->log (
String::compose ("Encoder thread %1 pushes frame %2 back onto queue after failure", boost::this_thread::get_id(), vf->frame())
);
- _encode_queue.push_front (vf);
+ _queue.push_front (vf);
lock.unlock ();
}
}
lock.lock ();
- _worker_condition.notify_all ();
+ _condition.notify_all ();
}
}
+
+void
+Encoder::write_audio (shared_ptr<const AudioBuffers> data)
+{
+ if (_film->audio_channels() == 1) {
+ /* We need to switch things around so that the mono channel is on
+ the centre channel of a 5.1 set (with other channels silent).
+ */
+
+ shared_ptr<AudioBuffers> b (new AudioBuffers (6, data->frames ()));
+ b->make_silent (libdcp::LEFT);
+ b->make_silent (libdcp::RIGHT);
+ memcpy (b->data()[libdcp::CENTRE], data->data()[0], data->frames() * sizeof(float));
+ b->make_silent (libdcp::LFE);
+ b->make_silent (libdcp::LS);
+ b->make_silent (libdcp::RS);
+
+ data = b;
+ }
+
+ _writer->write (data);
+}