blame | history | patch | commit | commitdiff | ignore whitespace
AlexeyAB
2018-01-07 0419c54042b7dcdde5ba7857b6d0f91b8fcc2003 
 src/yolo_console_dll.cpp


@@ -15,6 +15,7 @@


#endif




#define TRACK_OPTFLOW




#include "yolo_v2_class.hpp"  // imported functions from DLL




#ifdef OPENCV


@@ -93,8 +94,8 @@


   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";


@@ -131,7 +132,7 @@


            int current_det_fps = 0, current_cap_fps = 0;


            std::thread t_detect, t_cap, t_videowrite;


            std::mutex mtx;


            std::condition_variable cv;


            std::condition_variable cv_detected, cv_pre_tracked;


            std::chrono::steady_clock::time_point steady_start, steady_end;


            cv::VideoCapture cap(filename); cap >> cur_frame;


            int const video_fps = cap.get(CV_CAP_PROP_FPS);


@@ -153,35 +154,31 @@


               // swap result bouned-boxes and input-frame


               if(consumed)


               {


                  {


                     std::unique_lock<std::mutex> lock(mtx);


                     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;


                  std::unique_lock<std::mutex> lock(mtx);


                  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




#ifdef TRACK_OPTFLOW


                     // track optical flow


                     if (track_optflow_queue.size() > 0) {


                        std::queue<cv::Mat> new_track_optflow_queue;


                        //std::cout << "\n !!!! all = " << track_optflow_queue.size() << ", cur = " << passed_flow_frames << std::endl;


                        tracker_flow.update_tracking_flow(track_optflow_queue.front());


                  // track optical flow


                  if (track_optflow_queue.size() > 0) {


                     std::queue<cv::Mat> new_track_optflow_queue;


                     //std::cout << "\n !!!! all = " << track_optflow_queue.size() << ", cur = " << passed_flow_frames << std::endl;


                     tracker_flow.update_tracking_flow(track_optflow_queue.front());




                     while (track_optflow_queue.size() > 1) {


                        track_optflow_queue.pop();


                        while (track_optflow_queue.size() > 0) {


                           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;




                           track_optflow_queue.pop();


                        }


                        track_optflow_queue = new_track_optflow_queue;


                        new_track_optflow_queue.swap(std::queue<cv::Mat>());


                        passed_flow_frames = 0;


                        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;


                     }


                     track_optflow_queue = new_track_optflow_queue;


                     new_track_optflow_queue.swap(std::queue<cv::Mat>());


                     passed_flow_frames = 0;


                  }


#endif




                  consumed = false;


                  cv_pre_tracked.notify_all();


               }


               // launch thread once - Detection


               if (!t_detect.joinable()) {


@@ -189,6 +186,7 @@


                     auto current_image = det_image;


                     consumed = true;


                     while (current_image.use_count() > 0) {


                        //std::vector<bbox_t> result;


                        auto result = detector.detect_resized(*current_image, frame_size, 0.24, false);  // true


                        //Sleep(200);


                        Sleep(50);


@@ -197,7 +195,8 @@


                        thread_result_vec = result;


                        current_image = det_image;


                        consumed = true;


                        cv.notify_all();


                        cv_detected.notify_all();


                        while (consumed) cv_pre_tracked.wait(lock);


                     }


                  });


               }


@@ -234,7 +233,7 @@


               // wait detection result for video-file only (not for net-cam)


               //if (protocol != "rtsp://" && protocol != "http://" && protocol != "https:/") {


               // std::unique_lock<std::mutex> lock(mtx);


               // while (!consumed) cv.wait(lock);


               // while (!consumed) cv_detected.wait(lock);


               //}


            }


            if (t_cap.joinable()) t_cap.join();