tsl/tools/replay/replay.h

159 lines
5.8 KiB
C++

#pragma once
#include <algorithm>
#include <map>
#include <memory>
#include <optional>
#include <set>
#include <string>
#include <tuple>
#include <vector>
#include <utility>
#include <QThread>
#include "tools/replay/camera.h"
#include "tools/replay/route.h"
const QString DEMO_ROUTE = "a2a0ccea32023010|2023-07-27--13-01-19";
// one segment uses about 100M of memory
constexpr int MIN_SEGMENTS_CACHE = 5;
enum REPLAY_FLAGS {
REPLAY_FLAG_NONE = 0x0000,
REPLAY_FLAG_DCAM = 0x0002,
REPLAY_FLAG_ECAM = 0x0004,
REPLAY_FLAG_NO_LOOP = 0x0010,
REPLAY_FLAG_NO_FILE_CACHE = 0x0020,
REPLAY_FLAG_QCAMERA = 0x0040,
REPLAY_FLAG_NO_HW_DECODER = 0x0100,
REPLAY_FLAG_NO_VIPC = 0x0400,
REPLAY_FLAG_ALL_SERVICES = 0x0800,
};
enum class FindFlag {
nextEngagement,
nextDisEngagement,
nextUserFlag,
nextInfo,
nextWarning,
nextCritical
};
enum class TimelineType { None, Engaged, AlertInfo, AlertWarning, AlertCritical, UserFlag };
typedef bool (*replayEventFilter)(const Event *, void *);
Q_DECLARE_METATYPE(std::shared_ptr<LogReader>);
class Replay : public QObject {
Q_OBJECT
public:
Replay(QString route, QStringList allow, QStringList block, SubMaster *sm = nullptr,
uint32_t flags = REPLAY_FLAG_NONE, QString data_dir = "", QObject *parent = 0);
~Replay();
bool load();
RouteLoadError lastRouteError() const { return route_->lastError(); }
void start(int seconds = 0);
void stop();
void pause(bool pause);
void seekToFlag(FindFlag flag);
void seekTo(double seconds, bool relative);
inline bool isPaused() const { return user_paused_; }
// the filter is called in streaming thread.try to return quickly from it to avoid blocking streaming.
// the filter function must return true if the event should be filtered.
// otherwise it must return false.
inline void installEventFilter(replayEventFilter filter, void *opaque) {
filter_opaque = opaque;
event_filter = filter;
}
inline int segmentCacheLimit() const { return segment_cache_limit; }
inline void setSegmentCacheLimit(int n) { segment_cache_limit = std::max(MIN_SEGMENTS_CACHE, n); }
inline bool hasFlag(REPLAY_FLAGS flag) const { return flags_ & flag; }
inline void addFlag(REPLAY_FLAGS flag) { flags_ |= flag; }
inline void removeFlag(REPLAY_FLAGS flag) { flags_ &= ~flag; }
inline const Route* route() const { return route_.get(); }
inline double currentSeconds() const { return double(cur_mono_time_ - route_start_ts_) / 1e9; }
inline QDateTime routeDateTime() const { return route_date_time_; }
inline QDateTime currentDateTime() const { return route_date_time_.addSecs(currentSeconds()); }
inline uint64_t routeStartNanos() const { return route_start_ts_; }
inline double toSeconds(uint64_t mono_time) const { return (mono_time - route_start_ts_) / 1e9; }
inline double minSeconds() const { return !segments_.empty() ? segments_.begin()->first * 60 : 0; }
inline double maxSeconds() const { return max_seconds_; }
inline void setSpeed(float speed) { speed_ = speed; }
inline float getSpeed() const { return speed_; }
inline const std::vector<Event> *events() const { return &events_; }
inline const std::map<int, std::unique_ptr<Segment>> &segments() const { return segments_; }
inline const std::string &carFingerprint() const { return car_fingerprint_; }
inline const std::vector<std::tuple<double, double, TimelineType>> getTimeline() {
std::lock_guard lk(timeline_lock);
return timeline_;
}
signals:
void streamStarted();
void segmentsMerged();
void seeking(double sec);
void seekedTo(double sec);
void qLogLoaded(std::shared_ptr<LogReader> qlog);
void minMaxTimeChanged(double min_sec, double max_sec);
protected slots:
void segmentLoadFinished(bool success);
protected:
typedef std::map<int, std::unique_ptr<Segment>> SegmentMap;
std::optional<uint64_t> find(FindFlag flag);
void pauseStreamThread();
void startStream(const Segment *cur_segment);
void streamThread();
void updateSegmentsCache();
void loadSegmentInRange(SegmentMap::iterator begin, SegmentMap::iterator cur, SegmentMap::iterator end);
void mergeSegments(const SegmentMap::iterator &begin, const SegmentMap::iterator &end);
void updateEvents(const std::function<bool()>& update_events_function);
std::vector<Event>::const_iterator publishEvents(std::vector<Event>::const_iterator first,
std::vector<Event>::const_iterator last);
void publishMessage(const Event *e);
void publishFrame(const Event *e);
void buildTimeline();
void checkSeekProgress();
inline bool isSegmentMerged(int n) const { return merged_segments_.count(n) > 0; }
pthread_t stream_thread_id = 0;
QThread *stream_thread_ = nullptr;
std::mutex stream_lock_;
bool user_paused_ = false;
std::condition_variable stream_cv_;
std::atomic<int> current_segment_ = 0;
std::optional<double> seeking_to_;
SegmentMap segments_;
// the following variables must be protected with stream_lock_
std::atomic<bool> exit_ = false;
std::atomic<bool> paused_ = false;
bool events_ready_ = false;
QDateTime route_date_time_;
uint64_t route_start_ts_ = 0;
std::atomic<uint64_t> cur_mono_time_ = 0;
std::atomic<double> max_seconds_ = 0;
std::vector<Event> events_;
std::set<int> merged_segments_;
// messaging
SubMaster *sm = nullptr;
std::unique_ptr<PubMaster> pm;
std::vector<const char*> sockets_;
std::vector<bool> filters_;
std::unique_ptr<Route> route_;
std::unique_ptr<CameraServer> camera_server_;
std::atomic<uint32_t> flags_ = REPLAY_FLAG_NONE;
std::mutex timeline_lock;
QFuture<void> timeline_future;
std::vector<std::tuple<double, double, TimelineType>> timeline_;
std::string car_fingerprint_;
std::atomic<float> speed_ = 1.0;
replayEventFilter event_filter = nullptr;
void *filter_opaque = nullptr;
int segment_cache_limit = MIN_SEGMENTS_CACHE;
};