using std::vector;
using std::list;
using std::cout;
+using std::pair;
using boost::shared_ptr;
using boost::lexical_cast;
string
FFmpegContent::summary () const
{
- return String::compose (_("Movie: %1"), file().filename().string());
+ return String::compose (_("%1 [movie]"), file().filename().string());
+}
+
+string
+FFmpegContent::technical_summary () const
+{
+ string as = "none";
+ if (_audio_stream) {
+ as = String::compose ("id %1", _audio_stream->id);
+ }
+
+ string ss = "none";
+ if (_subtitle_stream) {
+ ss = String::compose ("id %1", _subtitle_stream->id);
+ }
+
+ pair<string, string> filt = Filter::ffmpeg_strings (_filters);
+
+ return Content::technical_summary() + " - "
+ + VideoContent::technical_summary() + " - "
+ + String::compose (
+ "ffmpeg: audio %1, subtitle %2, filters %3 %4", as, ss, filt.first, filt.second
+ );
}
string
/* Resample to a DCI-approved sample rate */
double t = dcp_audio_frame_rate (content_audio_frame_rate ());
- FrameRateConversion frc (video_frame_rate(), film->dcp_video_frame_rate());
+ FrameRateConversion frc (video_frame_rate(), film->video_frame_rate());
/* Compensate if the DCP is being run at a different frame rate
to the source; that is, if the video is run such that it will
*/
if (frc.change_speed) {
- t *= video_frame_rate() * frc.factor() / film->dcp_video_frame_rate();
+ t *= video_frame_rate() * frc.factor() / film->video_frame_rate();
}
return rint (t);
shared_ptr<const Film> film = _film.lock ();
assert (film);
- FrameRateConversion frc (video_frame_rate (), film->dcp_video_frame_rate ());
- return video_length() * frc.factor() * TIME_HZ / film->dcp_video_frame_rate ();
+ FrameRateConversion frc (video_frame_rate (), film->video_frame_rate ());
+ return video_length() * frc.factor() * TIME_HZ / film->video_frame_rate ();
}
AudioMapping
return s.str ();
}
+