return boost::filesystem::path ();
}
- return film->audio_analysis_path (dynamic_pointer_cast<const AudioContent> (shared_from_this ()));
+ boost::filesystem::path p = film->audio_analysis_dir ();
+ p /= digest ();
+ return p;
}
string
AudioContent::technical_summary () const
{
- return String::compose ("audio: channels %1, length %2, raw rate %3, out rate %4", audio_channels(), audio_length(), content_audio_frame_rate(), output_audio_frame_rate());
-}
-
-/** Note: this is not particularly fast, as the FrameRateChange lookup
- * is not very intelligent.
- *
- * @param t Some duration to convert.
- * @param at The time within the DCP to get the active frame rate change from; i.e. a point at which
- * the `controlling' video content is active.
- */
-AudioFrame
-AudioContent::time_to_content_audio_frames (DCPTime t, DCPTime at) const
-{
- shared_ptr<const Film> film = _film.lock ();
- assert (film);
-
- /* Consider the case where we're running a 25fps video at 24fps (i.e. slow)
- Our audio is at 44.1kHz. We will resample it to 48000 * 25 / 24 and then
- run it at 48kHz (i.e. slow, to match).
-
- After 1 second, we'll have run the equivalent of 44.1kHz * 24 / 25 samples
- in the source.
- */
-
- return rint (t * content_audio_frame_rate() * film->active_frame_rate_change(at).speed_up / TIME_HZ);
+ return String::compose (
+ "audio: channels %1, length %2, raw rate %3, out rate %4",
+ audio_channels(),
+ audio_length().seconds(),
+ content_audio_frame_rate(),
+ output_audio_frame_rate()
+ );
}
projects / dcpomatic.git / blobdiff