+ DCPOMATIC_ASSERT (false);
+ }
+
+ /* Now VideoDecoder is required never to have gaps in the frames that it presents
+ via get_video(). Hence we need to fill in any gap between the last thing in _decoded
+ and the things we are about to push.
+ */
+
+ optional<VideoFrame> from;
+
+ if (_decoded.empty() && _last_seek_time && _last_seek_accurate) {
+ from = VideoFrame (
+ _last_seek_time->frames_round (_content->active_video_frame_rate ()),
+ _content->video->frame_type() == VIDEO_FRAME_TYPE_2D ? EYES_BOTH : EYES_LEFT
+ );
+ } else if (!_decoded.empty ()) {
+ from = _decoded.back().frame;
+ ++(*from);
+ }
+
+ /* If we've pre-rolled on a seek we may now receive out-of-order frames
+ (frames before the last seek time) which we can just ignore.
+ */
+
+ if (from && (*from) > to_push.front().frame) {
+ return;
+ }
+
+ if (from) {
+ switch (_content->video->frame_type ()) {
+ case VIDEO_FRAME_TYPE_2D:
+ fill_one_eye (from->index(), to_push.front().frame.index(), EYES_BOTH);
+ break;
+ case VIDEO_FRAME_TYPE_3D:
+ case VIDEO_FRAME_TYPE_3D_LEFT_RIGHT:
+ case VIDEO_FRAME_TYPE_3D_TOP_BOTTOM:
+ case VIDEO_FRAME_TYPE_3D_ALTERNATE:
+ fill_both_eyes (from.get(), to_push.front().frame);
+ break;
+ case VIDEO_FRAME_TYPE_3D_LEFT:
+ fill_one_eye (from->index(), to_push.front().frame.index(), EYES_LEFT);
+ break;
+ case VIDEO_FRAME_TYPE_3D_RIGHT:
+ fill_one_eye (from->index(), to_push.front().frame.index(), EYES_RIGHT);
+ break;
+ }
+ }
+
+ copy (to_push.begin(), to_push.end(), back_inserter (_decoded));
+
+ /* We can't let this build up too much or we will run out of memory. There is a
+ `best' value for the allowed size of _decoded which balances memory use
+ with decoding efficiency (lack of seeks). Throwing away video frames here
+ is not a problem for correctness, so do it.
+ */
+ while (_decoded.size() > 96) {
+ _decoded.pop_back ();