[](state_pair const& a, state_pair const& b) { return a.second.last_push_end.get() < b.second.last_push_end.get(); }
);
+ std::map<AudioStreamPtr, StreamState> alive_stream_states;
+
if (latest_last_push_end != have_pushed.end()) {
LOG_DEBUG_PLAYER("Leading audio stream is in %1 at %2", latest_last_push_end->second.piece->content->path(0), to_string(latest_last_push_end->second.last_push_end.get()));
- }
- /* Now make a list of those streams that are less than ignore_streams_behind behind the leader */
- std::map<AudioStreamPtr, StreamState> alive_stream_states;
- for (auto const& i: _stream_states) {
- if (!i.second.last_push_end || (latest_last_push_end->second.last_push_end.get() - i.second.last_push_end.get()) < dcpomatic::DCPTime::from_seconds(ignore_streams_behind)) {
- alive_stream_states.insert(i);
- } else {
- LOG_DEBUG_PLAYER("Ignoring stream %1 because it is too far behind", i.second.piece->content->path(0));
+ /* Now make a list of those streams that are less than ignore_streams_behind behind the leader */
+ for (auto const& i: _stream_states) {
+ if (!i.second.last_push_end || (latest_last_push_end->second.last_push_end.get() - i.second.last_push_end.get()) < dcpomatic::DCPTime::from_seconds(ignore_streams_behind)) {
+ alive_stream_states.insert(i);
+ } else {
+ LOG_DEBUG_PLAYER("Ignoring stream %1 because it is too far behind", i.second.piece->content->path(0));
+ }
}
}