~speedprog/mtg/mtg_card_detector.git

			@@ -93,8 +93,8 @@
			std::string filename;
			if (argc > 1) filename = argv[1];

			//Detector detector("cfg/yolo-voc.cfg", "yolo-voc.weights");
			Detector detector("tiny-yolo-voc_air.cfg", "backup/tiny-yolo-voc_air_5000.weights");
			Detector detector("cfg/yolo-voc.cfg", "yolo-voc.weights");
			//Detector detector("tiny-yolo-voc_air.cfg", "backup/tiny-yolo-voc_air_5000.weights");

			auto obj_names = objects_names_from_file("data/voc.names");
			std::string out_videofile = "result.avi";
			@@ -158,71 +158,27 @@
			det_image = detector.mat_to_image_resize(cur_frame);
			result_vec = thread_result_vec;
			result_vec = detector.tracking(result_vec); // comment it - if track_id is not required

			consumed = false;
			}

			#ifdef TRACK_OPTFLOW
			int y = 0, x = 0;
			cv::Mat show_flow = cur_frame.clone();
			auto lambda = [&x, &y](cv::Mat draw_frame, cv::Mat src_frame, std::vector<bbox_t> result_vec) {
			//if (x > 10) return;
			if (result_vec.size() == 0) return;
			bbox_t i = result_vec[0];
			cv::Rect r(i.x, i.y, i.w, i.h);
			//cv::Rect r(i.x + (i.w-31)/2, i.y + (i.h - 31)/2, 31, 31);
			cv::Rect img_rect(cv::Point2i(0, 0), src_frame.size());
			cv::Rect rect_roi = r & img_rect;
			if (rect_roi.width < 1 \|\| rect_roi.height < 1) return;
			cv::Mat roi = src_frame(rect_roi);
			cv::Mat dst;
			cv::resize(roi, dst, cv::Size(100, 100));
			if (x > 10) x = 0, ++y;
			cv::Rect dst_rect_roi(cv::Point2i(x100, y100), dst.size());
			cv::Mat dst_roi = draw_frame(dst_rect_roi);
			dst.copyTo(dst_roi);

			++x;
			};


			// track optical flow
			if (track_optflow_queue.size() > 0) {
			//show_flow = track_optflow_queue.front().clone();
			//draw_boxes(show_flow, result_vec, obj_names, 3, current_det_fps, current_cap_fps);

			std::queue<cv::Mat> new_track_optflow_queue;
			//std::cout << "\n !!!! all = " << track_optflow_queue.size() << ", cur = " << passed_flow_frames << std::endl;
			if (result_vec.size() > 0) {
			draw_boxes(track_optflow_queue.front().clone(), result_vec, obj_names, 3, current_det_fps, current_cap_fps);
			std::cout << "\n frame_size = " << track_optflow_queue.size() << std::endl;
			cv::waitKey(1000);
			}
			tracker_flow.update_tracking_flow(track_optflow_queue.front());
			lambda(show_flow, track_optflow_queue.front(), result_vec);

			track_optflow_queue.pop();
			while(track_optflow_queue.size() > 0) {
			if (result_vec.size() > 0) {
			draw_boxes(track_optflow_queue.front().clone(), result_vec, obj_names, 3, current_det_fps, current_cap_fps);
			std::cout << "\n frame_size = " << track_optflow_queue.size() << std::endl;
			cv::waitKey(1000);
			}
			result_vec = tracker_flow.tracking_flow(track_optflow_queue.front(), result_vec);
			if (track_optflow_queue.size() <= passed_flow_frames && new_track_optflow_queue.size() == 0)
			new_track_optflow_queue = track_optflow_queue;
			lambda(show_flow, track_optflow_queue.front(), result_vec);

			track_optflow_queue.pop();
			}
			track_optflow_queue = new_track_optflow_queue;
			new_track_optflow_queue.swap(std::queue<cv::Mat>());
			passed_flow_frames = 0;
			//std::cout << "\n !!!! now = " << track_optflow_queue.size() << ", cur = " << passed_flow_frames << std::endl;

			cv::imshow("flow", show_flow);
			cv::waitKey(3);
			//if (result_vec.size() > 0) {
			// cv::waitKey(1000);
			//}
			}
			}
			#endif