opencv/samples/python/laplace.py

#!/usr/bin/env python

'''
    This program demonstrates Laplace point/edge detection using
    OpenCV function Laplacian()
    It captures from the camera of your choice: 0, 1, ... default 0
    Usage:
        python laplace.py <ddepth> <smoothType> <sigma>
        If no arguments given default arguments will be used.

    Keyboard Shortcuts:
    Press space bar to exit the program.
    '''

# Python 2/3 compatibility
from __future__ import print_function

import numpy as np
import cv2 as cv
import sys

def main():
    # Declare the variables we are going to use
    ddepth = cv.CV_16S
    smoothType = "MedianBlur"
    sigma = 3
    if len(sys.argv)==4:
        ddepth = sys.argv[1]
        smoothType = sys.argv[2]
        sigma = sys.argv[3]
    # Taking input from the camera
    cap=cv.VideoCapture(0)
    # Create Window and Trackbar
    cv.namedWindow("Laplace of Image", cv.WINDOW_AUTOSIZE)
    cv.createTrackbar("Kernel Size Bar", "Laplace of Image", sigma, 15, lambda x:x)
    # Printing frame width, height and FPS
    print("=="*40)
    print("Frame Width: ", cap.get(cv.CAP_PROP_FRAME_WIDTH), "Frame Height: ", cap.get(cv.CAP_PROP_FRAME_HEIGHT), "FPS: ", cap.get(cv.CAP_PROP_FPS))
    while True:
        # Reading input from the camera
        ret, frame = cap.read()
        if ret == False:
            print("Can't open camera/video stream")
            break
        # Taking input/position from the trackbar
        sigma = cv.getTrackbarPos("Kernel Size Bar", "Laplace of Image")
        # Setting kernel size
        ksize = (sigma*5)|1
        # Removing noise by blurring with a filter
        if smoothType == "GAUSSIAN":
            smoothed = cv.GaussianBlur(frame, (ksize, ksize), sigma, sigma)
        if smoothType == "BLUR":
            smoothed = cv.blur(frame, (ksize, ksize))
        if smoothType == "MedianBlur":
            smoothed = cv.medianBlur(frame, ksize)

        # Apply Laplace function
        laplace = cv.Laplacian(smoothed, ddepth, 5)
        # Converting back to uint8
        result = cv.convertScaleAbs(laplace, (sigma+1)*0.25)
        # Display Output
        cv.imshow("Laplace of Image", result)
        k = cv.waitKey(30)
        if k == 27:
            return
if __name__ == "__main__":
    print(__doc__)
    main()
    cv.destroyAllWindows()
Merge pull request #14107 from adityak2920:aditya Adding python codes to samples/python * Python version of samples: - laplace.py - drawing.py * Update drawing.py * Update drawing.py * Update drawing.py * Update laplace.py * Update laplace.py * Update drawing.py * Update drawing.py * Update laplace.py * samples * drawing * drawing * drawing.py 5 years ago			`#!/usr/bin/env python`

			`'''`
			`This program demonstrates Laplace point/edge detection using`
			`OpenCV function Laplacian()`
			`It captures from the camera of your choice: 0, 1, ... default 0`
			`Usage:`
			`python laplace.py <ddepth> <smoothType> <sigma>`
			`If no arguments given default arguments will be used.`

			`Keyboard Shortcuts:`
			`Press space bar to exit the program.`
			`'''`

			`# Python 2/3 compatibility`
			`from __future__ import print_function`

			`import numpy as np`
			`import cv2 as cv`
			`import sys`

			`def main():`
			`# Declare the variables we are going to use`
			`ddepth = cv.CV_16S`
			`smoothType = "MedianBlur"`
			`sigma = 3`
			`if len(sys.argv)==4:`
			`ddepth = sys.argv[1]`
			`smoothType = sys.argv[2]`
			`sigma = sys.argv[3]`
			`# Taking input from the camera`
			`cap=cv.VideoCapture(0)`
			`# Create Window and Trackbar`
			`cv.namedWindow("Laplace of Image", cv.WINDOW_AUTOSIZE)`
			`cv.createTrackbar("Kernel Size Bar", "Laplace of Image", sigma, 15, lambda x:x)`
			`# Printing frame width, height and FPS`
			`print("=="*40)`
			`print("Frame Width: ", cap.get(cv.CAP_PROP_FRAME_WIDTH), "Frame Height: ", cap.get(cv.CAP_PROP_FRAME_HEIGHT), "FPS: ", cap.get(cv.CAP_PROP_FPS))`
			`while True:`
			`# Reading input from the camera`
			`ret, frame = cap.read()`
			`if ret == False:`
			`print("Can't open camera/video stream")`
			`break`
			`# Taking input/position from the trackbar`
			`sigma = cv.getTrackbarPos("Kernel Size Bar", "Laplace of Image")`
			`# Setting kernel size`
			`ksize = (sigma*5)\|1`
			`# Removing noise by blurring with a filter`
			`if smoothType == "GAUSSIAN":`
			`smoothed = cv.GaussianBlur(frame, (ksize, ksize), sigma, sigma)`
			`if smoothType == "BLUR":`
			`smoothed = cv.blur(frame, (ksize, ksize))`
			`if smoothType == "MedianBlur":`
			`smoothed = cv.medianBlur(frame, ksize)`

			`# Apply Laplace function`
			`laplace = cv.Laplacian(smoothed, ddepth, 5)`
			`# Converting back to uint8`
			`result = cv.convertScaleAbs(laplace, (sigma+1)*0.25)`
			`# Display Output`
			`cv.imshow("Laplace of Image", result)`
			`k = cv.waitKey(30)`
			`if k == 27:`
			`return`
			`if __name__ == "__main__":`
			`print(__doc__)`
			`main()`
			`cv.destroyAllWindows()`