/** * @file * @brief Implementation of reading 3D scans * @author Kai Lingemann. Institute of Computer Science, University of Osnabrueck, Germany. * @author Andreas Nuechter. Institute of Computer Science, University of Osnabrueck, Germany. */ #include "slam6d/scan_io_ks_rgb.h" #include "slam6d/globals.icc" #include using std::ifstream; #include using std::cout; using std::cerr; using std::endl; #ifdef _MSC_VER #include #endif /** * Reads specified scans from given directory. * * Scan poses will NOT be initialized after a call * to this function. * * This function actually implements loading of 3D scans * in UOS file format and will be compiled as shared lib. * * @param start Starts to read with this scan * @param end Stops with this scan * @param dir The directory from which to read * @param maxDist Reads only Points up to this Distance * @param mindist Reads only Points from this Distance * @param euler Initital pose estimates (will not be applied to the points * @param ptss Vector containing the read points */ int ScanIO_ks_rgb::readScans(int start, int end, string &dir, int maxDist, int mindist, double *euler, vector &ptss) { static int fileCounter = start; string scanFileName; string poseFileName; ifstream scan_in, pose_in; double maxDist2 = sqr(maxDist); double minDist2 = sqr(mindist); int my_fileNr = fileCounter; if (end > -1 && fileCounter > end) return -1; // 'nuf read scanFileName = dir + "Color_ScanPos" + to_string(fileCounter,3) + " - Scan001.txt"; poseFileName = dir + "scan" + to_string(fileCounter,3) + ".pose"; scan_in.open(scanFileName.c_str()); pose_in.open(poseFileName.c_str()); // read 3D scan if (!pose_in.good() && !scan_in.good()) return -1; // no more files in the directory if (!scan_in.good()) return -1; // no more files in the directory if (!pose_in.good()) { cerr << "ERROR: Missing file " << poseFileName << endl; exit(1); } if (!scan_in.good()) { cerr << "ERROR: Missing file " << scanFileName << endl; exit(1); } cout << "Processing Scan " << scanFileName; for (unsigned int i = 0; i < 6; pose_in >> euler[i++]); cout << " @ pose (" << euler[0] << "," << euler[1] << "," << euler[2] << "," << euler[3] << "," << euler[4] << "," << euler[5] << ")" << endl; // convert angles from deg to rad for (unsigned int i = 3; i <= 5; i++) euler[i] = rad(euler[i]); // overread the first line char dummy[255]; scan_in.getline(dummy, 255); // format: X[m] Y[m] Z[m] R[0..1] G[0..1] B[0..1] Amplitude[0..1] Reflectance[] float r, g, b; while (scan_in.good()) { Point p; try { scan_in >> p.x; scan_in >> p.z; scan_in >> p.y; scan_in >> r; scan_in >> g; scan_in >> b; scan_in >> p.amplitude; scan_in >> p.reflectance; // that's REALLY not the best way to deal with a fixed offset... well, quick hack! ;-) // seems to hold for all of their scans p.x -= 70000.0; p.z -= 20000.0; p.x *= 100.0; p.y *= 100.0; p.z *= 100.0; p.rgb[0] = (char)(r * 255.0); p.rgb[1] = (char)(g * 255.0); p.rgb[2] = (char)(b * 255.0); } catch (...) { break; } // load points up to a certain distance only // maxDist2 = -1 indicates no limitation if (maxDist == -1 || sqr(p.x) + sqr(p.y) + sqr(p.z) < maxDist2) if (mindist == -1 || sqr(p.x) + sqr(p.y) + sqr(p.z) > minDist2) ptss.push_back(p); } scan_in.close(); scan_in.clear(); pose_in.close(); pose_in.clear(); fileCounter++; return my_fileNr; } /** * class factory for object construction * * @return Pointer to new object */ #ifdef _MSC_VER extern "C" __declspec(dllexport) ScanIO* create() #else extern "C" ScanIO* create() #endif { return new ScanIO_ks_rgb; } /** * class factory for object construction * * @return Pointer to new object */ #ifdef _MSC_VER extern "C" __declspec(dllexport) void destroy(ScanIO *sio) #else extern "C" void destroy(ScanIO *sio) #endif { delete sio; } #ifdef _MSC_VER BOOL APIENTRY DllMain(HANDLE hModule, DWORD dwReason, LPVOID lpReserved) { return TRUE; } #endif