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I'm trying to implement Matlab's rgb2gray in Java according to . I have the following code:

public BufferedImage convert(BufferedImage bi){
    int heightLimit = bi.getHeight();
    int widthLimit = bi.getWidth();
    BufferedImage converted = new BufferedImage(widthLimit, heightLimit,

    for(int height = 0; height < heightLimit; height++){
        for(int width = 0; width < widthLimit; width++){
            // Remove the alpha component
            Color c = new Color(bi.getRGB(width, height) & 0x00ffffff);
            // Normalize
            int newRed = (int) 0.2989f * c.getRed();
            int newGreen = (int) 0.5870f * c.getGreen();
            int newBlue = (int) 0.1140f * c.getBlue();
            int roOffset = newRed + newGreen + newBlue;
            converted.setRGB(width, height, roOffset);

    return converted;

Now, I do get a grayscale image but it is too dark compared to what I get from Matlab. AFAIK, the easiest way to turn an image to grayscale is have a BufferedImage of type TYPE_BYTE_GRAY and then just copy the pixels of a BufferedImage of TYPE_INT_(A)RGB. But even this method gives an image that is darker than Matlab's though grayscale decently enough. I've also looked into using RescaleOp. However, I don't find anyway in RescaleOp to set the grayness per pixel.

As an added test, I print out the image matrices produced by Java nad by Matlab. In Java, I get figures like 6316128 6250335 6118749 6118749 6250335 6447714 while in Matlab, I only get something like 116 117 119 120 119 115 (first six figures of both matrices).

How do I get an output similar to Matlab's?

share|improve this question
up vote 3 down vote accepted

The operator precedence in Java specifies that type-casting is higher than multiplication. You're casting your floating-point constants to 0, so I don't understand how you're getting a grayscale result at all. Easy to fix:

        int newRed = (int) (0.2989f * c.getRed());
        int newGreen = (int) (0.5870f * c.getGreen());
        int newBlue = (int) (0.1140f * c.getBlue());

I would also replace 0.2989 with 0.2990 as it appears to be a typo in the documentation.

share|improve this answer
Hi, thanks. This seems to fix my grayscale problem (to be proven/disproven by closer inspection). But I'm wondering where did you get your correction on Matlab's documentation? I can't seem to find it mentioned elsewhere. – skytreader Feb 28 '12 at 14:46
@skytreader, it's a well known formula and references are everywhere e.g.… . There was an answer that was deleted that included a sample calculation which wasn't quite right but was exactly correct if you substituted the proper constant. – Mark Ransom Feb 28 '12 at 16:41

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