In the program given below I am adding alpha channel to a 3 channel image to control its opacity. But no matter what value of alpha channel I give there is no effect on image! Anyone could explain me why?
import numpy as np
import cv2
image = cv2.imread('image.jpg')
print image
b_channel,g_channel,r_channel = cv2.split(image)
a_channel = np.ones(b_channel.shape, dtype=b_channel.dtype)*10
image = cv2.merge((b_channel,g_channel,r_channel,a_channel))
print image
cv2.imshow('img',image)
cv2.waitKey(0)
cv2.destroyAllWindows()
I can see in the terminal that alpha channel is added and its value changes as I change it in the program, but there is no effect on the opacity of the image itself!
I am new to OpenCV so I might be missing something simple. Thanks for help!
Alpha is a channel that is used to control the opacity of an image. An alpha channel typically doesn't do anything unless you perform an action on it. It doesn't make an image transparent on its own.
Alpha is usually used to either remove unimportant areas of an image or to combine one image with another image. In the first case the image is usually simply multiplied by its alpha. This is sometimes referred to premultiplying. In this case the dark areas of the alpha channel darken the RGB and the bright areas leave the RGB untouched.
R = R*A
G = G*A
B = B*A
Here is a version of your code that might do what you want (Note- I converted to 32-bit because it's easier to use alpha channels when they are ranged from 0 to 1):
import numpy as np
import cv2
i = cv2.imread('image.jpg')
img = np.array(i, dtype=np.float)
img /= 255.0
cv2.imshow('img',img)
cv2.waitKey(0)
#pre-multiplication
a_channel = np.ones(img.shape, dtype=np.float)/2.0
image = img*a_channel
cv2.imshow('img',image)
cv2.waitKey(0)
cv2.destroyAllWindows()
The second case is used when trying to overlay an image over another image. This is a compositing operation that is often referred to as an "over" merge or a "blend" merge. In this case there is a foreground image "A" and a background image "B" and an alpha channel which could be included in the RGB images or on its own. In this case you can place A over B using:
output = (A * alpha) + (B * (1-alpha))