def calibration(): calibrator = StereoCalibrator(rows, columns, square_size, image_size) print('Start processing') for i in range(1, 16): im_path_left = os.path.join(path, path2, left) + str(i) + ext im_path_right = os.path.join(path, path2, right) + str(i) + ext if os.path.exists(im_path_left) and os.path.exists(im_path_right): img_left = cv2.imread(im_path_left) img_right = cv2.imread(im_path_right) else: print(str(i) + ' step failed. Wrong path.') continue try: calibrator._get_corners(img_left) calibrator._get_corners(img_right) except ChessboardNotFoundError as error: print(error) print("Pair No " + str(i) + " ignored") else: calibrator.add_corners((img_left, img_right), True) print('End processing') calibration = calibrator.calibrate_cameras() calibration.export('D:\learn\8 sem\diplom\diplom\calib_result') print('Calibration complete!')
def calibrate_folder(args): """ Calibrate camera based on chessboard images, write results to output folder. All images are read from disk. Chessboard points are found and used to calibrate the stereo pair. Finally, the calibration is written to the folder specified in ``args``. ``args`` needs to contain the following fields: input_files: List of paths to input files rows: Number of rows in chessboard columns: Number of columns in chessboard square_size: Size of chessboard squares in cm output_folder: Folder to write calibration to """ print "file: " + args.input_files[0] height, width = cv2.imread(args.input_files[0]).shape[:2] calibrator = StereoCalibrator(args.rows, args.columns, args.square_size, (width, height)) progress = ProgressBar(maxval=len(args.input_files), widgets=[Bar("=", "[", "]"), " ", Percentage()]) print("Reading input files...") progress.start() while args.input_files: left, right = args.input_files[:2] print "processing: " print " %s" % left print " %s" % right print "" img_left, img_right = cv2.imread(left), cv2.imread(right) if img_left is not None and img_right is not None: calibrator.add_corners((img_left, img_right), show_results=args.show_chessboards) args.input_files = args.input_files[2:] progress.update(progress.maxval - len(args.input_files)) else: print "error loading images." progress.finish() print("Calibrating cameras. This can take a while.") calibration = calibrator.calibrate_cameras() avg_error = calibrator.check_calibration(calibration) print("The average error between chessboard points and their epipolar " "lines is \n" "{} pixels. This should be as small as possible.".format(avg_error)) calibration.export(args.output_folder)
def calibrate_folder(args): """ Calibrate camera based on chessboard images, write results to output folder. All images are read from disk. Chessboard points are found and used to calibrate the stereo pair. Finally, the calibration is written to the folder specified in ``args``. ``args`` needs to contain the following fields: input_files: List of paths to input files rows: Number of rows in chessboard columns: Number of columns in chessboard square_size: Size of chessboard squares in cm output_folder: Folder to write calibration to """ height, width = cv2.imread(args.input_files[0]).shape[:2] calibrator = StereoCalibrator(args.rows, args.columns, args.square_size, (width, height)) progress = ProgressBar(maxval=len(args.input_files), widgets=[Bar("=", "[", "]"), " ", Percentage()]) print("Reading input files...") progress.start() while args.input_files: left, right = args.input_files[:2] img_left, im_right = cv2.imread(left), cv2.imread(right) calibrator.add_corners((img_left, im_right), draw_results=args.show_chessboards) cv2.imshow("left_chessboard", img_left) cv2.imshow("right_chessboard", im_right) while True: key = cv2.waitKey(30) & 0xff if key == 27: # esc break cv2.destroyWindow("left_chessboard") cv2.destroyWindow("right_chessboard") args.input_files = args.input_files[2:] progress.update(progress.maxval - len(args.input_files)) progress.finish() print("Calibrating cameras. This can take a while.") calibration = calibrator.calibrate_cameras() avg_error = calibrator.check_calibration(calibration) print("The average error between chessboard points and their epipolar " "lines is \n" "{} pixels. This should be as small as possible.".format(avg_error)) calibration.export(args.output_folder)
def start_calibration(self): calibrator = StereoCalibrator(self.rows, self.columns, self.square_size, (self.img_width, self.img_height)) photo_counter = 0 print("Start calibration, press any key on image to move to the next") while photo_counter != self.total_photos: print('Import pair No ' + str(photo_counter)) leftName = 'capture/pairs/left_' + str(photo_counter).zfill( 2) + '.png' rightName = 'capture/pairs/right_' + str(photo_counter).zfill( 2) + '.png' photo_counter = photo_counter + 1 if os.path.isfile(leftName) and os.path.isfile(rightName): imgLeft = cv2.imread(leftName, 1) imgRight = cv2.imread(rightName, 1) try: calibrator._get_corners(imgLeft) calibrator._get_corners(imgRight) except ChessboardNotFoundError as error: print(error) print("Pair No " + str(photo_counter) + " ignored") else: calibrator.add_corners((imgLeft, imgRight), True) print('End cycle') print('Starting calibration... It can take several minutes!') calibration = calibrator.calibrate_cameras() calibration.export('calibrate/calib_result') print('Calibration complete!') # Lets rectify and show last pair after calibration calibration = StereoCalibration(input_folder='calibrate/calib_result') rectified_pair = calibration.rectify((imgLeft, imgRight)) cv2.imshow('Left CALIBRATED', rectified_pair[0]) cv2.imshow('Right CALIBRATED', rectified_pair[1]) cv2.imwrite("calibrate/rectifyed_left.jpg", rectified_pair[0]) cv2.imwrite("calibrate/rectifyed_right.jpg", rectified_pair[1]) cv2.waitKey(0)
leftName = './pairs/left_' + str(photo_counter).zfill(2) + '.png' rightName = './pairs/right_' + str(photo_counter).zfill(2) + '.png' if os.path.isfile(leftName) and os.path.isfile(rightName): imgLeft = cv2.imread(leftName, 1) imgRight = cv2.imread(rightName, 1) try: calibrator._get_corners(imgLeft) calibrator._get_corners(imgRight) except ChessboardNotFoundError as error: print(error) print("Pair No " + str(photo_counter) + " ignored") else: calibrator.add_corners((imgLeft, imgRight), True) print('End cycle') print('Starting calibration... It can take several minutes!') calibration = calibrator.calibrate_cameras() calibration.export('calib_result') print('Calibration complete!') # Lets rectify and show last pair after calibration calibration = StereoCalibration(input_folder='calib_result') rectified_pair = calibration.rectify((imgLeft, imgRight)) cv2.imshow('Left CALIBRATED', rectified_pair[0]) cv2.imshow('Right CALIBRATED', rectified_pair[1]) cv2.imwrite("rectifyed_left.jpg", rectified_pair[0]) cv2.imwrite("rectifyed_right.jpg", rectified_pair[1]) cv2.waitKey(0)
photo_counter = 0 print("Start cycle") while photo_counter != total_photos: photo_counter = photo_counter + 1 print("Import pair No " + str(photo_counter)) leftName = "./pairs/left_" + str(photo_counter).zfill(2) + ".png" rightName = "./pairs/right_" + str(photo_counter).zfill(2) + ".png" if os.path.isfile(leftName) and os.path.isfile(rightName): imgLeft = cv2.imread(leftName, 1) imgRight = cv2.imread(rightName, 1) calibrator.add_corners((imgLeft, imgRight), True) print("End cycle") print("Starting calibration... It can take several minutes!") calibration = calibrator.calibrate_cameras() calibration.export("ress") print("Calibration complete!") # Lets rectify and show last pair after calibration calibration = StereoCalibration(input_folder="ress") rectified_pair = calibration.rectify((imgLeft, imgRight)) cv2.imshow("Left CALIBRATED", rectified_pair[0]) cv2.imshow("Right CALIBRATED", rectified_pair[1]) cv2.imwrite("rectifyed_left.jpg", rectified_pair[0]) cv2.imwrite("rectifyed_right.jpg", rectified_pair[1]) cv2.waitKey(0)