/* Copyright (c) 2013 Stanislaw Halik * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. */ #include #include #include #include #include #include "./include/markerdetector.h" #include "ftnoir_tracker_aruco.h" #include "opentrack/plugin-api.hpp" #include #include #if defined(_WIN32) # undef NOMINMAX # define NOMINMAX # define NO_DSHOW_STRSAFE # include #else # include #endif // delicious copypasta static QList get_camera_names(void) { QList ret; #if defined(_WIN32) // Create the System Device Enumerator. HRESULT hr; ICreateDevEnum *pSysDevEnum = NULL; hr = CoCreateInstance(CLSID_SystemDeviceEnum, NULL, CLSCTX_INPROC_SERVER, IID_ICreateDevEnum, (void **)&pSysDevEnum); if (FAILED(hr)) { return ret; } // Obtain a class enumerator for the video compressor category. IEnumMoniker *pEnumCat = NULL; hr = pSysDevEnum->CreateClassEnumerator(CLSID_VideoInputDeviceCategory, &pEnumCat, 0); if (hr == S_OK) { // Enumerate the monikers. IMoniker *pMoniker = NULL; ULONG cFetched; while (pEnumCat->Next(1, &pMoniker, &cFetched) == S_OK) { IPropertyBag *pPropBag; hr = pMoniker->BindToStorage(0, 0, IID_IPropertyBag, (void **)&pPropBag); if (SUCCEEDED(hr)) { // To retrieve the filter's friendly name, do the following: VARIANT varName; VariantInit(&varName); hr = pPropBag->Read(L"FriendlyName", &varName, 0); if (SUCCEEDED(hr)) { // Display the name in your UI somehow. QString str((QChar*)varName.bstrVal, wcslen(varName.bstrVal)); ret.append(str); } VariantClear(&varName); ////// To create an instance of the filter, do the following: ////IBaseFilter *pFilter; ////hr = pMoniker->BindToObject(NULL, NULL, IID_IBaseFilter, //// (void**)&pFilter); // Now add the filter to the graph. //Remember to release pFilter later. pPropBag->Release(); } pMoniker->Release(); } pEnumCat->Release(); } pSysDevEnum->Release(); #else for (int i = 0; i < 16; i++) { char buf[128]; sprintf(buf, "/dev/video%d", i); if (access(buf, R_OK | W_OK) == 0) { ret.append(buf); } else { continue; } } #endif return ret; } typedef struct { int width; int height; } resolution_tuple; static resolution_tuple resolution_choices[] = { { 640, 480 }, { 320, 240 }, { 320, 200 }, { 0, 0 } }; Tracker::Tracker() : stop(false), layout(nullptr), videoWidget(nullptr) { } Tracker::~Tracker() { stop = true; wait(); if (videoWidget) delete videoWidget; if(layout) delete layout; qDebug() << "releasing camera, brace for impact"; camera.release(); qDebug() << "all done!"; } void Tracker::start_tracker(QFrame* videoframe) { videoframe->show(); videoWidget = new ArucoVideoWidget(videoframe); QHBoxLayout* layout = new QHBoxLayout(); layout->setContentsMargins(0, 0, 0, 0); layout->addWidget(videoWidget); if (videoframe->layout()) delete videoframe->layout(); videoframe->setLayout(layout); videoWidget->show(); start(); for (int i = 0; i < 6; i++) pose[i] = 0; this->layout = layout; } #define HT_PI 3.1415926535 void Tracker::getRT(cv::Matx33d& r_, cv::Vec3d& t_) { QMutexLocker l(&mtx); r_ = r; t_ = t; } void Tracker::run() { int rint = s.resolution; if (rint < 0 || rint >= (int)(sizeof(resolution_choices) / sizeof(resolution_tuple))) rint = 0; resolution_tuple res = resolution_choices[rint]; int fps; switch (static_cast(s.force_fps)) { default: case 0: fps = 0; break; case 1: fps = 30; break; case 2: fps = 60; break; case 3: fps = 120; break; case 4: fps = 180; break; } camera = cv::VideoCapture(s.camera_index); if (res.width) { camera.set(CV_CAP_PROP_FRAME_WIDTH, res.width); camera.set(CV_CAP_PROP_FRAME_HEIGHT, res.height); } if (fps) camera.set(CV_CAP_PROP_FPS, fps); aruco::MarkerDetector detector; detector.setDesiredSpeed(3); cv::Rect last_roi(65535, 65535, 0, 0); if (!camera.isOpened()) { fprintf(stderr, "aruco tracker: can't open camera\n"); return; } auto freq = cv::getTickFrequency(); auto last_time = cv::getTickCount(); int cur_fps = 0; int last_fps = 0; while (!stop) { cv::Mat color; if (!camera.read(color)) continue; auto tm = cv::getTickCount(); cv::Mat grayscale; cv::cvtColor(color, grayscale, cv::COLOR_RGB2GRAY); const int scale = frame.cols > 480 ? 2 : 1; detector.setThresholdParams(scale > 1 ? 11 : 7, 4); const float focal_length_w = 0.5 * grayscale.cols / tan(0.5 * s.fov * HT_PI / 180); const float focal_length_h = 0.5 * grayscale.rows / tan(0.5 * s.fov * grayscale.rows / grayscale.cols * HT_PI / 180.0); cv::Mat intrinsics = cv::Mat::eye(3, 3, CV_32FC1); intrinsics.at (0, 0) = focal_length_w; intrinsics.at (1, 1) = focal_length_h; intrinsics.at (0, 2) = grayscale.cols/2; intrinsics.at (1, 2) = grayscale.rows/2; cv::Mat dist_coeffs = cv::Mat::zeros(5, 1, CV_32FC1); std::vector< aruco::Marker > markers; const double size_min = 0.02; const double size_max = 0.4; bool roi_valid = false; if (last_roi.width > 0 && last_roi.height) { detector.setMinMaxSize(std::max(0.01, size_min * grayscale.cols / last_roi.width), std::min(1.0, size_max * grayscale.cols / last_roi.width)); if (detector.detect(grayscale(last_roi), markers, cv::Mat(), cv::Mat(), -1, false), markers.size() == 1 && markers[0].size() == 4) { auto& m = markers.at(0); for (int i = 0; i < 4; i++) { auto& p = m.at(i); p.x += last_roi.x; p.y += last_roi.y; } roi_valid = true; } } if (!roi_valid) { detector.setMinMaxSize(size_min, size_max); detector.detect(grayscale, markers, cv::Mat(), cv::Mat(), -1, false); } if (markers.size() == 1 && markers[0].size() == 4) { const auto& m = markers.at(0); for (int i = 0; i < 4; i++) cv::line(color, m[i], m[(i+1)%4], cv::Scalar(0, 0, 255), scale, 8); } auto time = cv::getTickCount(); if ((long) (time / freq) != (long) (last_time / freq)) { last_fps = cur_fps; cur_fps = 0; last_time = time; } cur_fps++; char buf[128]; frame = color.clone(); ::sprintf(buf, "Hz: %d", last_fps); cv::putText(frame, buf, cv::Point(10, 32), cv::FONT_HERSHEY_PLAIN, scale, cv::Scalar(0, 255, 0), scale*2); ::sprintf(buf, "Jiffies: %ld", (long) (10000 * (time - tm) / freq)); cv::putText(frame, buf, cv::Point(10, 54), cv::FONT_HERSHEY_PLAIN, scale, cv::Scalar(80, 255, 0), scale*2); if (markers.size() == 1 && markers[0].size() == 4) { const auto& m = markers.at(0); const float size = 40; cv::Mat obj_points(4,3,CV_32FC1); const int x1=1, x2=2, x3=3, x4=0; obj_points.at(x1,0)=-size + s.headpos_x; obj_points.at(x1,1)=-size + s.headpos_y; obj_points.at(x1,2)= 0 + s.headpos_z; obj_points.at(x2,0)=size + s.headpos_x; obj_points.at(x2,1)=-size + s.headpos_y; obj_points.at(x2,2)= 0 + s.headpos_z; obj_points.at(x3,0)=size + s.headpos_x; obj_points.at(x3,1)=size + s.headpos_y; obj_points.at(x3,2)= 0 + s.headpos_z; obj_points.at(x4,0)= -size + s.headpos_x; obj_points.at(x4,1)= size + s.headpos_y; obj_points.at(x4,2)= 0 + s.headpos_z; cv::Vec3d rvec, tvec; cv::solvePnP(obj_points, m, intrinsics, dist_coeffs, rvec, tvec, false, cv::ITERATIVE); std::vector roi_projection(4); { std::vector repr2; std::vector centroid; centroid.push_back(cv::Point3f(0, 0, 0)); cv::projectPoints(centroid, rvec, tvec, intrinsics, dist_coeffs, repr2); { auto s = cv::Scalar(255, 0, 255); cv::circle(frame, repr2.at(0), 4, s, -1); } } for (int i = 0; i < 4; i++) { obj_points.at(i, 0) -= s.headpos_x; obj_points.at(i, 1) -= s.headpos_y; obj_points.at(i, 2) -= s.headpos_z; } { cv::Mat rvec_, tvec_; cv::solvePnP(obj_points, m, intrinsics, dist_coeffs, rvec_, tvec_, false, cv::ITERATIVE); tvec = tvec_; } cv::Mat roi_points = obj_points * c_search_window; cv::projectPoints(roi_points, rvec, tvec, intrinsics, dist_coeffs, roi_projection); last_roi = cv::Rect(color.cols-1, color.rows-1, 0, 0); for (int i = 0; i < 4; i++) { auto proj = roi_projection[i]; int min_x = std::min(proj.x, last_roi.x), min_y = std::min(proj.y, last_roi.y); int max_x = std::max(proj.x, last_roi.width), max_y = std::max(proj.y, last_roi.height); last_roi.x = min_x; last_roi.y = min_y; last_roi.width = max_x; last_roi.height = max_y; } if (last_roi.x < 0) last_roi.x = 0; if (last_roi.y < 0) last_roi.y = 0; if (last_roi.width+1 > color.cols) last_roi.width = color.cols-1; if (last_roi.height+1 > color.rows) last_roi.height = color.rows-1; last_roi.width -= last_roi.x; last_roi.height -= last_roi.y; auto rmat = cv::Matx33d::zeros(); cv::Matx33d m_r(3, 3, CV_64FC1), m_q(3, 3, CV_64FC1); cv::Rodrigues(rvec, rmat); { cv::Vec3d euler = cv::RQDecomp3x3(rmat, m_r, m_q); QMutexLocker lck(&mtx); tvec[1] *= -1; for (int i = 0; i < 3; i++) pose[i] = tvec(i); pose[Yaw] = euler[1]; pose[Pitch] = -euler[0]; pose[Roll] = euler[2]; r = rmat; t = tvec; } if (roi_valid) cv::rectangle(frame, last_roi, cv::Scalar(255, 0, 255), 1); } else last_roi = cv::Rect(65535, 65535, 0, 0); if (frame.rows > 0) videoWidget->update_image(frame); } } void Tracker::data(double *data) { QMutexLocker lck(&mtx); data[Yaw] = pose[Yaw]; data[Pitch] = pose[Pitch]; data[Roll] = pose[Roll]; data[TX] = pose[TX] * .1; data[TY] = pose[TY] * .1; data[TZ] = pose[TZ] * .1; } class TrackerDll : public Metadata { QString name() { return QString("aruco -- paper marker tracker"); } QIcon icon() { return QIcon(":/images/aruco.png"); } }; //----------------------------------------------------------------------------- //#pragma comment(linker, "/export:GetTrackerDll=_GetTrackerDll@0") extern "C" OPENTRACK_EXPORT Metadata* GetMetadata() { return new TrackerDll; } //#pragma comment(linker, "/export:GetTracker=_GetTracker@0") extern "C" OPENTRACK_EXPORT ITracker* GetConstructor() { return new Tracker; } extern "C" OPENTRACK_EXPORT ITrackerDialog* GetDialog( ) { return new TrackerControls; } TrackerControls::TrackerControls() { tracker = nullptr; calib_timer.setInterval(200); ui.setupUi(this); setAttribute(Qt::WA_NativeWindow, true); ui.cameraName->addItems(get_camera_names()); tie_setting(s.camera_index, ui.cameraName); tie_setting(s.resolution, ui.resolution); tie_setting(s.force_fps, ui.cameraFPS); tie_setting(s.fov, ui.cameraFOV); tie_setting(s.headpos_x, ui.cx); tie_setting(s.headpos_y, ui.cy); tie_setting(s.headpos_z, ui.cz); connect(ui.buttonBox, SIGNAL(accepted()), this, SLOT(doOK())); connect(ui.buttonBox, SIGNAL(rejected()), this, SLOT(doCancel())); connect(ui.btn_calibrate, SIGNAL(clicked()), this, SLOT(toggleCalibrate())); connect(this, SIGNAL(destroyed()), this, SLOT(cleanupCalib())); connect(&calib_timer, SIGNAL(timeout()), this, SLOT(update_tracker_calibration())); } void TrackerControls::toggleCalibrate() { if (!calib_timer.isActive()) { calibrator.reset(); calib_timer.start(); } else { cleanupCalib(); } } void TrackerControls::cleanupCalib() { if (calib_timer.isActive()) calib_timer.stop(); } void TrackerControls::update_tracker_calibration() { if (calib_timer.isActive() && tracker) { cv::Matx33d r; cv::Vec3d t; tracker->getRT(r, t); calibrator.update(r, t); auto pos = calibrator.get_estimate() * .1; s.headpos_x = pos(0); s.headpos_y = pos(1); s.headpos_z = pos(2); } } void TrackerControls::doOK() { s.b->save(); if (tracker) tracker->reload(); this->close(); } void TrackerControls::doCancel() { s.b->reload(); this->close(); }