using std::pair;
using std::string;
using std::ifstream;
+using std::list;
using std::cout;
using boost::shared_ptr;
-unsigned int const Writer::_maximum_frames_in_memory = 8;
+int const Writer::_maximum_frames_in_memory = 8;
Writer::Writer (shared_ptr<Film> f)
: _film (f)
, _first_nonexistant_frame (0)
, _thread (0)
, _finish (false)
+ , _queued_full_in_memory (0)
, _last_written_frame (-1)
+ , _full_written (0)
+ , _fake_written (0)
+ , _repeat_written (0)
+ , _pushed_to_disk (0)
{
+ /* Remove any old DCP */
+ boost::filesystem::remove_all (_film->dir (_film->dcp_name ()));
+
check_existing_picture_mxf ();
/* Create our picture asset in a subdirectory, named according to those
_picture_asset_writer = _picture_asset->start_write (_first_nonexistant_frame > 0);
- if (_film->audio_channels() > 0) {
+ AudioMapping m (_film->audio_channels ());
+
+ if (m.dcp_channels() > 0) {
_sound_asset.reset (
new libdcp::SoundAsset (
_film->dir (_film->dcp_name()),
"audio.mxf",
DCPFrameRate (_film->frames_per_second()).frames_per_second,
- _film->audio_channels(),
+ m.dcp_channels (),
dcp_audio_sample_rate (_film->audio_stream()->sample_rate())
)
);
_sound_asset_writer = _sound_asset->start_write ();
}
-
+
_thread = new boost::thread (boost::bind (&Writer::thread, this));
}
qi.encoded = encoded;
qi.frame = frame;
_queue.push_back (qi);
+ ++_queued_full_in_memory;
_condition.notify_all ();
}
void
Writer::thread ()
+try
{
while (1)
{
boost::mutex::scoped_lock lock (_mutex);
while (1) {
+
+ _queue.sort ();
+
if (_finish ||
- _queue.size() > _maximum_frames_in_memory ||
+ _queued_full_in_memory > _maximum_frames_in_memory ||
(!_queue.empty() && _queue.front().frame == (_last_written_frame + 1))) {
-
- break;
- }
-
- TIMING ("writer sleeps with a queue of %1; %2 pending", _queue.size(), _pending.size());
- _condition.wait (lock);
- TIMING ("writer wakes with a queue of %1", _queue.size());
-
- _queue.sort ();
+
+ break;
+ }
+
+ TIMING ("writer sleeps with a queue of %1", _queue.size());
+ _condition.wait (lock);
+ TIMING ("writer wakes with a queue of %1", _queue.size());
}
- if (_finish && _queue.empty() && _pending.empty()) {
+ if (_finish && _queue.empty()) {
return;
}
while (!_queue.empty() && _queue.front().frame == (_last_written_frame + 1)) {
QueueItem qi = _queue.front ();
_queue.pop_front ();
+ if (qi.type == QueueItem::FULL && qi.encoded) {
+ --_queued_full_in_memory;
+ }
lock.unlock ();
switch (qi.type) {
case QueueItem::FULL:
{
_film->log()->log (String::compose ("Writer FULL-writes %1 to MXF", qi.frame));
+ if (!qi.encoded) {
+ qi.encoded.reset (new EncodedData (_film->j2c_path (qi.frame, false)));
+ }
libdcp::FrameInfo const fin = _picture_asset_writer->write (qi.encoded->data(), qi.encoded->size());
qi.encoded->write_info (_film, qi.frame, fin);
_last_written = qi.encoded;
+ ++_full_written;
break;
}
case QueueItem::FAKE:
_film->log()->log (String::compose ("Writer FAKE-writes %1 to MXF", qi.frame));
_picture_asset_writer->fake_write (qi.size);
_last_written.reset ();
+ ++_fake_written;
break;
case QueueItem::REPEAT:
{
_film->log()->log (String::compose ("Writer REPEAT-writes %1 to MXF", qi.frame));
libdcp::FrameInfo const fin = _picture_asset_writer->write (_last_written->data(), _last_written->size());
_last_written->write_info (_film, qi.frame, fin);
+ ++_repeat_written;
break;
}
}
++_last_written_frame;
}
- while (_queue.size() > _maximum_frames_in_memory) {
+ while (_queued_full_in_memory > _maximum_frames_in_memory) {
/* Too many frames in memory which can't yet be written to the stream.
- Put some in our pending list (and write FULL queue items' data to disk)
+ Write some FULL frames to disk.
*/
- QueueItem qi = _queue.back ();
- _queue.pop_back ();
-
- if (qi.type == QueueItem::FULL) {
- lock.unlock ();
- _film->log()->log (String::compose ("Writer full (awaiting %1); pushes %2 to disk", _last_written_frame + 1, qi.frame));
- qi.encoded->write (_film, qi.frame);
- lock.lock ();
- qi.encoded.reset ();
+ /* Find one */
+ list<QueueItem>::reverse_iterator i = _queue.rbegin ();
+ while (i != _queue.rend() && (i->type != QueueItem::FULL || !i->encoded)) {
+ ++i;
}
- _pending.push_back (qi);
- }
-
- while (_queue.size() < _maximum_frames_in_memory && !_pending.empty()) {
- /* We have some space in memory. Fetch some frames back off disk. */
-
- _pending.sort ();
- QueueItem qi = _pending.front ();
+ assert (i != _queue.rend());
+ QueueItem qi = *i;
- if (qi.type == QueueItem::FULL) {
- lock.unlock ();
- _film->log()->log (String::compose ("Writer pulls %1 back from disk", qi.frame));
- shared_ptr<const EncodedData> encoded;
- qi.encoded.reset (new EncodedData (_film->j2c_path (qi.frame, false)));
- lock.lock ();
- }
-
- _queue.push_back (qi);
- _pending.remove (qi);
+ ++_pushed_to_disk;
+
+ lock.unlock ();
+ _film->log()->log (String::compose ("Writer full (awaiting %1); pushes %2 to disk", _last_written_frame + 1, qi.frame));
+ qi.encoded->write (_film, qi.frame);
+ lock.lock ();
+ qi.encoded.reset ();
+ --_queued_full_in_memory;
}
}
-
+}
+catch (...)
+{
+ store_current ();
}
void
lock.unlock ();
_thread->join ();
+ if (thrown ()) {
+ rethrow ();
+ }
+
delete _thread;
_thread = 0;
));
dcp.write_xml ();
+
+ _film->log()->log (String::compose ("Wrote %1 FULL, %2 FAKE, %3 REPEAT; %4 pushed to disk", _full_written, _fake_written, _repeat_written, _pushed_to_disk));
}
/** Tell the writer that frame `f' should be a repeat of the frame before it */
return;
}
- while (_first_nonexistant_frame < _film->dcp_intrinsic_duration ()) {
+ while (1) {
/* Read the frame info as written */
ifstream ifi (_film->info_path (_first_nonexistant_frame).c_str());
fclose (mxf);
}
-/** @return true if the fake write succeeded, otherwise false */
+/** @param frame Frame index.
+ * @return true if we can fake-write this frame.
+ */
bool
Writer::can_fake_write (int frame) const
{
+ /* We have to do a proper write of the first frame so that we can set up the JPEG2000
+ parameters in the MXF writer.
+ */
return (frame != 0 && frame < _first_nonexistant_frame);
}
-
bool
operator< (QueueItem const & a, QueueItem const & b)
{