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I'm loading a 24 Bit RGB image from a PNG file into my OpenCV application.

However loading the image as grayscale directly using imread gives a very poor result.

Mat src1 = imread(inputImageFilename1.c_str(), 0);

Loading the RGB image as RGB and converting it to Grayscale gives a much better looking result.

Mat src1 = imread(inputImageFilename1.c_str(), 1);
cvtColor(src1, src1Gray, CV_RGB2GRAY);

I'm wondering if I'm using imread for my image type correctly. Has anyone experienced similar behavior?

The image converted to grayscale using imread is shown here: Bad result

The image converted to grayscale using cvtColor is shown here: Good result

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4  
"Color" image in OpenCV means BGR. So second version of your code is not correct. It should use CV_BGR2GRAY for color conversion. –  Andrey Kamaev Sep 18 '11 at 14:13
    
Thanks for the comment. I tried converting the image to grayscale using CV_BGR2GRAY instead of CV_RGB2GRAY, but got the same result. –  tisch Sep 20 '11 at 18:20
    
Could you also attach your original image? –  Andrey Kamaev Sep 20 '11 at 18:53
    
Unfortunately I can't post images to my posts with my current reputation. Also there is a limit to 2 hyperlinks within posts with my reputation. –  tisch Sep 20 '11 at 20:19
    
Thanks for the hint. the original image is located here: picasaweb.google.com/lh/photo/… –  tisch Sep 20 '11 at 20:32

4 Answers 4

up vote 4 down vote accepted

I was having the same issue today. Ultimately, I compared three methods:

//method 1
cv::Mat gs = cv::imread(filename, CV_LOAD_IMAGE_GRAYSCALE);

//method 2
cv::Mat color = cv::imread(filename, 1); //loads color if it is available
cv::Mat gs_rgb(color.size(), CV_8UC1);
cv::cvtColor(color, gs_rgb, CV_RGB2GRAY);

//method 3
cv::Mat gs_bgr(color.size(), CV_8UC1);
cv::cvtColor(color, gs_bgr, CV_BGR2GRAY);

Methods 1 (loading grayscale) and 3 (CV_BGR2GRAY) produce identical results, while method 2 produces a different result. For my own ends, I've started using CV_BGR2GRAY.

My input files are jpgs, so there might be issues related to your particular image format.

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I have had a similar problem once, working with OpenGL shaders. It seems that the first container that OpenCV reads your image with does not support all the ranges of color and hence you see that the image is a poor grayscale transformation. However once you convert the original image into grayscale using cvtColor the container is different from the first one and supports all ranges. In my opinion the first one uses less than 8 bits for grayscale or changing to the grayscale uses a bad method. But the second one gives smooth image because of more bits in gray channel.

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Did you find a documentation to support this reasoning? Facing a similar issue & I'm inclined to believe this might be the case but cannot find anything conclusive to put down in my reasoning –  Ani Dec 2 '13 at 1:45
    
Well it is the case since the frame buffer contains a range of 255 for each color and also 255 for monochrome spectrum. You need floating points to support a better range. –  A2B Dec 17 '13 at 22:04

If you want to read the image directly in a grayscale mode :-

>>>> import cv2
>>>> img=cv2.imread('test.png',cv2.CV_LOAD_IMAGE_GRAYSCALE) # consider the paramater
>>>> cv2.imwrite('graye_scale.jpg',img)    # saves the gray-scale image
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Question is not in python. Person who asks indicates he knows this method but quality is bad. –  Tõnu Samuel May 28 '13 at 13:27

Use this if it can help you:

IplImage *img= cvLoadImage("test2.bmp", CV_LOAD_GRAYSCALE);
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1  
I think that one should avoid using the C API, it is poorly documented and very painful to use. Also, this doesn't answer the question. He is asking about the behaviour of imread. –  Marco Dec 12 '13 at 22:17

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