/* Copyright (c) 2012 Patrick Ruoff * Copyright (c) 2014-2016 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 "ftnoir_tracker_pt.h" #include #include #include #include #include #include "compat/camera-names.hpp" #include "compat/sleep.hpp" #include //#define PT_PERF_LOG //log performance constexpr f Tracker_PT::pi; //----------------------------------------------------------------------------- Tracker_PT::Tracker_PT() : video_widget(nullptr), video_frame(nullptr), point_count(0), commands(0), ever_success(false) { connect(s.b.get(), SIGNAL(saving()), this, SLOT(apply_settings())); } Tracker_PT::~Tracker_PT() { set_command(ABORT); wait(); if (video_widget) delete video_widget; video_widget = NULL; if (video_frame) { if (video_frame->layout()) delete video_frame->layout(); } // fast start/stop causes breakage portable::sleep(1000); camera.stop(); } void Tracker_PT::set_command(Command command) { //QMutexLocker lock(&mutex); commands |= command; } void Tracker_PT::reset_command(Command command) { //QMutexLocker lock(&mutex); commands &= ~command; } bool Tracker_PT::get_focal_length(f& ret) { QMutexLocker l(&camera_mtx); CamInfo info; const bool res = camera.get_info(info); if (res) { using std::tan; using std::atan; using std::sqrt; const int w = info.res_x, h = info.res_y; const double diag = sqrt(1. + h/(double)w * h/(double)w); const double diag_fov = static_cast(s.fov) * pi / 180.; const double fov = 2.*atan(tan(diag_fov/2.0)/diag); ret = .5 / tan(.5 * fov); return true; } return false; } void Tracker_PT::run() { cv::setNumThreads(0); #ifdef PT_PERF_LOG QFile log_file(QCoreApplication::applicationDirPath() + "/PointTrackerPerformance.txt"); if (!log_file.open(QIODevice::WriteOnly | QIODevice::Text)) return; QTextStream log_stream(&log_file); #endif apply_settings(); cv::Mat frame_; while((commands & ABORT) == 0) { const double dt = time.elapsed_seconds(); time.start(); bool new_frame; { QMutexLocker l(&camera_mtx); new_frame = camera.get_frame(dt, &frame); if (frame.rows != frame_.rows || frame.cols != frame_.cols) frame_ = cv::Mat(frame.rows, frame.cols, CV_8UC3); frame.copyTo(frame_); } if (new_frame && !frame_.empty()) { CamInfo cam_info; if (!camera.get_info(cam_info)) continue; point_extractor.extract_points(frame_, points); point_count = points.size(); f fx; if (!get_focal_length(fx)) continue; const bool success = points.size() >= PointModel::N_POINTS; if (success) { point_tracker.track(points, PointModel(s), fx, s.dynamic_pose, s.init_phase_timeout, cam_info.res_x, cam_info.res_y); ever_success = true; } auto fun = [&](const vec2& p, const cv::Scalar& color) { using std::round; cv::Point p2(round(p[0] * frame_.cols + frame_.cols/2), round(-p[1] * frame_.cols + frame_.rows/2)); cv::line(frame_, cv::Point(p2.x - 20, p2.y), cv::Point(p2.x + 20, p2.y), color, 2); cv::line(frame_, cv::Point(p2.x, p2.y - 20), cv::Point(p2.x, p2.y + 20), color, 2); }; for (unsigned i = 0; i < points.size(); i++) { fun(points[i], cv::Scalar(0, 255, 0)); } { Affine X_CM; { QMutexLocker l(&data_mtx); X_CM = point_tracker.pose(); } Affine X_MH(mat33::eye(), vec3(s.t_MH_x, s.t_MH_y, s.t_MH_z)); // just copy pasted these lines from below Affine X_GH = X_CM * X_MH; vec3 p = X_GH.t; // head (center?) position in global space vec2 p_(p[0] / p[2] * fx, p[1] / p[2] * fx); // projected to screen fun(p_, cv::Scalar(0, 0, 255)); } video_widget->update_image(frame_); } } qDebug()<<"Tracker:: Thread stopping"; } void Tracker_PT::apply_settings() { qDebug() << "Tracker:: Applying settings"; QMutexLocker l(&camera_mtx); CamInfo info = camera.get_desired(); const QString name = camera.get_desired_name(); if (s.cam_fps != info.fps || s.cam_res_x != info.res_x || s.cam_res_y != info.res_y || s.camera_name != name) { qDebug() << "pt: camera reset needed"; camera.stop(); camera.set_device(s.camera_name); camera.set_res(s.cam_res_x, s.cam_res_y); camera.set_fps(s.cam_fps); frame = cv::Mat(); camera.start(); } else qDebug() << "pt: camera not needing reset"; qDebug() << "Tracker::apply ends"; } void Tracker_PT::start_tracker(QFrame *parent_window) { video_frame = parent_window; video_frame->setAttribute(Qt::WA_NativeWindow); video_frame->show(); video_widget = new cv_video_widget(video_frame); QHBoxLayout* video_layout = new QHBoxLayout(parent_window); video_layout->setContentsMargins(0, 0, 0, 0); video_layout->addWidget(video_widget); video_frame->setLayout(video_layout); video_widget->resize(video_frame->width(), video_frame->height()); start(); } void Tracker_PT::data(double *data) { if (ever_success) { Affine X_CM = pose(); Affine X_MH(mat33::eye(), vec3(s.t_MH_x, s.t_MH_y, s.t_MH_z)); Affine X_GH = X_CM * X_MH; // translate rotation matrix from opengl (G) to roll-pitch-yaw (E) frame // -z -> x, y -> z, x -> -y mat33 R_EG(0, 0,-1, -1, 0, 0, 0, 1, 0); mat33 R = R_EG * X_GH.R * R_EG.t(); using std::atan2; using std::sqrt; // extract rotation angles { f alpha, beta, gamma; beta = atan2( -R(2,0), sqrt(R(2,1)*R(2,1) + R(2,2)*R(2,2)) ); alpha = atan2( R(1,0), R(0,0)); gamma = atan2( R(2,1), R(2,2)); data[Yaw] = rad2deg * alpha; data[Pitch] = -rad2deg * beta; data[Roll] = rad2deg * gamma; } // get translation(s) const vec3& t = X_GH.t; // convert to cm data[TX] = t[0] / 10; data[TY] = t[1] / 10; data[TZ] = t[2] / 10; } } Affine Tracker_PT::pose() { QMutexLocker l(&data_mtx); return point_tracker.pose(); } int Tracker_PT::get_n_points() { return int(point_count); } bool Tracker_PT::get_cam_info(CamInfo* info) { QMutexLocker lock(&camera_mtx); return camera.get_info(*info); } #include "ftnoir_tracker_pt_dialog.h" OPENTRACK_DECLARE_TRACKER(Tracker_PT, TrackerDialog_PT, TrackerDll)