#include #include #include #include #include "ImageManager.hpp" #include "FaultManager.hpp" #define ZERO 0 #define BITS8 0xff #define BITS14 0x3fff #define BITS16 0xffff using namespace cv; Mat testFrame = imread("/home/midstate/Documents/flirTest.tif", CV_16UC1); bool ImageManager::ProcessImage(uint32_t width, uint32_t height, uint8_t *imgPointer, FaultManager fault_mgr, bool test = false) { Mat frame, mask, viewfinder; std::vector> contours; static int lower_bound = ZERO; static int upper_bound = BITS14; static int temp_threshold = BITS14; static int fault_area = ZERO; if (throttle_count == THROTTLE_AMOUNT) { throttle_count = 1; } else { throttle_count++; return true; } // Read in frame if (!test) frame = Mat(height, width, CV_16UC1, imgPointer, Mat::AUTO_STEP); else frame = testFrame; // Create mask and then flatten GaussianBlur(frame, mask, cv::Size(0, 0), 1); threshold(mask, mask, temp_threshold, BITS16, THRESH_BINARY); // use inrange for mask in range of values mask.convertTo(mask, CV_8UC1); // Analyze mask findContours(mask, contours, RETR_EXTERNAL, CHAIN_APPROX_NONE); // Create viewfinder with results viewfinder = frame.clone(); viewfinder.setTo(lower_bound, viewfinder < lower_bound); viewfinder.setTo(upper_bound, viewfinder > upper_bound); normalize(viewfinder, viewfinder, ZERO, BITS8, NORM_MINMAX, CV_8UC1); applyColorMap(viewfinder, viewfinder, COLORMAP_HOT); // Apply contours to viewfinder for(int i = 0; i< contours.size(); i++) { double area = contourArea(contours[i]); if (area > fault_area) { drawContours(viewfinder, contours, i, Scalar(ZERO, BITS8, ZERO), 2); fault_mgr.SaveImage(viewfinder); } } // Create Viewfinder Window createTrackbar("Lower Bound", "FLIR Viewfinder", &lower_bound, BITS14, NULL); createTrackbar("Upper Bound", "FLIR Viewfinder", &upper_bound, BITS14, NULL); createTrackbar("Temperature Threshold", "FLIR Viewfinder", &temp_threshold, BITS14, NULL); createTrackbar("Fault Area", "FLIR Viewfinder", &fault_area, 0x50280, NULL); // Make clicking a pixel display the temp value //setMouseCallback("FLIR Viewfinder", NULL); namedWindow("FLIR Viewfinder", WINDOW_AUTOSIZE); imshow("FLIR Viewfinder", viewfinder); if (waitKey(1) == 27 || getWindowProperty("FLIR Viewfinder", WND_PROP_FULLSCREEN) == -1) { destroyAllWindows(); return false; } // Send image to other servers SendImage(viewfinder); return true; } void ImageManager::SendImage(Mat image) { std::vector buff; cv::imencode(".jpg", image, buff); QByteArray *datagram = new QByteArray(reinterpret_cast(buff.data()), buff.size()); socket->write(*datagram); }