# What does “& 0xff” do?

I am trying to understand the code below where `b` is a given integer and `image` is an image.

I understand that if the RGB value at given point i,j is greater than b then set that pixel to white else set to black. so would convert the image into black and white.

However I am lost to what (& 0xff) actually does, I am guessing its a kind of binary shift?

``````if ((image.getRGB(i, j) & 0xff) > b) {
image.setRGB(i, j, 0xffffff) ;
} else {
image.setRGB(i, j, 0x000000);
}
``````
-

it's a so-called mask.. The thing is, you get the RGB value all in one integer, with one byte for each component.. Something like 0xAARRGGBB (alpha, red, green, blue). By and-ing with 0xFF, you keep just the last part, which is blue. For other channels, you'd use:

``````int alpha = (rgb >>> 24) & 0xFF;
int red   = (rgb >>> 16) & 0xFF;
int green = (rgb >>>  8) & 0xFF;
int blue  = (rgb >>>  0) & 0xFF;
``````

In the alpha case, you can skip `& 0xFF`, because it doesn't do anything; same for shifting by 0 in the blue case..

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Excellent, i see your point, are there other ways of getting the same values? i have other examples such as: blue = ( rgb & 0 x f f ) ; green = ( rgb & 0 x f f0 0 ) >> 8; red = ( rgb & 0xf f0000 ) >> 16; OR blue = ( rgb & 0xff ) ; green = ( rgb & 0 xf800 ); red = ( rgb & 0xf80000 ); – Lunar May 25 '11 at 15:06
Sure, you can use the mask first, and shift later, same thing happens - the mask ensures all other bits are zero, the shift moves the value so it's in the rightmost byte of the integer, hence in range 0-255.. 0xF8 on the other hand would just keep the topmost 5 bits of the 8, so I'm not sure where you'd find that useful.. – xs0 May 25 '11 at 15:29

The

``````& 0xFF
``````

is getting one of the color components (either red or blue, I forget which).

If the color mask is not performed, consider RGB (0, 127, 0), and the threshold 63. The getRGB(...) call would return

``````(0 * 256 * 256) + (127 * 256) + 0 = 32512
``````

Which is clearly more than the threshold 63. But the intent was to ignore the other two color channels. The bitmask gets only the lowest 8 bits, with is zero.

The

``````> b
``````

is checking if the color is brighter than a particular threshold, 'b'.

If the threshold is exceeded, the pixel is colored white, using

``````image.setRGB(i,j,0xffffff)
``````

... otherwise it is colored black, using

``````image.setRGB(i,j,0x000000)
``````

So it is a conversion to black and white based on a simple pixel-by-pixel threshold on a single color channel.

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thanks, yeah i just dont see why that part is in there? – Lunar May 25 '11 at 14:58
Updated the answer to explain bitmask – Dilum Ranatunga May 25 '11 at 15:03

It is probably because there is some conversion to or from ARGB. This is a really good blog post about why to do bit-wise operations for colors.

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`& 0xff` is a bitwise AND
`(image.getRGB(i,j)&0xff)` gets the blue value of the rgb encoded int returned by `getRGB` the `> b` part check whether it's larger than some threshold