//#include #include #include #include #include #include #include #include #include // ToDo: // Hab ich nicht mehr aktuell gehalten. Wenn Ihr hier arbeiten wollt, an aktuellen Stand anpassen. /* void sweep_em_all(int thresholdBinary, int videoHeight, int videoWidth, int gaussKernelSize, int thresholdCanny1, int thresholdCanny2, int apertureSizeCanny) { Input input(videoHeight, videoWidth); Processing processing; namedWindow("Display window"); while(true) { Mat image = input.readFile("C:\\Users\\User\\Desktop\\Studium\\02_Master_MSY\\2. Semester Winter 22 23\\Projekt\\Line-Following-Robot\\Test_data"); Mat processedImage = image; processing.processImage(processedImage, thresholdBinary, gaussKernelSize, thresholdCanny1, thresholdCanny2 ,apertureSizeCanny); std::vector lines = processing.calculateLineSegments(processedImage); for( size_t i = 0; i < lines.size(); i++ ) { line( image, Point(lines[i][0], lines[i][1]), Point( lines[i][2], lines[i][3]), (0,0,255), 1, 8 ); } imshow("Display window", image); char c = (char)waitKey(1); } destroyWindow("Display window"); } void in_depth_processing_chain(int thresholdBinary, int videoHeight, int videoWidth, int gaussKernelSize, int thresholdCanny1, int thresholdCanny2, int apertureSizeCanny) { Input input(videoHeight, videoWidth); cv::String outputFolder = "C:\\Users\\tim-z\\Desktop\\temp"; cv::String inputFolder = "C:\\Users\\tim-z\\Desktop\\Studium\\02_Master MSY\\2. Semester Winter 2022 2023\\Projekt\\Repo\\Line-Following-Robot\\AutonomousMode\\Test_data"; std::vector filenames; cv::glob(inputFolder, filenames); //filenames.begin(), filenames.end() int i = 0; for(std::vector::iterator it = filenames.begin(); it != filenames.end(); it++) { std::string current_output = outputFolder + "\\" + to_string(i); std::cout << current_output << std::endl; const char* current_output_char = current_output.c_str(); _mkdir(current_output_char); std::string inputFile = inputFolder + "\\image" + to_string(i+1) + ".jpeg"; Mat original_image = input.readFile(inputFile); imwrite(current_output + "\\00_input.jpg", original_image); Point roiOrigin(0, original_image.rows*(7.5/12.0)); Rect roi = Rect(roiOrigin.x, roiOrigin.y, original_image.cols, original_image.rows/12); Mat image = original_image(roi); imwrite(current_output + "\\01_roi.jpg", image); cvtColor(image, image, COLOR_BGR2GRAY); imwrite(current_output + "\\02_color_convert.jpg", image); GaussianBlur(image, image, Size(gaussKernelSize, gaussKernelSize), 0); imwrite(current_output + "\\03_gauss.jpg", image); threshold(image, image, thresholdBinary, 255, THRESH_BINARY); imwrite(current_output + "\\04_threshold.jpg", image); // Opening (reduces noise) Mat kernel(5,5, CV_8UC1,1); morphologyEx(image, image, 2, kernel); imwrite(current_output + "\\05_opening.jpg", image); //Canny(image, image, thresholdCanny1, thresholdCanny2, apertureSizeCanny); //imwrite(outputFolder + "\\06_canny.jpg", image); vector > contours; vector hierarchy; vector vectorOfRects; vector vectorOfLeftEdges; findContours(image,contours, hierarchy, RETR_LIST, CHAIN_APPROX_SIMPLE); int amountOfValidRects = 0; for( int i = 0; i< contours.size(); i++ ) // iterate through each contour. { double a = contourArea( contours[i],false); // Find the area of contour if(a > 3500) { drawContours(original_image, contours, i, Scalar(0,255,255), 1, 8, hierarchy, 0, roiOrigin); Rect currentBoundingRect = boundingRect(contours[i]); //Handle roi offset: currentBoundingRect.x += roiOrigin.x; currentBoundingRect.y += roiOrigin.y; vectorOfRects.push_back(currentBoundingRect); rectangle(original_image, currentBoundingRect, Scalar(0,255,0)); // get mid-point of rect Point midRect = Point(currentBoundingRect.x+currentBoundingRect.width/2, currentBoundingRect.y+currentBoundingRect.height/2); // Draw middle as small rect instead of circle because for whatever reasons drawing a circle doesnt work. Rect testRect(Point(midRect.x-2, midRect.y-2), Point(midRect.x+2, midRect.y+2)); rectangle(original_image, testRect, Scalar(0,0,255)); // get the left edge of rect // used as offset as raspicam is not // mounted on mid of regbot Point leftEdge(currentBoundingRect.x, currentBoundingRect.y+currentBoundingRect.height/2); vectorOfLeftEdges.push_back(leftEdge); testRect = Rect(Point(leftEdge.x-2, leftEdge.y-2), Point(leftEdge.x+2, leftEdge.y+2)); rectangle(original_image, testRect, Scalar(0,0,255)); amountOfValidRects++; } } imwrite(current_output + "\\06_contours.jpg", original_image); i++; } }*/ int main(void) { //Disable opencv logging messages //cv::utils::logging::setLogLevel(cv::utils::logging::LOG_LEVEL_WARNING); const int thresholdBinary = 140; const int videoHeight = 720; const int videoWidth = 960; const int gaussKernelSize = 11; const int thresholdCanny1 = 50; const int thresholdCanny2 = 100; const int apertureSizeCanny = 3; //sweep_em_all(thresholdBinary, videoHeight, videoWidth, gaussKernelSize, thresholdCanny1, thresholdCanny2, apertureSizeCanny); //in_depth_processing_chain(thresholdBinary, videoHeight, videoWidth, gaussKernelSize, thresholdCanny1, thresholdCanny2, apertureSizeCanny); }