Esempio n. 1
0
bool DataRecorder::init(const QString & path, bool recordInRAM)
{
	UScopeMutex scope(memoryMutex_);
	if(!memory_)
	{
		ParametersMap customParameters;
		customParameters.insert(ParametersPair(Parameters::kMemRehearsalSimilarity(), "1.0")); // desactivate rehearsal
		customParameters.insert(ParametersPair(Parameters::kKpWordsPerImage(), "-1")); // desactivate keypoints extraction
		customParameters.insert(ParametersPair(Parameters::kMemBinDataKept(), "true")); // to keep images
		if(!recordInRAM)
		{
			customParameters.insert(ParametersPair(Parameters::kDbSqlite3InMemory(), "false"));
		}
		memory_ = new Memory();
		if(!memory_->init(path.toStdString(), true, customParameters))
		{
			delete memory_;
			memory_ = 0;
			UERROR("Error initializing the memory.");
			return false;
		}
		path_ = path;
		return true;
	}
	else
	{
		UERROR("Already initialized, close it first.");
		return false;
	}
}
Esempio n. 2
0
void DataRecorder::addData(const rtabmap::SensorData & data, const Transform & pose, const cv::Mat & covariance)
{
	memoryMutex_.lock();
	if(memory_)
	{
		if(memory_->getStMem().size() == 0 && data.id() > 0)
		{
			ParametersMap customParameters;
			customParameters.insert(ParametersPair(Parameters::kMemGenerateIds(), "false")); // use id from data
			memory_->parseParameters(customParameters);
		}

		//save to database
		UTimer time;
		memory_->update(data, pose, covariance);
		const Signature * s = memory_->getLastWorkingSignature();
		totalSizeKB_ += (int)s->sensorData().imageCompressed().total()/1000;
		totalSizeKB_ += (int)s->sensorData().depthOrRightCompressed().total()/1000;
		totalSizeKB_ += (int)s->sensorData().laserScanCompressed().total()/1000;
		memory_->cleanup();

		if(++count_ % 30)
		{
			memory_->emptyTrash();
		}
		UDEBUG("Time to process a message = %f s", time.ticks());
	}
	memoryMutex_.unlock();
}
void Camera::setFeaturesExtracted(bool featuresExtracted, KeypointDetector::DetectorType detector, KeypointDescriptor::DescriptorType descriptor)
{
	_featuresExtracted = featuresExtracted;
	if(detector != KeypointDetector::kDetectorUndef || descriptor != KeypointDescriptor::kDescriptorUndef)
	{
		ParametersMap pm;
		pm.insert(ParametersPair(Parameters::kKpDetectorStrategy(), uNumber2Str((int)detector)));
		this->parseParameters(pm);
	}
}
Esempio n. 4
0
void RtabmapThread::handleEvent(UEvent* event)
{
	if(this->isRunning() && event->getClassName().compare("CameraEvent") == 0)
	{
		UDEBUG("CameraEvent");
		CameraEvent * e = (CameraEvent*)event;
		if(e->getCode() == CameraEvent::kCodeImage || e->getCode() == CameraEvent::kCodeImageDepth)
		{
			this->addData(e->data());
		}
	}
	else if(event->getClassName().compare("OdometryEvent") == 0)
	{
		UDEBUG("OdometryEvent");
		OdometryEvent * e = (OdometryEvent*)event;
		if(e->isValid())
		{
			this->addData(e->data());
		}
	}
	else if(event->getClassName().compare("RtabmapEventCmd") == 0)
	{
		RtabmapEventCmd * rtabmapEvent = (RtabmapEventCmd*)event;
		RtabmapEventCmd::Cmd cmd = rtabmapEvent->getCmd();
		if(cmd == RtabmapEventCmd::kCmdInit)
		{
			ULOGGER_DEBUG("CMD_INIT");
			ParametersMap parameters = ((RtabmapEventCmd*)event)->getParameters();
			UASSERT(!rtabmapEvent->getStr().empty());
			UASSERT(parameters.insert(ParametersPair("RtabmapThread/DatabasePath", rtabmapEvent->getStr())).second);
			pushNewState(kStateInit, parameters);
		}
		else if(cmd == RtabmapEventCmd::kCmdClose)
		{
			ULOGGER_DEBUG("CMD_CLOSE");
			pushNewState(kStateClose);
		}
		else if(cmd == RtabmapEventCmd::kCmdResetMemory)
		{
			ULOGGER_DEBUG("CMD_RESET_MEMORY");
			pushNewState(kStateReseting);
		}
		else if(cmd == RtabmapEventCmd::kCmdDumpMemory)
		{
			ULOGGER_DEBUG("CMD_DUMP_MEMORY");
			pushNewState(kStateDumpingMemory);
		}
		else if(cmd == RtabmapEventCmd::kCmdDumpPrediction)
		{
			ULOGGER_DEBUG("CMD_DUMP_PREDICTION");
			pushNewState(kStateDumpingPrediction);
		}
		else if(cmd == RtabmapEventCmd::kCmdGenerateDOTGraph)
		{
			UASSERT(!rtabmapEvent->getStr().empty());

			ULOGGER_DEBUG("CMD_GENERATE_DOT_GRAPH");
			ParametersMap param;
			param.insert(ParametersPair("path", rtabmapEvent->getStr()));
			pushNewState(kStateGeneratingDOTGraph, param);
		}
		else if(cmd == RtabmapEventCmd::kCmdGenerateDOTLocalGraph)
		{
			std::list<std::string> values = uSplit(rtabmapEvent->getStr(), ';');
			UASSERT(values.size() == 3);

			ULOGGER_DEBUG("CMD_GENERATE_DOT_LOCAL_GRAPH");
			ParametersMap param;
			param.insert(ParametersPair("path", *values.begin()));
			param.insert(ParametersPair("id", *(++values.begin())));
			param.insert(ParametersPair("margin", *values.rbegin()));
			pushNewState(kStateGeneratingDOTLocalGraph, param);

		}
		else if(cmd == RtabmapEventCmd::kCmdGenerateTOROGraphLocal)
		{
			UASSERT(!rtabmapEvent->getStr().empty());

			ULOGGER_DEBUG("CMD_GENERATE_TORO_GRAPH_LOCAL");
			ParametersMap param;
			param.insert(ParametersPair("path", rtabmapEvent->getStr()));
			param.insert(ParametersPair("optimized", uNumber2Str(rtabmapEvent->getInt())));
			pushNewState(kStateGeneratingTOROGraphLocal, param);

		}
		else if(cmd == RtabmapEventCmd::kCmdGenerateTOROGraphGlobal)
		{
			UASSERT(!rtabmapEvent->getStr().empty());

			ULOGGER_DEBUG("CMD_GENERATE_TORO_GRAPH_GLOBAL");
			ParametersMap param;
			param.insert(ParametersPair("path", rtabmapEvent->getStr()));
			param.insert(ParametersPair("optimized", uNumber2Str(rtabmapEvent->getInt())));
			pushNewState(kStateGeneratingTOROGraphGlobal, param);

		}
		else if(cmd == RtabmapEventCmd::kCmdCleanDataBuffer)
		{
			ULOGGER_DEBUG("CMD_CLEAN_DATA_BUFFER");
			pushNewState(kStateCleanDataBuffer);
		}
		else if(cmd == RtabmapEventCmd::kCmdPublish3DMapLocal)
		{
			ULOGGER_DEBUG("CMD_PUBLISH_MAP_LOCAL");
			ParametersMap param;
			param.insert(ParametersPair("optimized", uNumber2Str(rtabmapEvent->getInt())));
			pushNewState(kStatePublishingMapLocal, param);
		}
		else if(cmd == RtabmapEventCmd::kCmdPublish3DMapGlobal)
		{
			ULOGGER_DEBUG("CMD_PUBLISH_MAP_GLOBAL");
			ParametersMap param;
			param.insert(ParametersPair("optimized", uNumber2Str(rtabmapEvent->getInt())));
			pushNewState(kStatePublishingMapGlobal, param);
		}
		else if(cmd == RtabmapEventCmd::kCmdPublishTOROGraphLocal)
		{
			ULOGGER_DEBUG("CMD_PUBLISH_TORO_GRAPH_LOCAL");
			ParametersMap param;
			param.insert(ParametersPair("optimized", uNumber2Str(rtabmapEvent->getInt())));
			pushNewState(kStatePublishingTOROGraphLocal, param);
		}
		else if(cmd == RtabmapEventCmd::kCmdPublishTOROGraphGlobal)
		{
			ULOGGER_DEBUG("CMD_PUBLISH_TORO_GRAPH_GLOBAL");
			ParametersMap param;
			param.insert(ParametersPair("optimized", uNumber2Str(rtabmapEvent->getInt())));
			pushNewState(kStatePublishingTOROGraphGlobal, param);
		}
		else if(cmd == RtabmapEventCmd::kCmdTriggerNewMap)
		{
			ULOGGER_DEBUG("CMD_TRIGGER_NEW_MAP");
			pushNewState(kStateTriggeringMap);
		}
		else if(cmd == RtabmapEventCmd::kCmdPause)
		{
			ULOGGER_DEBUG("CMD_PAUSE");
			_paused = !_paused;
		}
		else
		{
			UWARN("Cmd %d unknown!", cmd);
		}
	}
	else if(event->getClassName().compare("ParamEvent") == 0)
	{
		ULOGGER_DEBUG("changing parameters");
		pushNewState(kStateChangingParameters, ((ParamEvent*)event)->getParameters());
	}
}