from __future__ import print_function import cv2 as cv import argparse max_value = 255 max_type = 4 max_binary_value = 255 trackbar_type = 'Type: \n 0: Binary \n 1: Binary Inverted \n 2: Truncate \n 3: To Zero \n 4: To Zero Inverted' trackbar_value = 'Value' window_name = 'Threshold Demo' ## [Threshold_Demo] def Threshold_Demo(val): #0: Binary #1: Binary Inverted #2: Threshold Truncated #3: Threshold to Zero #4: Threshold to Zero Inverted threshold_type = cv.getTrackbarPos(trackbar_type, window_name) threshold_value = cv.getTrackbarPos(trackbar_value, window_name) _, dst = cv.threshold(src_gray, threshold_value, max_binary_value, threshold_type ) cv.imshow(window_name, dst) ## [Threshold_Demo] parser = argparse.ArgumentParser(description='Code for Basic Thresholding Operations tutorial.') parser.add_argument('--input', help='Path to input image.', default='stuff.jpg') args = parser.parse_args() ## [load] # Load an image src = cv.imread(cv.samples.findFile(args.input)) if src is None: print('Could not open or find the image: ', args.input) exit(0) # Convert the image to Gray src_gray = cv.cvtColor(src, cv.COLOR_BGR2GRAY) ## [load] ## [window] # Create a window to display results cv.namedWindow(window_name) ## [window] ## [trackbar] # Create Trackbar to choose type of Threshold cv.createTrackbar(trackbar_type, window_name , 3, max_type, Threshold_Demo) # Create Trackbar to choose Threshold value cv.createTrackbar(trackbar_value, window_name , 0, max_value, Threshold_Demo) ## [trackbar] # Call the function to initialize Threshold_Demo(0) # Wait until user finishes program cv.waitKey()