示例#1
0
// COpenGLScene
void COpenGLScene_insert(COpenGLScene &self, const CRenderizablePtr &newObject, const std::string &viewportName=std::string("main"))
{
    self.insert(newObject, viewportName);
}
示例#2
0
/*---------------------------------------------------------------

				CHMTSLAM_LOG

	Implements a 2D local SLAM method based on scan matching
	  between near observations and an EKF. A part of HMT-SLAM

\param LMH   The local metric hypothesis which must be updated by this SLAM algorithm.
\param act   The action to process (or NULL).
\param sf    The observations to process (or NULL).

--------------------------------------------------------------- */
void CHMTSLAM::generateLogFiles(unsigned int nIteration)
{
	MRPT_START

	// Speed up the storage of images (in opengl::CTexturedPlane's):
	//CImage::DISABLE_ZIP_COMPRESSION = true;

	static CTicTac	tictac;

	tictac.Tic();

	THypothesisID	bestHypoID;
	CLocalMetricHypothesis  *bestLMH = NULL;
	{
		CCriticalSectionLocker  locker( &m_LMHs_cs );

		printf_debug("[LOG] Number of LMHs: %u\n", (unsigned int)m_LMHs.size() );


		// Generate 3D view of local areas:
		{
			string filLocalAreas = format("%s/LSLAM_3D/mostLikelyLMH_LSLAM_%05u.3Dscene", m_options.LOG_OUTPUT_DIR.c_str(), nIteration );
			COpenGLScenePtr	sceneLSLAM = COpenGLScene::Create();

			// Look for the most likely LMH:
			aligned_containers<THypothesisID, CLocalMetricHypothesis>::map_t::iterator  it;
			for ( it = m_LMHs.begin();it!=m_LMHs.end();it++)
			{
				if (!bestLMH)
				{
					bestLMH = & it->second;
				}
				else if ( it->second.m_log_w > bestLMH->m_log_w)
				{
					bestLMH = & it->second;
				}
			}
			ASSERT_(bestLMH!=NULL)

			bestHypoID = bestLMH->m_ID;

			{
				CCriticalSectionLocker  lockerLMH( &bestLMH->m_lock );

				{
					// Generate the metric maps 3D view...
					opengl::CSetOfObjectsPtr maps3D = opengl::CSetOfObjects::Create();
					maps3D->setName("metric-maps");
					bestLMH->getMostLikelyParticle()->d->metricMaps.getAs3DObject( maps3D );
					sceneLSLAM->insert( maps3D );

					// ...and the robot poses, areas, etc:
					opengl::CSetOfObjectsPtr LSLAM_3D = opengl::CSetOfObjects::Create();
					LSLAM_3D->setName("LSLAM_3D");
					bestLMH->getAs3DScene( LSLAM_3D );
					sceneLSLAM->insert( LSLAM_3D );

					sceneLSLAM->enableFollowCamera(true);

					printf_debug("[LOG] Saving %s\n", filLocalAreas.c_str());
					CFileGZOutputStream(filLocalAreas) << *sceneLSLAM;
				}


				// Save the SSO matrix:
#if 0
				{
					CCriticalSectionLocker  locker( &bestLMH->m_robotPosesGraph.lock );
					string filSSO = format("%s/ASSO/mostLikelyLMH_ASSO_%05u.3Dscene", m_options.LOG_OUTPUT_DIR.c_str(), nIteration );
					COpenGLScene	sceneSSO;
					opengl::CSetOfObjectsPtr sso3D = opengl::CSetOfObjects::Create();
					bestLMH->m_robotPosesGraph.partitioner.getAs3DScene( sso3D, &bestLMH->m_robotPosesGraph.idx2pose );
					sceneSSO.insert(sso3D);
					CFileGZOutputStream(filSSO) << sceneSSO;

					if (1)
					{
						CMatrix  A;
						bestLMH->m_robotPosesGraph.partitioner.getAdjacencyMatrix( A );
						if (A.getColCount()>0)
						{
							A.adjustRange();
							A.saveToTextFile( format("%s/ASSO/mostLikelyLMH_ASSO_%05u.txt", m_options.LOG_OUTPUT_DIR.c_str(), nIteration ) );
							CImage(A,true).saveToFile( format("%s/ASSO/mostLikelyLMH_ASSO_%05u.png", m_options.LOG_OUTPUT_DIR.c_str(), nIteration ) );
						}
					}
				} // end lock partitioner's CS
#endif

			} // end LMH's lock

		}

	}  // end of lock on LMHs_cs

#if 1
	{
		// Save the whole HMT-SLAM state to a dump file
		static int CNT = 0;
		if ((CNT++ % 20) == 0)
		{
			string hmtmap_file( format("%s/HMTSLAM_state/state_%05u.hmtslam", m_options.LOG_OUTPUT_DIR.c_str(), nIteration ) );
			printf_debug("[LOG] Saving %s\n", hmtmap_file.c_str());
			CFileGZOutputStream(hmtmap_file) << *this;
		}
	}
#endif



#if 1
	{
		// Update the poses-graph in the HMT-map from the LMH to draw it:
		static int CNT = 0;
		if ((CNT++ % 5) == 0)
		{
			CCriticalSectionLocker  lockerLMH( &bestLMH->m_lock );

			for (TNodeIDSet::const_iterator n = bestLMH->m_neighbors.begin();n!=bestLMH->m_neighbors.end();++n)
				bestLMH->updateAreaFromLMH( *n );

			// Save global map for most likely hypothesis:
			COpenGLScene	sceneGlobalHMTMAP;
			{
				CCriticalSectionLocker  locker( &m_map_cs );
				printf_debug("[LOG] HMT-map: %u nodes/ %u arcs\n", (unsigned int)m_map.nodeCount(), (unsigned int)m_map.arcCount() );

				m_map.getAs3DScene(
					sceneGlobalHMTMAP,					// Scene
					m_map.getFirstNode()->getID(),		// Reference node
					bestHypoID,							// Hypothesis to get
					3									// iterations
					);
			}

			string hmtmap_file( format("%s/HMAP_3D/mostLikelyHMT_MAP_%05u.3Dscene", m_options.LOG_OUTPUT_DIR.c_str(), nIteration ) );
			printf_debug("[LOG] Saving %s\n", hmtmap_file.c_str());
			CFileGZOutputStream(hmtmap_file) << sceneGlobalHMTMAP;
		}
	}
#endif


	// Save the memory usage:
	unsigned long memUsage = mrpt::system::getMemoryUsage();

	FILE		*f=os::fopen( format("%s/log_MemoryUsage.txt",m_options.LOG_OUTPUT_DIR.c_str()).c_str() ,"at");
	if (f)
	{
		os::fprintf(f,"%u\t%f\n",nIteration,memUsage/(1024.0*1024.0));
		os::fclose(f);
	}

	double t_log = tictac.Tac();
	printf_debug("[LOG] Time for logging: %f ms\n", 1000*t_log);

	MRPT_END
}
示例#3
0
文件: test.cpp 项目: GYengera/mrpt
// ------------------------------------------------------
//				TestDisplay3D
// ------------------------------------------------------
void TestDisplay3D()
{
	COpenGLScene scene;

	// Modify the scene:
	// ------------------------------------------------------
	{
		opengl::CGridPlaneXYPtr obj = opengl::CGridPlaneXY::Create(-20,20,-20,20,0,1);
		obj->setColor(0.4,0.4,0.4);
		scene.insert( obj );
	}
	{
		opengl::CAxisPtr obj = opengl::CAxis::Create();
		obj->setFrequency(5);
		obj->enableTickMarks();
		obj->setAxisLimits(-10,-10,-10, 10,10,10);
		scene.insert( obj );
	}
	{
		opengl::CSpherePtr obj = opengl::CSphere::Create();
		obj->setColor(0,0,1);
		obj->setRadius(0.3);
		obj->setLocation(0,0,1);
		obj->setName( "ball_1" );
		scene.insert( obj );
	}
	{
		opengl::CSpherePtr obj = opengl::CSphere::Create();
		obj->setColor(1,0,0);
		obj->setRadius(0.3);
		obj->setLocation(-1,-1,1);
		obj->setName( "ball_2");
		scene.insert( obj );
	}

	CDisplayWindow win("output");

	int c = 0, width = 640, height = 480;

	CFBORender render(width, height);
	CImage frame(width, height, 3, false);

	{
		CCamera& camera = render.getCamera(scene);
		camera.setZoomDistance(50);
	}

	while (!mrpt::system::os::kbhit())
	{
		CRenderizablePtr obj = scene.getByName("ball_1");
		obj->setLocation(
			obj->getPoseX() + cos(obj->getPoseY()/2)*0.05,
			obj->getPoseY() - sin(obj->getPoseX()/2)*0.09,
			obj->getPoseZ() - sin(obj->getPoseX()/2)*0.08 );

		obj = scene.getByName("ball_2");
		obj->setLocation(
			obj->getPoseX() + cos(obj->getPoseY()/2)*0.05,
			obj->getPoseY() - sin(obj->getPoseX()/2)*0.09,
			obj->getPoseZ() - sin(obj->getPoseX()/2)*0.08 );

		// change the size
		if(++c > 100)
		{
			width = 800, height = 600;
			frame.resize(width, height, 3, false);
			render.resize(width, height);
		}

		// render the scene
		render.getFrame2(scene, frame);

		// show the redered image
		win.showImage(frame);

		mrpt::system::sleep(50);
	}
}
示例#4
0
// Show GPS path in a window:
void xRawLogViewerFrame::OnMenuDrawGPSPath(wxCommandEvent& event)
{
	WX_START_TRY

	string  the_label = AskForObservationByLabel("Choose the GPS to use:");

	size_t          i, M = 0,  n = rawlog.size();

	TGeodeticCoords  ref;
	bool			 ref_valid = false;

	// Ask the user for the reference?
	if (wxYES!=wxMessageBox(_("Do you want to take the GPS reference automatically from the first found entry?"),_("GPS path"),wxYES_NO ))
	{
		wxString s = wxGetTextFromUser(
			_("Reference Latitude (degrees):"),
			_("GPS reference"),
			_("0.0"), this );
		if (s.IsEmpty()) return;
		if (!s.ToDouble(&ref.lat.decimal_value)) { wxMessageBox(_("Invalid number")); return; }

		s = wxGetTextFromUser(
			_("Reference Longitude (degrees):"),
			_("GPS reference"),
			_("0.0"), this );
		if (s.IsEmpty()) return;
		if (!s.ToDouble(&ref.lon.decimal_value)) { wxMessageBox(_("Invalid number")); return; }

		s = wxGetTextFromUser(
			_("Reference Height (meters):"),
			_("GPS reference"),
			_("0.0"), this );
		if (s.IsEmpty()) return;
		if (!s.ToDouble(&ref.height)) { wxMessageBox(_("Invalid number")); return; }

		ref_valid=true;
	}

	// Only RTK fixed?
	bool only_rtk =  wxYES==wxMessageBox(_("Take into account 'rtk' (modes 4-5) readings only?"),_("GPS path"),wxYES_NO );

	vector<float>  xs,ys,zs;
	double  overall_distance = 0;

	for (i=0;i<n;i++)
	{
		CObservationGPSPtr obs;

		switch ( rawlog.getType(i) )
		{
		case CRawlog::etSensoryFrame:
			{
				CSensoryFramePtr sf = rawlog.getAsObservations(i);

				CObservationPtr o= sf->getObservationBySensorLabel(the_label);
				if (o && IS_CLASS(o,CObservationGPS))
				{
					obs = CObservationGPSPtr(o);
				}
			}
			break;

		case CRawlog::etObservation:
			{
				CObservationPtr o = rawlog.getAsObservation(i);

				if ( !os::_strcmpi(o->sensorLabel.c_str(), the_label.c_str()) && IS_CLASS(o,CObservationGPS))
				{
					obs = CObservationGPSPtr(o);
				}
			}
			break;

		default: break;
		}

		// If we had a GPS obs, process it:
		if (obs && obs->has_GGA_datum && (!only_rtk || obs->GGA_datum.fix_quality==4 || obs->GGA_datum.fix_quality==5) )
		{
			TPoint3D  X_ENU;		// Transformed coordinates

			const TGeodeticCoords obsCoords = obs->GGA_datum.getAsStruct<TGeodeticCoords>();

			// The first gps datum?
			if (!ref_valid)
			{
				ref_valid=true;
				ref = obsCoords;
			}

			// Local XYZ coordinates transform:
			geodeticToENU_WGS84( obsCoords, X_ENU, ref );

			// Geocentric XYZ:
			TPoint3D  X_geo;
			geodeticToGeocentric_WGS84( obsCoords, X_geo);

			if (!xs.empty())
				overall_distance+=sqrt( square(X_ENU.x-*xs.rbegin())+square(X_ENU.y-*ys.rbegin())+square(X_ENU.z-*zs.rbegin()) );

			xs.push_back(X_ENU.x);
			ys.push_back(X_ENU.y);
			zs.push_back(X_ENU.z);

			M++;
		}
	}

	// Window 3d:
	winGPSPath = CDisplayWindow3D::Create(format("GPS path, %i points (%s) %.03f meters length", int(M), the_label.c_str(), overall_distance ) );

	COpenGLScene scene;
	CPointCloudPtr  gl_path = CPointCloud::Create();
	gl_path->setAllPoints(xs,ys,zs);
	gl_path->setColor(0,0,1);

	gl_path->setPointSize(3);

	scene.insert( gl_path );
	scene.insert( CGridPlaneXYPtr( CGridPlaneXY::Create(-300,300,-300,300,0,10)));
	scene.insert( CAxisPtr( CAxis::Create(-300,-300,-50, 300,300,50, 1.0, 3, true  ) ) );

	COpenGLScenePtr the_scene = winGPSPath->get3DSceneAndLock();
	*the_scene = scene;
	winGPSPath->unlockAccess3DScene();
	winGPSPath->repaint();


	// 2D wins:
	winGPSPath2D_xy = CDisplayWindowPlots::Create( format("GPS path - XY (%s)", the_label.c_str() ) );
	winGPSPath2D_xy->plot(xs,ys,"b");
	winGPSPath2D_xy->axis_fit(true);

	winGPSPath2D_xz = CDisplayWindowPlots::Create( format("GPS path - XZ (%s)", the_label.c_str() ) );
	winGPSPath2D_xz->plot(xs,zs,"b");
	winGPSPath2D_xz->axis_fit(true);


	WX_END_TRY
}