void identity_matcher::dispatch(frame_holder f, syncronization_environment env) { std::stringstream s; s <<_name<<"--> "<< f->get_stream()->get_stream_type() << " " << f->get_frame_number() << ", "<<std::fixed<< f->get_frame_timestamp()<<"\n"; LOG_DEBUG(s.str()); sync(std::move(f), env); }
void frame_number_composite_matcher::clean_inactive_streams(frame_holder& f) { std::vector<stream_id> inactive_matchers; for(auto m: _matchers) { if(_last_arrived[m.second.get()] && (f->get_frame_number() - _last_arrived[m.second.get()]) > 5) { inactive_matchers.push_back(m.first); m.second->set_active(false); } } for(auto id: inactive_matchers) { _frames_queue[_matchers[id].get()].clear(); } }
bool frame_number_composite_matcher::is_smaller_than(frame_holder & a, frame_holder & b) { return a->get_frame_number() < b->get_frame_number(); }
bool frame_number_composite_matcher::are_equivalent(frame_holder& a, frame_holder& b) { return a->get_frame_number() == b->get_frame_number(); }
void frame_number_composite_matcher::update_last_arrived(frame_holder& f, matcher* m) { _last_arrived[m] =f->get_frame_number(); }
void composite_matcher::sync(frame_holder f, syncronization_environment env) { std::stringstream s; s <<"SYNC "<<_name<<"--> "<< f->get_stream()->get_stream_type() << " " << f->get_frame_number() << ", "<<std::fixed<< f->get_frame_timestamp()<<"\n"; LOG_DEBUG(s.str()); update_next_expected(f); auto matcher = find_matcher(f); _frames_queue[matcher.get()].enqueue(std::move(f)); std::vector<frame_holder*> frames_arrived; std::vector<librealsense::matcher*> frames_arrived_matchers; std::vector<librealsense::matcher*> synced_frames; std::vector<librealsense::matcher*> missing_streams; do { auto old_frames = false; synced_frames.clear(); missing_streams.clear(); frames_arrived_matchers.clear(); frames_arrived.clear(); for (auto s = _frames_queue.begin(); s != _frames_queue.end(); s++) { frame_holder* f; if (s->second.peek(&f)) { frames_arrived.push_back(f); frames_arrived_matchers.push_back(s->first); } else { missing_streams.push_back(s->first); } } if (frames_arrived.size() == 0) break; frame_holder* curr_sync; if (frames_arrived.size() > 0) { curr_sync = frames_arrived[0]; synced_frames.push_back(frames_arrived_matchers[0]); } for (auto i = 1; i < frames_arrived.size(); i++) { if (are_equivalent(*curr_sync, *frames_arrived[i])) { synced_frames.push_back(frames_arrived_matchers[i]); } else if (is_smaller_than(*frames_arrived[i], *curr_sync)) { old_frames = true; synced_frames.clear(); synced_frames.push_back(frames_arrived_matchers[i]); curr_sync = frames_arrived[i]; } else { old_frames = true; } } if (!old_frames) { for (auto i : missing_streams) { if (!skip_missing_stream(synced_frames, i)) { synced_frames.clear(); break; } } } if (synced_frames.size()) { std::vector<frame_holder> match; match.reserve(synced_frames.size()); for (auto index : synced_frames) { frame_holder frame; _frames_queue[index].dequeue(&frame); match.push_back(std::move(frame)); } std::sort(match.begin(), match.end(), [](frame_holder& f1, frame_holder& f2) { return f1->get_stream()->get_unique_id()> f2->get_stream()->get_unique_id(); }); std::stringstream s; s<<"MATCHED: "; for(auto&& f: match) { auto composite = dynamic_cast<composite_frame*>(f.frame); if(composite) { for (int i = 0; i < composite->get_embedded_frames_count(); i++) { auto matched = composite->get_frame(i); s << matched->get_stream()->get_stream_type()<<" "<<matched->get_frame_timestamp()<<" "; } } else { s<<f->get_stream()->get_stream_type()<<" "<<(double)f->get_frame_timestamp()<<" "; } } s<<"\n"; LOG_DEBUG(s.str()); frame_holder composite = env.source->allocate_composite_frame(std::move(match)); if (composite.frame) { s <<"SYNCED "<<_name<<"--> "<< composite->get_stream()->get_stream_type() << " " << composite->get_frame_number() << ", "<<std::fixed<< composite->get_frame_timestamp()<<"\n"; auto cb = begin_callback(); _callback(std::move(composite), env); } } } while (synced_frames.size() > 0); }
void composite_matcher::dispatch(frame_holder f, syncronization_environment env) { std::stringstream s; s <<"DISPATCH "<<_name<<"--> "<< f->get_stream()->get_stream_type() << " " << f->get_frame_number() << ", "<<std::fixed<< f->get_frame_timestamp()<<"\n"; LOG_DEBUG(s.str()); clean_inactive_streams(f); auto matcher = find_matcher(f); update_last_arrived(f, matcher.get()); matcher->dispatch(std::move(f), env); }