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tutorial-mb-generic-tracker-live.cpp
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tutorial-mb-generic-tracker-live.cpp
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//! \example tutorial-mb-generic-tracker-live.cpp
#include <visp3/core/vpConfig.h>
#ifdef VISP_HAVE_MODULE_SENSOR
#include <visp3/sensor/vp1394CMUGrabber.h>
#include <visp3/sensor/vp1394TwoGrabber.h>
#include <visp3/sensor/vpFlyCaptureGrabber.h>
#include <visp3/sensor/vpRealSense2.h>
#include <visp3/sensor/vpV4l2Grabber.h>
#endif
#include <visp3/core/vpIoTools.h>
#include <visp3/core/vpXmlParserCamera.h>
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/io/vpImageIo.h>
#include <visp3/vision/vpKeyPoint.h>
//! [Include]
#include <visp3/mbt/vpMbGenericTracker.h>
//! [Include]
#if defined(HAVE_OPENCV_VIDEOIO)
#include <opencv2/videoio.hpp>
#endif
//! [Undef grabber]
// #undef VISP_HAVE_V4L2
// #undef VISP_HAVE_DC1394
// #undef VISP_HAVE_CMU1394
// #undef VISP_HAVE_FLYCAPTURE
// #undef VISP_HAVE_REALSENSE2
// #undef VISP_HAVE_OPENCV
//! [Undef grabber]
int main(int argc, char **argv)
{
#if defined(VISP_HAVE_OPENCV) && defined(HAVE_OPENCV_VIDEOIO) && \
(defined(VISP_HAVE_V4L2) || defined(VISP_HAVE_DC1394) || defined(VISP_HAVE_CMU1394) || \
defined(HAVE_OPENCV_HIGHGUI) || defined(VISP_HAVE_FLYCAPTURE) || defined(VISP_HAVE_REALSENSE2))
#ifdef ENABLE_VISP_NAMESPACE
using namespace VISP_NAMESPACE_NAME;
#endif
try {
std::string opt_modelname = "model/teabox/teabox.cao";
int opt_tracker = 2;
int opt_device = 0; // For OpenCV and V4l2 grabber to set the camera device
double opt_proj_error_threshold = 30.;
bool opt_use_ogre = false;
bool opt_use_scanline = false;
bool opt_display_projection_error = false;
bool opt_learn = false;
bool opt_auto_init = false;
std::string opt_learning_data = "learning/data-learned.bin";
std::string opt_intrinsic_file = "";
std::string opt_camera_name = "";
for (int i = 0; i < argc; i++) {
if (std::string(argv[i]) == "--model") {
opt_modelname = std::string(argv[i + 1]);
}
else if (std::string(argv[i]) == "--tracker") {
opt_tracker = atoi(argv[i + 1]);
}
else if (std::string(argv[i]) == "--camera_device" && i + 1 < argc) {
opt_device = atoi(argv[i + 1]);
}
else if (std::string(argv[i]) == "--max_proj_error") {
opt_proj_error_threshold = atof(argv[i + 1]);
}
else if (std::string(argv[i]) == "--use_ogre") {
opt_use_ogre = true;
}
else if (std::string(argv[i]) == "--use_scanline") {
opt_use_scanline = true;
}
else if (std::string(argv[i]) == "--learn") {
opt_learn = true;
}
else if (std::string(argv[i]) == "--learning_data" && i + 1 < argc) {
opt_learning_data = argv[i + 1];
}
else if (std::string(argv[i]) == "--auto_init") {
opt_auto_init = true;
}
else if (std::string(argv[i]) == "--display_proj_error") {
opt_display_projection_error = true;
}
else if (std::string(argv[i]) == "--intrinsic" && i + 1 < argc) {
opt_intrinsic_file = std::string(argv[i + 1]);
}
else if (std::string(argv[i]) == "--camera_name" && i + 1 < argc) {
opt_camera_name = std::string(argv[i + 1]);
}
else if (std::string(argv[i]) == "--help" || std::string(argv[i]) == "-h") {
std::cout
<< "\nUsage: " << argv[0] << " [--camera_device <camera device> (default: 0)]"
<< " [--intrinsic <intrinsic file> (default: empty)]"
<< " [--camera_name <camera name> (default: empty)]"
<< " [--model <model name> (default: teabox)]"
<< " [--tracker <0=egde|1=keypoint|2=hybrid> (default: 2)]"
<< " [--use_ogre] [--use_scanline]"
<< " [--max_proj_error <allowed projection error> (default: 30)]"
<< " [--learn] [--auto_init] [--learning_data <data-learned.bin> (default: learning/data-learned.bin)]"
<< " [--display_proj_error]"
<< " [--help] [-h]\n"
<< std::endl;
return EXIT_SUCCESS;
}
}
std::string parentname = vpIoTools::getParent(opt_modelname);
std::string objectname = vpIoTools::getNameWE(opt_modelname);
if (!parentname.empty())
objectname = parentname + "/" + objectname;
std::cout << "Tracker requested config files: " << objectname << ".[init, cao]" << std::endl;
std::cout << "Tracker optional config files: " << objectname << ".[ppm]" << std::endl;
std::cout << "Tracked features: " << std::endl;
std::cout << " Use edges : " << (opt_tracker == 0 || opt_tracker == 2) << std::endl;
std::cout << " Use klt : " << (opt_tracker == 1 || opt_tracker == 2) << std::endl;
std::cout << "Tracker options: " << std::endl;
std::cout << " Use ogre : " << opt_use_ogre << std::endl;
std::cout << " Use scanline: " << opt_use_scanline << std::endl;
std::cout << " Proj. error : " << opt_proj_error_threshold << std::endl;
std::cout << " Display proj. error: " << opt_display_projection_error << std::endl;
std::cout << "Config files: " << std::endl;
std::cout << " Config file : "
<< "\"" << objectname + ".xml"
<< "\"" << std::endl;
std::cout << " Model file : "
<< "\"" << objectname + ".cao"
<< "\"" << std::endl;
std::cout << " Init file : "
<< "\"" << objectname + ".init"
<< "\"" << std::endl;
std::cout << "Learning options : " << std::endl;
std::cout << " Learn : " << opt_learn << std::endl;
std::cout << " Auto init : " << opt_auto_init << std::endl;
std::cout << " Learning data: " << opt_learning_data << std::endl;
//! [Image]
#if VISP_VERSION_INT > VP_VERSION_INT(3, 2, 0)
vpImage<vpRGBa> I; // Since ViSP 3.2.0 we support model-based tracking on color images
#else
vpImage<unsigned char> I; // Tracking on gray level images
#endif
//! [Image]
//! [Set camera parameters]
vpCameraParameters cam;
cam.initPersProjWithoutDistortion(839, 839, 325, 243);
//! [Set camera parameters]
#if defined(VISP_HAVE_PUGIXML)
vpXmlParserCamera parser;
if (!opt_intrinsic_file.empty() && !opt_camera_name.empty()) {
parser.parse(cam, opt_intrinsic_file, opt_camera_name, vpCameraParameters::perspectiveProjWithoutDistortion);
}
#endif
//! [cMo]
vpHomogeneousMatrix cMo;
//! [cMo]
//! [Grabber]
#if defined(VISP_HAVE_V4L2)
vpV4l2Grabber g;
std::ostringstream device;
device << "/dev/video" << opt_device;
std::cout << "Use Video 4 Linux grabber on device " << device.str() << std::endl;
g.setDevice(device.str());
g.setScale(1);
g.open(I);
#elif defined(VISP_HAVE_DC1394)
(void)opt_device; // To avoid non used warning
std::cout << "Use DC1394 grabber" << std::endl;
vp1394TwoGrabber g;
g.open(I);
#elif defined(VISP_HAVE_CMU1394)
(void)opt_device; // To avoid non used warning
std::cout << "Use CMU1394 grabber" << std::endl;
vp1394CMUGrabber g;
g.open(I);
#elif defined(VISP_HAVE_FLYCAPTURE)
(void)opt_device; // To avoid non used warning
std::cout << "Use FlyCapture grabber" << std::endl;
vpFlyCaptureGrabber g;
g.open(I);
#elif defined(VISP_HAVE_REALSENSE2)
(void)opt_device; // To avoid non used warning
std::cout << "Use Realsense 2 grabber" << std::endl;
vpRealSense2 g;
rs2::config config;
config.disable_stream(RS2_STREAM_DEPTH);
config.disable_stream(RS2_STREAM_INFRARED);
config.enable_stream(RS2_STREAM_COLOR, 640, 480, RS2_FORMAT_RGBA8, 30);
g.open(config);
g.acquire(I);
std::cout << "Read camera parameters from Realsense device" << std::endl;
cam = g.getCameraParameters(RS2_STREAM_COLOR, vpCameraParameters::perspectiveProjWithoutDistortion);
#elif defined(HAVE_OPENCV_VIDEOIO)
std::cout << "Use OpenCV grabber on device " << opt_device << std::endl;
cv::VideoCapture g(opt_device); // Open the default camera
if (!g.isOpened()) { // Check if we succeeded
std::cout << "Failed to open the camera" << std::endl;
return EXIT_FAILURE;
}
cv::Mat frame;
g >> frame; // get a new frame from camera
vpImageConvert::convert(frame, I);
#endif
//! [Grabber]
vpDisplay *display = nullptr;
#if defined(VISP_HAVE_X11)
display = new vpDisplayX;
#elif defined(VISP_HAVE_GDI)
display = new vpDisplayGDI;
#elif defined(HAVE_OPENCV_HIGHGUI)
display = new vpDisplayOpenCV;
#endif
display->init(I, 100, 100, "Model-based tracker");
while (true) {
#if defined(VISP_HAVE_V4L2) || defined(VISP_HAVE_DC1394) || defined(VISP_HAVE_CMU1394) || \
defined(VISP_HAVE_FLYCAPTURE) || defined(VISP_HAVE_REALSENSE2)
g.acquire(I);
#elif defined(HAVE_OPENCV_VIDEOIO)
g >> frame;
vpImageConvert::convert(frame, I);
#endif
vpDisplay::display(I);
vpDisplay::displayText(I, 20, 20, "Click when ready.", vpColor::red);
vpDisplay::flush(I);
if (vpDisplay::getClick(I, false)) {
break;
}
}
//! [Constructor]
vpMbGenericTracker tracker;
if (opt_tracker == 0)
tracker.setTrackerType(vpMbGenericTracker::EDGE_TRACKER);
#if defined(VISP_HAVE_MODULE_KLT) && defined(VISP_HAVE_OPENCV) && defined(HAVE_OPENCV_IMGPROC) && defined(HAVE_OPENCV_VIDEO)
else if (opt_tracker == 1)
tracker.setTrackerType(vpMbGenericTracker::KLT_TRACKER);
else
tracker.setTrackerType(vpMbGenericTracker::EDGE_TRACKER | vpMbGenericTracker::KLT_TRACKER);
#else
else {
#if !defined(VISP_HAVE_MODULE_KLT)
std::cout << "klt and hybrid model-based tracker are not available since visp_klt module is not available. "
"In CMakeGUI turn visp_klt module ON, configure and build ViSP again."
<< std::endl;
#else
std::cout << "Hybrid tracking is impossible since OpenCV is not enabled. "
<< "Install OpenCV, configure and build ViSP again to run this tutorial." << std::endl;
#endif
return EXIT_SUCCESS;
}
#endif
//! [Constructor]
bool usexml = false;
//! [Load xml]
#if defined(VISP_HAVE_PUGIXML)
if (vpIoTools::checkFilename(objectname + ".xml")) {
tracker.loadConfigFile(objectname + ".xml");
usexml = true;
}
#endif
//! [Load xml]
if (!usexml) {
//! [Set parameters]
if (opt_tracker == 0 || opt_tracker == 2) {
//! [Set moving-edges parameters]
vpMe me;
me.setMaskSize(5);
me.setMaskNumber(180);
me.setRange(8);
me.setLikelihoodThresholdType(vpMe::NORMALIZED_THRESHOLD);
me.setThreshold(20);
me.setMu1(0.5);
me.setMu2(0.5);
me.setSampleStep(4);
tracker.setMovingEdge(me);
//! [Set moving-edges parameters]
}
#if defined(VISP_HAVE_MODULE_KLT) && defined(VISP_HAVE_OPENCV) && defined(HAVE_OPENCV_IMGPROC) && defined(HAVE_OPENCV_VIDEO)
if (opt_tracker == 1 || opt_tracker == 2) {
//! [Set klt parameters]
vpKltOpencv klt_settings;
klt_settings.setMaxFeatures(300);
klt_settings.setWindowSize(5);
klt_settings.setQuality(0.015);
klt_settings.setMinDistance(8);
klt_settings.setHarrisFreeParameter(0.01);
klt_settings.setBlockSize(3);
klt_settings.setPyramidLevels(3);
tracker.setKltOpencv(klt_settings);
tracker.setKltMaskBorder(5);
//! [Set klt parameters]
}
#endif
}
tracker.setCameraParameters(cam);
//! [Set parameters]
//! [Load cao]
tracker.loadModel(objectname + ".cao");
//! [Load cao]
//! [Set display]
tracker.setDisplayFeatures(true);
//! [Set display]
//! [Set visibility algorithm]
tracker.setOgreVisibilityTest(opt_use_ogre);
tracker.setScanLineVisibilityTest(opt_use_scanline);
//! [Set visibility algorithm]
//! [Set projection error computation]
tracker.setProjectionErrorComputation(true);
tracker.setProjectionErrorDisplay(opt_display_projection_error);
//! [Set projection error computation]
#if (defined(VISP_HAVE_OPENCV_NONFREE) || defined(VISP_HAVE_OPENCV_XFEATURES2D)) || \
(VISP_HAVE_OPENCV_VERSION >= 0x030411 && CV_MAJOR_VERSION < 4) || (VISP_HAVE_OPENCV_VERSION >= 0x040400)
std::string detectorName = "SIFT";
std::string extractorName = "SIFT";
std::string matcherName = "BruteForce";
#else
std::string detectorName = "FAST";
std::string extractorName = "ORB";
std::string matcherName = "BruteForce-Hamming";
#endif
vpKeyPoint keypoint;
if (opt_learn || opt_auto_init) {
keypoint.setDetector(detectorName);
keypoint.setExtractor(extractorName);
keypoint.setMatcher(matcherName);
#if !(defined(VISP_HAVE_OPENCV_NONFREE) || defined(VISP_HAVE_OPENCV_XFEATURES2D))
#if (VISP_HAVE_OPENCV_VERSION < 0x030000)
keypoint.setDetectorParameter("ORB", "nLevels", 1);
#else
cv::Ptr<cv::ORB> orb_detector = keypoint.getDetector("ORB").dynamicCast<cv::ORB>();
if (orb_detector) {
orb_detector->setNLevels(1);
}
#endif
#endif
}
if (opt_auto_init) {
if (!vpIoTools::checkFilename(opt_learning_data)) {
std::cout << "Cannot enable auto detection. Learning file \"" << opt_learning_data << "\" doesn't exist"
<< std::endl;
return EXIT_FAILURE;
}
keypoint.loadLearningData(opt_learning_data, true);
}
else {
tracker.initClick(I, objectname + ".init", true);
}
bool learn_position = false;
bool run_auto_init = false;
if (opt_auto_init) {
run_auto_init = true;
}
// To be able to display keypoints matching with test-detection-rs2
int learn_id = 1;
unsigned int learn_cpt = 0;
bool quit = false;
bool tracking_failed = false;
while (!quit) {
double t_begin = vpTime::measureTimeMs();
#if defined(VISP_HAVE_V4L2) || defined(VISP_HAVE_DC1394) || defined(VISP_HAVE_CMU1394) || \
defined(VISP_HAVE_FLYCAPTURE) || defined(VISP_HAVE_REALSENSE2)
g.acquire(I);
#elif defined(HAVE_OPENCV_VIDEOIO)
g >> frame;
vpImageConvert::convert(frame, I);
#endif
vpDisplay::display(I);
// Run auto initialization from learned data
if (run_auto_init) {
tracking_failed = false;
if (keypoint.matchPoint(I, cam, cMo)) {
std::cout << "Auto init succeed" << std::endl;
tracker.initFromPose(I, cMo);
}
else {
vpDisplay::flush(I);
continue;
}
}
else if (tracking_failed) {
// Manual init
tracking_failed = false;
tracker.initClick(I, objectname + ".init", true);
}
// Run the tracker
try {
if (run_auto_init) {
// Turn display features off just after auto init to not display wrong moving-edge if the tracker fails
tracker.setDisplayFeatures(false);
run_auto_init = false;
}
tracker.track(I);
}
catch (const vpException &e) {
std::cout << "Tracker exception: " << e.getStringMessage() << std::endl;
tracking_failed = true;
if (opt_auto_init) {
std::cout << "Tracker needs to restart (tracking exception)" << std::endl;
run_auto_init = true;
}
}
if (!tracking_failed) {
double proj_error = 0;
if (tracker.getTrackerType() & vpMbGenericTracker::EDGE_TRACKER) {
// Check tracking errors
proj_error = tracker.getProjectionError();
}
else {
tracker.getPose(cMo);
tracker.getCameraParameters(cam);
proj_error = tracker.computeCurrentProjectionError(I, cMo, cam);
}
if (proj_error > opt_proj_error_threshold) {
std::cout << "Tracker needs to restart (projection error detected: " << proj_error << ")" << std::endl;
if (opt_auto_init) {
run_auto_init = true;
}
tracking_failed = true;
}
}
if (!tracking_failed) {
tracker.setDisplayFeatures(true);
//! [Get pose]
tracker.getPose(cMo);
//! [Get pose]
//! [Display]
tracker.getCameraParameters(cam);
tracker.display(I, cMo, cam, vpColor::green, 2, false);
//! [Display]
vpDisplay::displayFrame(I, cMo, cam, 0.025, vpColor::none, 3);
{ // Display estimated pose in [m] and [deg]
vpPoseVector pose(cMo);
std::stringstream ss;
ss << "Translation: " << std::setprecision(5) << pose[0] << " " << pose[1] << " " << pose[2] << " [m]";
vpDisplay::displayText(I, 80, 20, ss.str(), vpColor::green);
ss.str(""); // erase ss
ss << "Rotation tu: " << std::setprecision(4) << vpMath::deg(pose[3]) << " " << vpMath::deg(pose[4]) << " "
<< vpMath::deg(pose[5]) << " [deg]";
vpDisplay::displayText(I, 100, 20, ss.str(), vpColor::green);
}
{
std::stringstream ss;
ss << "Features: edges " << tracker.getNbFeaturesEdge() << ", klt " << tracker.getNbFeaturesKlt();
vpDisplay::displayText(I, 120, 20, ss.str(), vpColor::red);
}
}
if (learn_position) {
learn_cpt++;
// Detect keypoints on the current image
std::vector<cv::KeyPoint> trainKeyPoints;
keypoint.detect(I, trainKeyPoints);
// Keep only keypoints on the cube
std::vector<vpPolygon> polygons;
std::vector<std::vector<vpPoint> > roisPt;
std::pair<std::vector<vpPolygon>, std::vector<std::vector<vpPoint> > > pair = tracker.getPolygonFaces();
polygons = pair.first;
roisPt = pair.second;
// Compute the 3D coordinates
std::vector<cv::Point3f> points3f;
vpKeyPoint::compute3DForPointsInPolygons(cMo, cam, trainKeyPoints, polygons, roisPt, points3f);
// Build the reference keypoints
keypoint.buildReference(I, trainKeyPoints, points3f, true, learn_id++);
// Display learned data
for (std::vector<cv::KeyPoint>::const_iterator it = trainKeyPoints.begin(); it != trainKeyPoints.end(); ++it) {
vpDisplay::displayCross(I, (int)it->pt.y, (int)it->pt.x, 10, vpColor::yellow, 3);
}
learn_position = false;
std::cout << "Data learned" << std::endl;
}
std::stringstream ss;
ss << "Loop time: " << vpTime::measureTimeMs() - t_begin << " ms";
vpDisplay::displayText(I, 20, 20, ss.str(), vpColor::red);
if (opt_learn)
vpDisplay::displayText(I, 35, 20, "Left click: learn Right click: quit", vpColor::red);
else if (opt_auto_init)
vpDisplay::displayText(I, 35, 20, "Left click: auto_init Right click: quit", vpColor::red);
else
vpDisplay::displayText(I, 35, 20, "Right click: quit", vpColor::red);
vpMouseButton::vpMouseButtonType button;
if (vpDisplay::getClick(I, button, false)) {
if (button == vpMouseButton::button3) {
quit = true;
}
else if (button == vpMouseButton::button1 && opt_learn) {
learn_position = true;
}
else if (button == vpMouseButton::button1 && opt_auto_init && !opt_learn) {
run_auto_init = true;
}
}
vpDisplay::flush(I);
}
if (opt_learn && learn_cpt) {
std::cout << "Save learning from " << learn_cpt << " images in file: " << opt_learning_data << std::endl;
keypoint.saveLearningData(opt_learning_data, true, true);
}
//! [Cleanup]
delete display;
//! [Cleanup]
}
catch (const vpException &e) {
std::cout << "Catch a ViSP exception: " << e << std::endl;
}
#elif defined(VISP_HAVE_OPENCV)
(void)argc;
(void)argv;
std::cout << "Install a 3rd party dedicated to frame grabbing (dc1394, cmu1394, v4l2, OpenCV, FlyCapture, "
"Realsense2), configure and build ViSP again to use this example"
<< std::endl;
#else
(void)argc;
(void)argv;
std::cout << "Install OpenCV 3rd party, configure and build ViSP again to use this example" << std::endl;
#endif
}