What is the best way to convert RGB image to RGBA in python using opencv?

Let's say I have one array with shape

(185, 198, 3) - it is RGB

and the other is alpha mask with shape (185, 198)

How to merge them and save to file?

6 Answers 6


With opencv3, this should work:


# First create the image with alpha channel
rgba = cv2.cvtColor(rgb_data, cv2.COLOR_RGB2RGBA)

# Then assign the mask to the last channel of the image
rgba[:, :, 3] = alpha_data


# First create the image with alpha channel
cv::cvtColor(rgb_data, rgba , cv::COLOR_RGB2RGBA);

# Split the image for access to alpha channel
cv::split(rgba, channels);

# Assign the mask to the last channel of the image
channels[3] = alpha_data;

# Finally concat channels for rgba image
cv::merge(channels, 4, rgba);
  • 3
    This works like charm. This answer must be the accepted Answer
    – Trect
    Sep 7, 2019 at 11:40
  • @kaanoner python: Can someone explain how this works? I am getting unexpected results - 3 does nothing, 0-2 produce various colours, and I don't understand how it's supposed to work. Dec 23, 2019 at 16:42
  • cvtcolor creates an extra channel for alpha layer on top of your three channel rgb data. you then assign to this new channel (by selecting it with [:,:,3]) your alpha data which is one channel. in the end you have four channel rgba image filled with the combination of your rgb and alpha channels.
    – kaanoner
    Dec 30, 2019 at 23:14
  • This is the easiest method Nov 12, 2020 at 20:35

You may use cv2.merge() to add the alpha channel to the given RGB image, but first you need to split the RGB image to R, G and B channels, as per the documentation:

Python: cv2.merge(mv[, dst])

  • mv – input array or vector of matrices to be merged; all the matrices in mv must have the same size and the same depth.

And this can be done as:

b_channel, g_channel, r_channel = cv2.split(img)

alpha_channel = np.ones(b_channel.shape, dtype=b_channel.dtype) * 50 #creating a dummy alpha channel image.

img_BGRA = cv2.merge((b_channel, g_channel, r_channel, alpha_channel))
  • 1
    One might want to do alpha_channel = alpha_channel.astype(np.uint8), ie make sure all channel have the same dtype.
    – Minh Triet
    Mar 5, 2017 at 21:11
  • 4
    rgba = cv2.cvtColor(rgb_data, cv2.COLOR_RGB2RGBA) . This should solve
    – Trect
    Sep 7, 2019 at 11:41

Since OpenCV images are just Numpy arrays, you can do this in one-line, nice and fast with Numpy. So here is the setup code:

import numpy as np

# We'll synthesise a random image and a separate alpha channel full of 128 - semitransparent
im    = np.random.randint(0,256,(480,640,3), dtype=np.uint8)
alpha = np.full((480,640), 128, dtype=np.uint8)

And here is the solution which is simply to stack the alpha channel onto the image in the "depth" axis, hence dstack():

result = np.dstack((im, alpha))

Here is an another simple example using Grabcut, it helps to get the right order of channels when saving the image on disk vs pyplot.

from matplotlib import pyplot as plt
import numpy as np
import cv2

img = cv2.imread('image.jpg')

mask = np.zeros(img.shape[:2], np.uint8)
bgdModel = np.zeros((1,65), np.float64)
fgdModel = np.zeros((1,65), np.float64)
rect = (50, 50, 450, 290)

# Grabcut 
cv2.grabCut(img, mask, rect, bgdModel, fgdModel, 5, cv2.GC_INIT_WITH_RECT)

r_channel, g_channel, b_channel = cv2.split(img) 
a_channel = np.where((mask==2)|(mask==0), 0, 255).astype('uint8')  

img_RGBA = cv2.merge((r_channel, g_channel, b_channel, a_channel))
cv2.imwrite("test.png", img_RGBA)

# Now for plot correct colors : 
img_BGRA = cv2.merge((b_channel, g_channel, r_channel, a_channel))

plt.imshow(img_BGRA), plt.colorbar(),plt.show()
import cv2
import numpy as np
import skimage.exposure


input_image = cv2.imread(path_input_image2, cv2.IMREAD_UNCHANGED)

input_image_alphachann = np.full((input_image.shape[0],input_image.shape[1]), 128, dtype=np.uint8)

output_image = np.dstack((input_image, input_image_alphachann))

#(400, 200, 3); 3 channell rgb
#(400, 200, 4); 4c channel rgba

# uint8

cv2.imwrite(path_output_image, output_image)


I'll post here my answer in C++ since it may be helpful to others (there are already enough answers in python):

  std::vector<cv::Mat> matChannels;
  cv::split(mat, matChannels);
  // create alpha channel
  cv::Mat alpha(...);

  cv::merge(matChannels, dst);

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