示例#1
0
int main(int argc, char * argv[])
{
	signal(SIGABRT, &sighandler);
	signal(SIGTERM, &sighandler);
	signal(SIGINT, &sighandler);

	/*for(int i=0; i<argc; i++)
	{
		printf("argv[%d] = %s\n", i, argv[i]);
	}*/
	const ParametersMap & defaultParameters = Parameters::getDefaultParameters();
	if(argc < 2)
	{
		showUsage();
	}
	else if(argc == 2 && strcmp(argv[1], "-v") == 0)
	{
		printf("%s\n", Rtabmap::getVersion().c_str());
		exit(0);
	}
	else if(argc == 2 && strcmp(argv[1], "-default_params") == 0)
	{
		for(ParametersMap::const_iterator iter = defaultParameters.begin(); iter!=defaultParameters.end(); ++iter)
		{
			printf("%s=%s\n", iter->first.c_str(), iter->second.c_str());
		}
		exit(0);
	}
	printf("\n");

	std::string path;
	float timeThreshold = 0.0;
	float rate = 0.0;
	int loopDataset = 0;
	int repeat = 0;
	bool createGT = false;
	int imageWidth = 0;
	int imageHeight = 0;
	int startAt = 1;
	ParametersMap pm;
	ULogger::Level logLevel = ULogger::kError;
	ULogger::Level exitLevel = ULogger::kFatal;

	for(int i=1; i<argc; ++i)
	{
		if(i == argc-1)
		{
			// The last must be the path
			path = argv[i];
			if(!UDirectory::exists(path.c_str()) && !UFile::exists(path.c_str()))
			{
				printf("Path not valid : %s\n", path.c_str());
				showUsage();
				exit(1);
			}
			break;
		}
		if(strcmp(argv[i], "-t") == 0)
		{
			++i;
			if(i < argc)
			{
				timeThreshold = std::atof(argv[i]);
				if(timeThreshold < 0)
				{
					showUsage();
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}
		if(strcmp(argv[i], "-rate") == 0)
		{
			++i;
			if(i < argc)
			{
				rate = std::atof(argv[i]);
				if(rate < 0)
				{
					showUsage();
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}
		if(strcmp(argv[i], "-rateHz") == 0)
		{
			++i;
			if(i < argc)
			{
				rate = std::atof(argv[i]);
				if(rate < 0)
				{
					showUsage();
				}
				else if(rate)
				{
					rate = 1/rate;
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}
		if(strcmp(argv[i], "-repeat") == 0)
		{
			++i;
			if(i < argc)
			{
				repeat = std::atoi(argv[i]);
				if(repeat < 1)
				{
					showUsage();
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}
		if(strcmp(argv[i], "-image_width") == 0)
		{
			++i;
			if(i < argc)
			{
				imageWidth = std::atoi(argv[i]);
				if(imageWidth < 0)
				{
					showUsage();
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}
		if(strcmp(argv[i], "-image_height") == 0)
		{
			++i;
			if(i < argc)
			{
				imageHeight = std::atoi(argv[i]);
				if(imageHeight < 0)
				{
					showUsage();
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}
		if(strcmp(argv[i], "-start_at") == 0)
		{
			++i;
			if(i < argc)
			{
				startAt = std::atoi(argv[i]);
				if(startAt < 0)
				{
					showUsage();
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}
		if(strcmp(argv[i], "-createGT") == 0)
		{
			createGT = true;
			continue;
		}
		if(strcmp(argv[i], "-debug") == 0)
		{
			logLevel = ULogger::kDebug;
			continue;
		}
		if(strcmp(argv[i], "-info") == 0)
		{
			logLevel = ULogger::kInfo;
			continue;
		}
		if(strcmp(argv[i], "-warn") == 0)
		{
			logLevel = ULogger::kWarning;
			continue;
		}
		if(strcmp(argv[i], "-exit_warn") == 0)
		{
			exitLevel = ULogger::kWarning;
			continue;
		}
		if(strcmp(argv[i], "-exit_error") == 0)
		{
			exitLevel = ULogger::kError;
			continue;
		}

		// Check for RTAB-Map's parameters
		std::string key = argv[i];
		key = uSplit(key, '-').back();
		if(defaultParameters.find(key) != defaultParameters.end())
		{
			++i;
			if(i < argc)
			{
				std::string value = argv[i];
				if(value.empty())
				{
					showUsage();
				}
				else
				{
					value = uReplaceChar(value, ',', ' ');
				}
				std::pair<ParametersMap::iterator, bool> inserted = pm.insert(ParametersPair(key, value));
				if(inserted.second == false)
				{
					inserted.first->second = value;
				}
			}
			else
			{
				showUsage();
			}
			continue;
		}

		printf("Unrecognized option : %s\n", argv[i]);
		showUsage();
	}

	if(repeat && createGT)
	{
		printf("Cannot create a Ground truth if repeat is on.\n");
		showUsage();
	}
	else if((imageWidth && imageHeight == 0) ||
			(imageHeight && imageWidth == 0))
	{
		printf("If imageWidth is set, imageHeight must be too.\n");
		showUsage();
	}

	UTimer timer;
	timer.start();
	std::queue<double> iterationMeanTime;

	Camera * camera = 0;
	if(UDirectory::exists(path))
	{
		camera = new CameraImages(path, startAt, false, 1/rate, imageWidth, imageHeight);
	}
	else
	{
		camera = new CameraVideo(path, 1/rate, imageWidth, imageHeight);
	}

	if(!camera || !camera->init())
	{
		printf("Camera init failed, using path \"%s\"\n", path.c_str());
		exit(1);
	}

	std::map<int, int> groundTruth;

	ULogger::setType(ULogger::kTypeConsole);
	//ULogger::setType(ULogger::kTypeFile, rtabmap.getWorkingDir()+"/LogConsole.txt", false);
	//ULogger::setBuffered(true);
	ULogger::setLevel(logLevel);
	ULogger::setExitLevel(exitLevel);

	// Create tasks : memory is deleted
	Rtabmap rtabmap;
	// Disable statistics (we don't need them)
	pm.insert(ParametersPair(Parameters::kRtabmapPublishStats(), "false"));
	// use default working directory
	pm.insert(ParametersPair(Parameters::kRtabmapWorkingDirectory(), Parameters::defaultRtabmapWorkingDirectory()));
	pm.insert(ParametersPair(Parameters::kRGBDEnabled(), "false"));

	rtabmap.init(pm);
	rtabmap.setTimeThreshold(timeThreshold); // in ms

	printf("Avpd init time = %fs\n", timer.ticks());

	// Start thread's task
	int loopClosureId;
	int count = 0;
	int countLoopDetected=0;

	printf("\nParameters : \n");
	printf(" Data set : %s\n", path.c_str());
	printf(" Time threshold = %1.2f ms\n", timeThreshold);
	printf(" Image rate = %1.2f s (%1.2f Hz)\n", rate, 1/rate);
	printf(" Repeating data set = %s\n", repeat?"true":"false");
	printf(" Camera width=%d, height=%d (0 is default)\n", imageWidth, imageHeight);
	printf(" Camera starts at image %d (default 1)\n", startAt);
	if(createGT)
	{
		printf(" Creating the ground truth matrix.\n");
	}
	printf(" INFO: All other parameters are set to defaults\n");
	if(pm.size()>1)
	{
		printf("   Overwritten parameters :\n");
		for(ParametersMap::iterator iter = pm.begin(); iter!=pm.end(); ++iter)
		{
			printf("    %s=%s\n",iter->first.c_str(), iter->second.c_str());
		}
	}
	if(rtabmap.getWM().size() || rtabmap.getSTM().size())
	{
		printf("[Warning] RTAB-Map database is not empty (%s)\n", (rtabmap.getWorkingDir()+Parameters::getDefaultDatabaseName()).c_str());
	}
	printf("\nProcessing images...\n");

	UTimer iterationTimer;
	UTimer rtabmapTimer;
	int imagesProcessed = 0;
	std::list<std::vector<float> > teleopActions;
	while(loopDataset <= repeat && g_forever)
	{
		cv::Mat img = camera->takeImage();
		int i=0;
		double maxIterationTime = 0.0;
		int maxIterationTimeId = 0;
		while(!img.empty() && g_forever)
		{
			++imagesProcessed;
			iterationTimer.start();
			rtabmapTimer.start();
			rtabmap.process(img);
			double rtabmapTime = rtabmapTimer.elapsed();
			loopClosureId = rtabmap.getLoopClosureId();
			if(rtabmap.getLoopClosureId())
			{
				++countLoopDetected;
			}
			img = camera->takeImage();
			if(++count % 100 == 0)
			{
				printf(" count = %d, loop closures = %d, max time (at %d) = %fs\n",
						count, countLoopDetected, maxIterationTimeId, maxIterationTime);
				maxIterationTime = 0.0;
				maxIterationTimeId = 0;
				std::map<int, int> wm = rtabmap.getWeights();
				printf(" WM(%d)=[", (int)wm.size());
				for(std::map<int, int>::iterator iter=wm.begin(); iter!=wm.end();++iter)
				{
					if(iter != wm.begin())
					{
						printf(";");
					}
					printf("%d,%d", iter->first, iter->second);
				}
				printf("]\n");
			}

			// Update generated ground truth matrix
			if(createGT)
			{
				if(loopClosureId > 0)
				{
					groundTruth.insert(std::make_pair(i, loopClosureId-1));
				}
			}

			++i;

			double iterationTime = iterationTimer.ticks();

			if(rtabmapTime > maxIterationTime)
			{
				maxIterationTime = rtabmapTime;
				maxIterationTimeId = count;
			}

			ULogger::flush();

			if(rtabmap.getLoopClosureId())
			{
				printf(" iteration(%d) loop(%d) hyp(%.2f) time=%fs/%fs *\n",
						count, rtabmap.getLoopClosureId(), rtabmap.getLcHypValue(), rtabmapTime, iterationTime);
			}
			else if(rtabmap.getRetrievedId())
			{
				printf(" iteration(%d) high(%d) hyp(%.2f) time=%fs/%fs\n",
						count, rtabmap.getRetrievedId(), rtabmap.getLcHypValue(), rtabmapTime, iterationTime);
			}
			else
			{
				printf(" iteration(%d) time=%fs/%fs\n", count, rtabmapTime, iterationTime);
			}

			if(timeThreshold && rtabmapTime > timeThreshold*100.0f)
			{
				printf(" ERROR,  there is  problem, too much time taken... %fs", rtabmapTime);
				break; // there is  problem, don't continue
			}
		}
		++loopDataset;
		if(loopDataset <= repeat)
		{
			camera->init();
			printf(" Beginning loop %d...\n", loopDataset);
		}
	}
	printf("Processing images completed. Loop closures found = %d\n", countLoopDetected);
	printf(" Total time = %fs\n", timer.ticks());

	if(imagesProcessed && createGT)
	{
		cv::Mat groundTruthMat = cv::Mat::zeros(imagesProcessed, imagesProcessed, CV_8U);

		for(std::map<int, int>::iterator iter = groundTruth.begin(); iter!=groundTruth.end(); ++iter)
		{
			groundTruthMat.at<unsigned char>(iter->first, iter->second) = 255;
		}

		// Generate the ground truth file
		printf("Generate ground truth to file %s, size of %d\n", (rtabmap.getWorkingDir()+GENERATED_GT_NAME).c_str(), groundTruthMat.rows);
		IplImage img = groundTruthMat;
		cvSaveImage((rtabmap.getWorkingDir()+GENERATED_GT_NAME).c_str(), &img);
		printf(" Creating ground truth file = %fs\n", timer.ticks());
	}

	if(camera)
	{
		delete camera;
		camera = 0 ;
	}

	rtabmap.close();

	printf(" Cleanup time = %fs\n", timer.ticks());

	return 0;
}
示例#2
0
文件: main.cpp 项目: Aleem21/rtabmap
int main(int argc, char * argv[])
{
	ULogger::setType(ULogger::kTypeConsole);
	ULogger::setLevel(ULogger::kError);

	if(argc < 8)
	{
		showUsage();
	}

	int argIndex = 1;
	int cameraRate = atoi(argv[argIndex++]);
	if(cameraRate <= 0)
	{
		printf("camera_rate should be > 0\n");
		showUsage();
	}
	int odomUpdate = atoi(argv[argIndex++]);
	if(odomUpdate <= 0)
	{
		printf("odom_update should be > 0\n");
		showUsage();
	}
	int mapUpdate = atoi(argv[argIndex++]);
	if(mapUpdate <= 0)
	{
		printf("map_update should be > 0\n");
		showUsage();
	}

	printf("Camera rate = %d Hz\n", cameraRate);
	printf("Odometry update rate = %d Hz\n", cameraRate/odomUpdate);
	printf("Map update rate = %d Hz\n", (cameraRate/odomUpdate)/mapUpdate);

	std::string calibrationDir = argv[argIndex++];
	std::string calibrationName = argv[argIndex++];
	std::string pathLeftImages = argv[argIndex++];
	std::string pathRightImages = argv[argIndex++];

	Transform opticalRotation(0,0,1,0, -1,0,0,0, 0,-1,0,0);
	CameraStereoImages camera(
			pathLeftImages,
			pathRightImages,
			false, // assume that images are already rectified
			(float)cameraRate,
			opticalRotation);

	if(camera.init(calibrationDir, calibrationName))
	{
		OdometryF2M odom;
		Rtabmap rtabmap;
		rtabmap.init();

		QApplication app(argc, argv);
		MapBuilder mapBuilder;
		mapBuilder.show();
		QApplication::processEvents();

		SensorData data = camera.takeImage();
		int cameraIteration = 0;
		int odometryIteration = 0;
		printf("Press \"Space\" in the window to pause\n");
		while(data.isValid() && mapBuilder.isVisible())
		{
			if(cameraIteration++ % odomUpdate == 0)
			{
				OdometryInfo info;
				Transform pose = odom.process(data, &info);

				if(odometryIteration++ % mapUpdate == 0)
				{
					if(rtabmap.process(data, pose))
					{
						mapBuilder.processStatistics(rtabmap.getStatistics());
						if(rtabmap.getLoopClosureId() > 0)
						{
							printf("Loop closure detected!\n");
						}
					}
				}

				mapBuilder.processOdometry(data, pose, info);
			}

			QApplication::processEvents();

			while(mapBuilder.isPaused() && mapBuilder.isVisible())
			{
				uSleep(100);
				QApplication::processEvents();
			}

			data = camera.takeImage();
		}

		if(mapBuilder.isVisible())
		{
			printf("Processed all frames\n");
			app.exec();
		}
	}
	else
	{
		UERROR("Camera init failed!");
	}

	return 0;
}
示例#3
0
文件: main.cpp 项目: masoug/rtabmap
int main(int argc, char * argv[])
{
	ULogger::setType(ULogger::kTypeConsole);
    ULogger::setLevel(ULogger::kWarning);

    ParametersMap pm = Parameters::parseArguments(argc, argv);
    pm.insert(ParametersPair(Parameters::kRtabmapWorkingDirectory(), "."));

	int argIndex = 1;

	int cameraRate = atoi(argv[argIndex++]);
	if(cameraRate <= 0)
	{
		printf("camera_rate should be > 0\n");
		showUsage();
	}
	int odomUpdate = atoi(argv[argIndex++]);
	if(odomUpdate <= 0)
	{
		printf("odom_update should be > 0\n");
		showUsage();
	}
	int mapUpdate = atoi(argv[argIndex++]);
	if(mapUpdate <= 0)
	{
		printf("map_update should be > 0\n");
		showUsage();
	}

	printf("Camera rate = %d Hz\n", cameraRate);
	printf("Odometry update rate = %d Hz\n", cameraRate/odomUpdate);
	printf("Map update rate = %d Hz\n", (cameraRate/odomUpdate)/mapUpdate);


	std::string calibrationDir = argv[argIndex++];
    std::string calibrationName = argv[argIndex++];
    std::string pathRGBImages = argv[argIndex++];
    std::string pathDepthImages = argv[argIndex++];

	Transform opticalRotation(0,0,1,0, -1,0,0,0, 0,-1,0,0);
	//CameraStereoImages camera(
	//		pathLeftImages,
	//		pathRightImages,
	//		false, // assume that images are already rectified
	//		(float)cameraRate,
	//		opticalRotation);
//	CameraFreenect2 camera(0, CameraFreenect2::Type::kTypeColor2DepthSD, 0.0, opticalRotation);
    CameraRGBDImages camera(pathRGBImages, pathDepthImages, 1, float(cameraRate), opticalRotation);

    std::ofstream stats_file;
    stats_file.open("statistics.txt");
    stats_file << "[" << std::endl;

	if(camera.init(calibrationDir, calibrationName))
	{
		OdometryF2M odom;
		Rtabmap rtabmap;
		rtabmap.init(pm);

		QApplication app(argc, argv);
		MapBuilder mapBuilder;
		mapBuilder.show();
		QApplication::processEvents();

		SensorData data = camera.takeImage();
		int cameraIteration = 0;
		int odometryIteration = 0;
		printf("Press \"Space\" in the window to pause\n");
		while(data.isValid() && mapBuilder.isVisible())
		{
			if(cameraIteration++ % odomUpdate == 0)
			{
				OdometryInfo info;
				Transform pose = odom.process(data, &info);

				if(odometryIteration++ % mapUpdate == 0)
				{
					if(rtabmap.process(data, pose))
					{
						mapBuilder.processStatistics(rtabmap.getStatistics());
						if(rtabmap.getLoopClosureId() > 0)
						{
							printf("Loop closure detected!\n");
						}

                        std::map<std::string, float> statz = rtabmap.getStatistics().data();
                        stats_file << "  {" << std::endl;
                        for(std::map<std::string,float>::iterator it = statz.begin(); it != statz.end(); ++it) {
                            std::string name = it->first;
                            std::replace(name.begin(), name.end(), '/', '.');

                            stats_file << "    \"" << name << "\": " << it->second << "," << std::endl;
                        }
                        stats_file << "  }," << std::endl;
					}
				}

				mapBuilder.processOdometry(data, pose, info);
			}

			QApplication::processEvents();

			while(mapBuilder.isPaused() && mapBuilder.isVisible())
			{
				uSleep(100);
				QApplication::processEvents();
			}

			data = camera.takeImage();
		}

		if(mapBuilder.isVisible())
		{
			printf("Processed all frames\n");
			app.exec();
		}
	}
	else
	{
		UERROR("Camera init failed!");
	}

    stats_file << "]" << std::endl;
    stats_file.close();

	return 0;
}