/** * This file is part of ORB-SLAM3 * * Copyright (C) 2017-2020 Carlos Campos, Richard Elvira, Juan J. Gómez Rodríguez, José M.M. Montiel and Juan D. Tardós, University of Zaragoza. * Copyright (C) 2014-2016 Raúl Mur-Artal, José M.M. Montiel and Juan D. Tardós, University of Zaragoza. * * ORB-SLAM3 is free software: you can redistribute it and/or modify it under the terms of the GNU General Public * License as published by the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * ORB-SLAM3 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even * the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along with ORB-SLAM3. * If not, see . */ #ifndef SYSTEM_H #define SYSTEM_H //#define SAVE_TIMES #include #include #include #include #include #include #include "Tracking.h" #include "FrameDrawer.h" #include "MapDrawer.h" #include "Atlas.h" #include "LocalMapping.h" #include "LoopClosing.h" #include "KeyFrameDatabase.h" #include "ORBVocabulary.h" #include "Viewer.h" #include "ImuTypes.h" namespace ORB_SLAM3 { class Verbose { public: enum eLevel { VERBOSITY_QUIET=0, VERBOSITY_NORMAL=1, VERBOSITY_VERBOSE=2, VERBOSITY_VERY_VERBOSE=3, VERBOSITY_DEBUG=4 }; static eLevel th; public: static void PrintMess(std::string str, eLevel lev) { if(lev <= th) cout << str << endl; } static void SetTh(eLevel _th) { th = _th; } }; class Viewer; class FrameDrawer; class Atlas; class Tracking; class LocalMapping; class LoopClosing; class System { public: // Input sensor enum eSensor{ MONOCULAR=0, STEREO=1, RGBD=2, IMU_MONOCULAR=3, IMU_STEREO=4 }; // File type enum eFileType{ TEXT_FILE=0, BINARY_FILE=1, }; public: // Initialize the SLAM system. It launches the Local Mapping, Loop Closing and Viewer threads. System(const string &strVocFile, const string &strSettingsFile, const eSensor sensor, const bool bUseViewer = true, const int initFr = 0, const string &strSequence = std::string(), const string &strLoadingFile = std::string()); // Proccess the given stereo frame. Images must be synchronized and rectified. // Input images: RGB (CV_8UC3) or grayscale (CV_8U). RGB is converted to grayscale. // Returns the camera pose (empty if tracking fails). cv::Mat TrackStereo(const cv::Mat &imLeft, const cv::Mat &imRight, const double ×tamp, const vector& vImuMeas = vector(), string filename=""); // Process the given rgbd frame. Depthmap must be registered to the RGB frame. // Input image: RGB (CV_8UC3) or grayscale (CV_8U). RGB is converted to grayscale. // Input depthmap: Float (CV_32F). // Returns the camera pose (empty if tracking fails). cv::Mat TrackRGBD(const cv::Mat &im, const cv::Mat &depthmap, const double ×tamp, string filename=""); // Proccess the given monocular frame and optionally imu data // Input images: RGB (CV_8UC3) or grayscale (CV_8U). RGB is converted to grayscale. // Returns the camera pose (empty if tracking fails). cv::Mat TrackMonocular(const cv::Mat &im, const double ×tamp, const vector& vImuMeas = vector(), string filename=""); // This stops local mapping thread (map building) and performs only camera tracking. void ActivateLocalizationMode(); // This resumes local mapping thread and performs SLAM again. void DeactivateLocalizationMode(); // Returns true if there have been a big map change (loop closure, global BA) // since last call to this function bool MapChanged(); // Reset the system (clear Atlas or the active map) void Reset(); void ResetActiveMap(); // All threads will be requested to finish. // It waits until all threads have finished. // This function must be called before saving the trajectory. void Shutdown(); // Save camera trajectory in the TUM RGB-D dataset format. // Only for stereo and RGB-D. This method does not work for monocular. // Call first Shutdown() // See format details at: http://vision.in.tum.de/data/datasets/rgbd-dataset void SaveTrajectoryTUM(const string &filename); // Save keyframe poses in the TUM RGB-D dataset format. // This method works for all sensor input. // Call first Shutdown() // See format details at: http://vision.in.tum.de/data/datasets/rgbd-dataset void SaveKeyFrameTrajectoryTUM(const string &filename); void SaveTrajectoryEuRoC(const string &filename); void SaveKeyFrameTrajectoryEuRoC(const string &filename); // Save data used for initialization debug void SaveDebugData(const int &iniIdx); // Save camera trajectory in the KITTI dataset format. // Only for stereo and RGB-D. This method does not work for monocular. // Call first Shutdown() // See format details at: http://www.cvlibs.net/datasets/kitti/eval_odometry.php void SaveTrajectoryKITTI(const string &filename); // TODO: Save/Load functions // SaveMap(const string &filename); // LoadMap(const string &filename); // Information from most recent processed frame // You can call this right after TrackMonocular (or stereo or RGBD) int GetTrackingState(); std::vector GetTrackedMapPoints(); std::vector GetTrackedKeyPointsUn(); // For debugging double GetTimeFromIMUInit(); bool isLost(); bool isFinished(); void ChangeDataset(); //void SaveAtlas(int type); private: //bool LoadAtlas(string filename, int type); //string CalculateCheckSum(string filename, int type); // Input sensor eSensor mSensor; // ORB vocabulary used for place recognition and feature matching. ORBVocabulary* mpVocabulary; // KeyFrame database for place recognition (relocalization and loop detection). KeyFrameDatabase* mpKeyFrameDatabase; // Map structure that stores the pointers to all KeyFrames and MapPoints. //Map* mpMap; Atlas* mpAtlas; // Tracker. It receives a frame and computes the associated camera pose. // It also decides when to insert a new keyframe, create some new MapPoints and // performs relocalization if tracking fails. Tracking* mpTracker; // Local Mapper. It manages the local map and performs local bundle adjustment. LocalMapping* mpLocalMapper; // Loop Closer. It searches loops with every new keyframe. If there is a loop it performs // a pose graph optimization and full bundle adjustment (in a new thread) afterwards. LoopClosing* mpLoopCloser; // The viewer draws the map and the current camera pose. It uses Pangolin. Viewer* mpViewer; FrameDrawer* mpFrameDrawer; MapDrawer* mpMapDrawer; // System threads: Local Mapping, Loop Closing, Viewer. // The Tracking thread "lives" in the main execution thread that creates the System object. std::thread* mptLocalMapping; std::thread* mptLoopClosing; std::thread* mptViewer; // Reset flag std::mutex mMutexReset; bool mbReset; bool mbResetActiveMap; // Change mode flags std::mutex mMutexMode; bool mbActivateLocalizationMode; bool mbDeactivateLocalizationMode; // Tracking state int mTrackingState; std::vector mTrackedMapPoints; std::vector mTrackedKeyPointsUn; std::mutex mMutexState; }; }// namespace ORB_SLAM #endif // SYSTEM_H