Visual Servoing Platform  version 3.2.0 under development (2019-01-22)
tutorial-detection-object-mbt2-deprecated.cpp
1 #include <visp3/core/vpConfig.h>
3 #include <visp3/core/vpIoTools.h>
4 #include <visp3/gui/vpDisplayGDI.h>
5 #include <visp3/gui/vpDisplayOpenCV.h>
6 #include <visp3/gui/vpDisplayX.h>
7 #include <visp3/io/vpVideoReader.h>
8 #include <visp3/mbt/vpMbEdgeTracker.h>
9 #include <visp3/vision/vpKeyPoint.h>
10 
11 #if (VISP_HAVE_OPENCV_VERSION >= 0x020400)
12 void learnCube(const vpImage<unsigned char> &I, vpMbEdgeTracker &tracker, vpKeyPoint &keypoint_learning, int id)
13 {
15  std::vector<cv::KeyPoint> trainKeyPoints;
16  double elapsedTime;
17  keypoint_learning.detect(I, trainKeyPoints, elapsedTime);
19 
21  std::vector<vpPolygon> polygons;
22  std::vector<std::vector<vpPoint> > roisPt;
23  std::pair<std::vector<vpPolygon>, std::vector<std::vector<vpPoint> > > pair = tracker.getPolygonFaces();
24  polygons = pair.first;
25  roisPt = pair.second;
26 
27  std::vector<cv::Point3f> points3f;
29  tracker.getPose(cMo);
31  tracker.getCameraParameters(cam);
32  vpKeyPoint::compute3DForPointsInPolygons(cMo, cam, trainKeyPoints, polygons, roisPt, points3f);
34 
36  keypoint_learning.buildReference(I, trainKeyPoints, points3f, true, id);
38 
40  for (std::vector<cv::KeyPoint>::const_iterator it = trainKeyPoints.begin(); it != trainKeyPoints.end(); ++it) {
41  vpDisplay::displayCross(I, (int)it->pt.y, (int)it->pt.x, 4, vpColor::red);
42  }
44 }
45 #endif
46 
47 int main(int argc, char **argv)
48 {
49 #if (VISP_HAVE_OPENCV_VERSION >= 0x020400)
50  try {
52  std::string videoname = "cube.mpeg";
53 
54  for (int i = 0; i < argc; i++) {
55  if (std::string(argv[i]) == "--name")
56  videoname = std::string(argv[i + 1]);
57  else if (std::string(argv[i]) == "--help") {
58  std::cout << "\nUsage: " << argv[0] << " [--name <video name>] [--help]\n" << std::endl;
59  return 0;
60  }
61  }
62  std::string parentname = vpIoTools::getParent(videoname);
63  std::string objectname = vpIoTools::getNameWE(videoname);
64 
65  if (!parentname.empty())
66  objectname = parentname + "/" + objectname;
67 
68  std::cout << "Video name: " << videoname << std::endl;
69  std::cout << "Tracker requested config files: " << objectname << ".[init,"
70 #ifdef VISP_HAVE_XML2
71  << "xml,"
72 #endif
73  << "cao or wrl]" << std::endl;
74  std::cout << "Tracker optional config files: " << objectname << ".[ppm]" << std::endl;
75 
79 
80  vpMbEdgeTracker tracker;
81  bool usexml = false;
82 #ifdef VISP_HAVE_XML2
83  if (vpIoTools::checkFilename(objectname + ".xml")) {
84  tracker.loadConfigFile(objectname + ".xml");
85  tracker.getCameraParameters(cam);
86  usexml = true;
87  }
88 #endif
89  if (!usexml) {
90  vpMe me;
91  me.setMaskSize(5);
92  me.setMaskNumber(180);
93  me.setRange(7);
94  me.setThreshold(5000);
95  me.setMu1(0.5);
96  me.setMu2(0.5);
97  me.setSampleStep(4);
98  me.setNbTotalSample(250);
99  tracker.setMovingEdge(me);
100  cam.initPersProjWithoutDistortion(547, 542, 339, 235);
101  tracker.setCameraParameters(cam);
102  tracker.setAngleAppear(vpMath::rad(89));
103  tracker.setAngleDisappear(vpMath::rad(89));
104  tracker.setNearClippingDistance(0.01);
105  tracker.setFarClippingDistance(10.0);
107  }
108 
109  tracker.setOgreVisibilityTest(false);
110  if (vpIoTools::checkFilename(objectname + ".cao"))
111  tracker.loadModel(objectname + ".cao");
112  else if (vpIoTools::checkFilename(objectname + ".wrl"))
113  tracker.loadModel(objectname + ".wrl");
114  tracker.setDisplayFeatures(true);
116 
118  vpKeyPoint keypoint_learning("ORB", "ORB", "BruteForce-Hamming");
119 #if (VISP_HAVE_OPENCV_VERSION < 0x030000)
120  keypoint_learning.setDetectorParameter("ORB", "nLevels", 1);
121 #else
122  cv::Ptr<cv::ORB> orb_learning = keypoint_learning.getDetector("ORB").dynamicCast<cv::ORB>();
123  if (orb_learning) {
124  orb_learning->setNLevels(1);
125  }
126 #endif
127 
129 #if defined(VISP_HAVE_X11)
130  vpDisplayX display;
131 #elif defined(VISP_HAVE_GDI)
132  vpDisplayGDI display;
133 #elif defined(VISP_HAVE_OPENCV)
134  vpDisplayOpenCV display;
135 #else
136  std::cout << "No image viewer is available..." << std::endl;
137  return 0;
138 #endif
139 
140  /*
141  * Start the part of the code dedicated to object learning from 3 images
142  */
143  std::string imageName[] = {"cube0001.png", "cube0150.png", "cube0200.png"};
144  vpHomogeneousMatrix initPoseTab[] = {
145  vpHomogeneousMatrix(0.02143385294, 0.1098083886, 0.5127439561, 2.087159614, 1.141775176, -0.4701291124),
146  vpHomogeneousMatrix(0.02651282185, -0.03713587374, 0.6873765919, 2.314744454, 0.3492296488, -0.1226054828),
147  vpHomogeneousMatrix(0.02965448956, -0.07283091786, 0.7253526051, 2.300529617, -0.4286674806, 0.1788761025)};
148  for (int i = 0; i < 3; i++) {
149  vpImageIo::read(I, imageName[i]);
150  if (i == 0) {
151  display.init(I, 10, 10);
152  }
153  std::stringstream title;
154  title << "Learning cube on image: " << imageName[i];
155  vpDisplay::setTitle(I, title.str().c_str());
156 
158 
160  tracker.setPose(I, initPoseTab[i]);
162 
164  tracker.track(I);
166 
168  tracker.getPose(cMo);
169  tracker.display(I, cMo, cam, vpColor::red);
171 
173  learnCube(I, tracker, keypoint_learning, i);
175 
176  vpDisplay::displayText(I, 10, 10, "Learning step: keypoints are detected on visible cube faces", vpColor::red);
177  if (i < 2) {
178  vpDisplay::displayText(I, 30, 10, "Click to continue the learning...", vpColor::red);
179  } else {
180  vpDisplay::displayText(I, 30, 10, "Click to continue with the detection...", vpColor::red);
181  }
182 
183  vpDisplay::flush(I);
184  vpDisplay::getClick(I, true);
185  }
186 
188  keypoint_learning.saveLearningData("cube_learning_data.bin", true);
190 
191  /*
192  * Start the part of the code dedicated to detection and localization
193  */
195  vpKeyPoint keypoint_detection("ORB", "ORB", "BruteForce-Hamming");
196 #if (VISP_HAVE_OPENCV_VERSION < 0x030000)
197  keypoint_detection.setDetectorParameter("ORB", "nLevels", 1);
198 #else
199  cv::Ptr<cv::ORB> orb_detector = keypoint_detection.getDetector("ORB").dynamicCast<cv::ORB>();
200  orb_detector = keypoint_detection.getDetector("ORB").dynamicCast<cv::ORB>();
201  if (orb_detector) {
202  orb_detector->setNLevels(1);
203  }
204 #endif
205 
208  keypoint_detection.loadLearningData("cube_learning_data.bin", true);
210 
212  vpImage<unsigned char> IMatching;
213  keypoint_detection.createImageMatching(I, IMatching);
215 
216  vpVideoReader g;
217  g.setFileName(videoname);
218  g.open(I);
219 
220 #if defined VISP_HAVE_X11
221  vpDisplayX display2;
222 #elif defined VISP_HAVE_GTK
223  vpDisplayGTK display2;
224 #elif defined VISP_HAVE_GDI
225  vpDisplayGDI display2;
226 #else
227  vpDisplayOpenCV display2;
228 #endif
229  display2.init(IMatching, 50, 50, "Display matching between learned and current images");
230  vpDisplay::setTitle(I, "Cube detection and localization");
231 
232  double error;
233  bool click_done = false;
234 
235  while (!g.end()) {
236  g.acquire(I);
238 
240  keypoint_detection.insertImageMatching(I, IMatching);
242 
243  vpDisplay::display(IMatching);
244  vpDisplay::displayText(I, 10, 10, "Detection and localization in process...", vpColor::red);
245 
246  double elapsedTime;
248  if (keypoint_detection.matchPoint(I, cam, cMo, error, elapsedTime)) {
250 
252  tracker.setPose(I, cMo);
254 
256  tracker.display(I, cMo, cam, vpColor::red, 2);
257  vpDisplay::displayFrame(I, cMo, cam, 0.05, vpColor::none, 3);
259 
260  keypoint_detection.displayMatching(I, IMatching);
261 
263  std::vector<vpImagePoint> ransacInliers = keypoint_detection.getRansacInliers();
264  std::vector<vpImagePoint> ransacOutliers = keypoint_detection.getRansacOutliers();
266 
268  for (std::vector<vpImagePoint>::const_iterator it = ransacInliers.begin(); it != ransacInliers.end(); ++it) {
270  vpImagePoint imPt(*it);
271  imPt.set_u(imPt.get_u() + I.getWidth());
272  imPt.set_v(imPt.get_v() + I.getHeight());
273  vpDisplay::displayCircle(IMatching, imPt, 4, vpColor::green);
274  }
276 
278  for (std::vector<vpImagePoint>::const_iterator it = ransacOutliers.begin(); it != ransacOutliers.end(); ++it) {
280  vpImagePoint imPt(*it);
281  imPt.set_u(imPt.get_u() + I.getWidth());
282  imPt.set_v(imPt.get_v() + I.getHeight());
283  vpDisplay::displayCircle(IMatching, imPt, 4, vpColor::red);
284  }
286 
288  keypoint_detection.displayMatching(I, IMatching);
290 
292  vpCameraParameters cam2;
293  cam2.initPersProjWithoutDistortion(cam.get_px(), cam.get_py(), cam.get_u0() + I.getWidth(),
294  cam.get_v0() + I.getHeight());
295  tracker.setCameraParameters(cam2);
296  tracker.setPose(IMatching, cMo);
297  tracker.display(IMatching, cMo, cam2, vpColor::red, 2);
298  vpDisplay::displayFrame(IMatching, cMo, cam2, 0.05, vpColor::none, 3);
300  }
301 
302  vpDisplay::flush(I);
303  vpDisplay::displayText(IMatching, 30, 10, "A click to exit.", vpColor::red);
304  vpDisplay::flush(IMatching);
305  if (vpDisplay::getClick(I, false)) {
306  click_done = true;
307  break;
308  }
309  if (vpDisplay::getClick(IMatching, false)) {
310  click_done = true;
311  break;
312  }
313  }
314 
315  if (!click_done)
316  vpDisplay::getClick(IMatching);
317 
318 #ifdef VISP_HAVE_XML2
320 #endif
321 #if defined(VISP_HAVE_COIN3D) && (COIN_MAJOR_VERSION >= 2)
322  SoDB::finish();
323 #endif
324  } catch (const vpException &e) {
325  std::cout << "Catch an exception: " << e << std::endl;
326  }
327 #else
328  (void)argc;
329  (void)argv;
330  std::cout << "Install OpenCV and rebuild ViSP to use this example." << std::endl;
331 #endif
332 
333  return 0;
334 }
virtual void setDisplayFeatures(const bool displayF)
Definition: vpMbTracker.h:503
void setMovingEdge(const vpMe &me)
double get_u0() const
static bool getClick(const vpImage< unsigned char > &I, bool blocking=true)
unsigned int getWidth() const
Definition: vpImage.h:239
virtual unsigned int getClipping() const
Definition: vpMbTracker.h:256
virtual void setAngleDisappear(const double &a)
Definition: vpMbTracker.h:466
Implementation of an homogeneous matrix and operations on such kind of matrices.
void track(const vpImage< unsigned char > &I)
void setMaskNumber(const unsigned int &a)
Definition: vpMe.cpp:454
Display for windows using GDI (available on any windows 32 platform).
Definition: vpDisplayGDI.h:129
virtual void loadModel(const std::string &modelFile, const bool verbose=false, const vpHomogeneousMatrix &T=vpHomogeneousMatrix())
void setSampleStep(const double &s)
Definition: vpMe.h:278
static void displayText(const vpImage< unsigned char > &I, const vpImagePoint &ip, const std::string &s, const vpColor &color)
void setNbTotalSample(const int &nb)
Definition: vpMe.h:255
Use the X11 console to display images on unix-like OS. Thus to enable this class X11 should be instal...
Definition: vpDisplayX.h:151
Class that enables to manipulate easily a video file or a sequence of images. As it inherits from the...
static const vpColor none
Definition: vpColor.h:192
error that can be emited by ViSP classes.
Definition: vpException.h:71
void init(vpImage< unsigned char > &I, int winx=-1, int winy=-1, const std::string &title="")
Definition: vpMe.h:60
Make the complete tracking of an object by using its CAD model.
double get_py() const
virtual void setPose(const vpImage< unsigned char > &I, const vpHomogeneousMatrix &cdMo)
virtual void setCameraParameters(const vpCameraParameters &camera)
static std::string getParent(const std::string &pathname)
Definition: vpIoTools.cpp:1477
void loadConfigFile(const std::string &configFile)
static const vpColor green
Definition: vpColor.h:183
static void flush(const vpImage< unsigned char > &I)
void setMu1(const double &mu_1)
Definition: vpMe.h:241
static const vpColor red
Definition: vpColor.h:180
void initPersProjWithoutDistortion(const double px, const double py, const double u0, const double v0)
virtual void setNearClippingDistance(const double &dist)
virtual void setOgreVisibilityTest(const bool &v)
static bool checkFilename(const char *filename)
Definition: vpIoTools.cpp:675
void open(vpImage< vpRGBa > &I)
static void compute3DForPointsInPolygons(const vpHomogeneousMatrix &cMo, const vpCameraParameters &cam, std::vector< cv::KeyPoint > &candidates, const std::vector< vpPolygon > &polygons, const std::vector< std::vector< vpPoint > > &roisPt, std::vector< cv::Point3f > &points, cv::Mat *descriptors=NULL)
Definition: vpKeyPoint.cpp:528
void setMaskSize(const unsigned int &a)
Definition: vpMe.cpp:461
double get_v0() const
static void display(const vpImage< unsigned char > &I)
The vpDisplayOpenCV allows to display image using the OpenCV library. Thus to enable this class OpenC...
virtual void getCameraParameters(vpCameraParameters &camera) const
Definition: vpMbTracker.h:248
Generic class defining intrinsic camera parameters.
The vpDisplayGTK allows to display image using the GTK 3rd party library. Thus to enable this class G...
Definition: vpDisplayGTK.h:138
void acquire(vpImage< vpRGBa > &I)
unsigned int buildReference(const vpImage< unsigned char > &I)
Definition: vpKeyPoint.cpp:236
virtual void setFarClippingDistance(const double &dist)
void setFileName(const char *filename)
virtual void setAngleAppear(const double &a)
Definition: vpMbTracker.h:455
double get_px() const
static double rad(double deg)
Definition: vpMath.h:102
static void displayCircle(const vpImage< unsigned char > &I, const vpImagePoint &center, unsigned int radius, const vpColor &color, bool fill=false, unsigned int thickness=1)
static void displayCross(const vpImage< unsigned char > &I, const vpImagePoint &ip, unsigned int size, const vpColor &color, unsigned int thickness=1)
static void cleanup()
Definition: vpXmlParser.h:310
void setMu2(const double &mu_2)
Definition: vpMe.h:248
static void read(vpImage< unsigned char > &I, const std::string &filename)
Definition: vpImageIo.cpp:207
static void displayFrame(const vpImage< unsigned char > &I, const vpHomogeneousMatrix &cMo, const vpCameraParameters &cam, double size, const vpColor &color=vpColor::none, unsigned int thickness=1, const vpImagePoint &offset=vpImagePoint(0, 0))
Class that allows keypoints detection (and descriptors extraction) and matching thanks to OpenCV libr...
Definition: vpKeyPoint.h:228
void saveLearningData(const std::string &filename, const bool binaryMode=false, const bool saveTrainingImages=true)
static std::string getNameWE(const std::string &pathname)
Definition: vpIoTools.cpp:1464
virtual void getPose(vpHomogeneousMatrix &cMo_) const
Definition: vpMbTracker.h:414
void setThreshold(const double &t)
Definition: vpMe.h:300
void display(const vpImage< unsigned char > &I, const vpHomogeneousMatrix &cMo, const vpCameraParameters &cam, const vpColor &col, const unsigned int thickness=1, const bool displayFullModel=false)
unsigned int getHeight() const
Definition: vpImage.h:178
Class that defines a 2D point in an image. This class is useful for image processing and stores only ...
Definition: vpImagePoint.h:88
void setRange(const unsigned int &r)
Definition: vpMe.h:271
virtual void setClipping(const unsigned int &flags)
static void setTitle(const vpImage< unsigned char > &I, const std::string &windowtitle)
cv::Ptr< cv::FeatureDetector > getDetector(const vpFeatureDetectorType &type) const
Definition: vpKeyPoint.h:461
virtual std::pair< std::vector< vpPolygon >, std::vector< std::vector< vpPoint > > > getPolygonFaces(const bool orderPolygons=true, const bool useVisibility=true, const bool clipPolygon=false)
void detect(const vpImage< unsigned char > &I, std::vector< cv::KeyPoint > &keyPoints, const vpRect &rectangle=vpRect())