ORB-SLAM3/ORB-SLAM3-UESTC/Workspace/include/Settings.h

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2023-12-15 16:08:00 +08:00
/**
* This file is part of ORB-SLAM3
*
* Copyright (C) 2017-2021 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 <http://www.gnu.org/licenses/>.
*/
#ifndef ORB_SLAM3_SETTINGS_H
#define ORB_SLAM3_SETTINGS_H
// Flag to activate the measurement of time in each process (track,localmap, place recognition).
//#define REGISTER_TIMES
#include "CameraModels/GeometricCamera.h"
#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>
#include <string>
namespace ORB_SLAM3 {
class System;
//TODO: change to double instead of float
class Settings {
public:
/*
* Enum for the different camera types implemented
*/
enum CameraType {
PinHole = 0,
Rectified = 1,
KannalaBrandt = 2
};
/*
* Delete default constructor
*/
Settings() = delete;
/*
* Constructor from file
*/
Settings(const std::string &configFile, const int& sensor);
/*
* Ostream operator overloading to dump settings to the terminal
*/
friend std::ostream &operator<<(std::ostream &output, const Settings &s);
/*
* Getter methods
*/
CameraType cameraType() {return cameraType_;}
GeometricCamera* camera1() {return calibration1_;}
GeometricCamera* camera2() {return calibration2_;}
cv::Mat camera1DistortionCoef() {return cv::Mat(vPinHoleDistorsion1_.size(),1,CV_32F,vPinHoleDistorsion1_.data());}
cv::Mat camera2DistortionCoef() {return cv::Mat(vPinHoleDistorsion2_.size(),1,CV_32F,vPinHoleDistorsion1_.data());}
Sophus::SE3f Tlr() {return Tlr_;}
float bf() {return bf_;}
float b() {return b_;}
float thDepth() {return thDepth_;}
bool needToUndistort() {return bNeedToUndistort_;}
cv::Size newImSize() {return newImSize_;}
float fps() {return fps_;}
bool rgb() {return bRGB_;}
bool needToResize() {return bNeedToResize1_;}
bool needToRectify() {return bNeedToRectify_;}
float noiseGyro() {return noiseGyro_;}
float noiseAcc() {return noiseAcc_;}
float gyroWalk() {return gyroWalk_;}
float accWalk() {return accWalk_;}
float imuFrequency() {return imuFrequency_;}
Sophus::SE3f Tbc() {return Tbc_;}
bool insertKFsWhenLost() {return insertKFsWhenLost_;}
float depthMapFactor() {return depthMapFactor_;}
int nFeatures() {return nFeatures_;}
int nLevels() {return nLevels_;}
float initThFAST() {return initThFAST_;}
float minThFAST() {return minThFAST_;}
float scaleFactor() {return scaleFactor_;}
float keyFrameSize() {return keyFrameSize_;}
float keyFrameLineWidth() {return keyFrameLineWidth_;}
float graphLineWidth() {return graphLineWidth_;}
float pointSize() {return pointSize_;}
float cameraSize() {return cameraSize_;}
float cameraLineWidth() {return cameraLineWidth_;}
float viewPointX() {return viewPointX_;}
float viewPointY() {return viewPointY_;}
float viewPointZ() {return viewPointZ_;}
float viewPointF() {return viewPointF_;}
float imageViewerScale() {return imageViewerScale_;}
std::string atlasLoadFile() {return sLoadFrom_;}
std::string atlasSaveFile() {return sSaveto_;}
float thFarPoints() {return thFarPoints_;}
cv::Mat M1l() {return M1l_;}
cv::Mat M2l() {return M2l_;}
cv::Mat M1r() {return M1r_;}
cv::Mat M2r() {return M2r_;}
private:
template<typename T>
T readParameter(cv::FileStorage& fSettings, const std::string& name, bool& found,const bool required = true){
cv::FileNode node = fSettings[name];
if(node.empty()){
if(required){
std::cerr << name << " required parameter does not exist, aborting..." << std::endl;
exit(-1);
}
else{
std::cerr << name << " optional parameter does not exist..." << std::endl;
found = false;
return T();
}
}
else{
found = true;
return (T) node;
}
}
void readCamera1(cv::FileStorage& fSettings);
void readCamera2(cv::FileStorage& fSettings);
void readImageInfo(cv::FileStorage& fSettings);
void readIMU(cv::FileStorage& fSettings);
void readRGBD(cv::FileStorage& fSettings);
void readORB(cv::FileStorage& fSettings);
void readViewer(cv::FileStorage& fSettings);
void readLoadAndSave(cv::FileStorage& fSettings);
void readOtherParameters(cv::FileStorage& fSettings);
void precomputeRectificationMaps();
int sensor_;
CameraType cameraType_; //Camera type
/*
* Visual stuff
*/
GeometricCamera* calibration1_, *calibration2_; //Camera calibration
GeometricCamera* originalCalib1_, *originalCalib2_;
std::vector<float> vPinHoleDistorsion1_, vPinHoleDistorsion2_;
cv::Size originalImSize_, newImSize_;
float fps_;
bool bRGB_;
bool bNeedToUndistort_;
bool bNeedToRectify_;
bool bNeedToResize1_, bNeedToResize2_;
Sophus::SE3f Tlr_;
float thDepth_;
float bf_, b_;
/*
* Rectification stuff
*/
cv::Mat M1l_, M2l_;
cv::Mat M1r_, M2r_;
/*
* Inertial stuff
*/
float noiseGyro_, noiseAcc_;
float gyroWalk_, accWalk_;
float imuFrequency_;
Sophus::SE3f Tbc_;
bool insertKFsWhenLost_;
/*
* RGBD stuff
*/
float depthMapFactor_;
/*
* ORB stuff
*/
int nFeatures_;
float scaleFactor_;
int nLevels_;
int initThFAST_, minThFAST_;
/*
* Viewer stuff
*/
float keyFrameSize_;
float keyFrameLineWidth_;
float graphLineWidth_;
float pointSize_;
float cameraSize_;
float cameraLineWidth_;
float viewPointX_, viewPointY_, viewPointZ_, viewPointF_;
float imageViewerScale_;
/*
* Save & load maps
*/
std::string sLoadFrom_, sSaveto_;
/*
* Other stuff
*/
float thFarPoints_;
};
};
#endif //ORB_SLAM3_SETTINGS_H