# What is the minimal difference in RGB color values which Mathematica renders and exports as different colors?

I was amazed when I found that Mathematica gives `True` for the following code (on 32 bit Windows XP with Mathematica 8.0.1):

``````Rasterize[Graphics[{RGBColor[0, 0, 0], Disk[]}]] ===
Rasterize[Graphics[{RGBColor[0, 0, 1/257], Disk[]}]]
``````

What is the minimal difference in RGB color values which Mathematica renders and exports as different colors? Is it machine-dependent?

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I get `False` on Mathematica 8.0.1 on Mac OS X 10.6 32-bit –  r.m. Oct 15 '11 at 20:12
@yoda Please try `1/258`, `1/259`, `1/260` and so on. What is the minimal difference on your system? –  Alexey Popkov Oct 15 '11 at 20:14
`True` In Mma 8.0 WinXP. I guess 256 distinguishable values ... –  belisarius Oct 15 '11 at 20:15
@AlexeyPopkov `1/511` is when it hits `True` –  r.m. Oct 15 '11 at 20:27
@Nakilon That is correct. The rounding difference is exactly `1/255` as I've shown in my answer. –  r.m. Oct 15 '11 at 22:45

I believe this behaviour is machine dependent, but I do not know how exactly it depends on the OS. On my machine, it evaluates to `True` only when the denominator is `511`.

``````n = 257;
While[(Rasterize[Graphics[{RGBColor[0, 0, 0], Disk[]}]] ===
Rasterize[Graphics[{RGBColor[0, 0, 1/n], Disk[]}]]) != True,
n++];
Print@n

Out[1]=511
``````

There is a difference between the two images for `n<511`

``````p1 = ImageData@Rasterize[Graphics[{RGBColor[0, 0, 0], Disk[]}]];
p2 = ImageData@Rasterize[Graphics[{RGBColor[0, 0, 1/257], Disk[]}]];
ArrayPlot[p1 - p2]
``````

This difference is constant all the way through `n=510` and is equal to `1/255`.

``````Max[p2 - p1] === N[1/255]
Out[1]=True
``````
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It is also interesting to compare a set of rectangles of different colors as they are shown on-screen (by taking a screenshot with the `PrtSc` key). Probably the results will be the same as with `Rasterize` - just for the check. For example: `Graphics[{RGBColor[0,0,#],Rectangle[]},ImageSize->40]&/@{0,1/256,1/257,1/510,1/‌​511}`. Please post the screenshot saved in PNG format. On my machine only the second rectangle has RGB value {0,0,1} - others have {0,0,0}. –  Alexey Popkov Oct 16 '11 at 8:44
@AlexeyPopkov Here's what I get: i.stack.imgur.com/mCCoc.png It's interesting how you get `{0,0,1}`... –  r.m. Oct 16 '11 at 14:00
In your screenshot rectangles have RGB value {0,0,0} for the first and the last rectangles but for others it has RGB value {0,0,1}. I get it with Adobe Photoshop CS4. It is as expected from your answer. Thank you. –  Alexey Popkov Oct 16 '11 at 14:06
@AlexeyPopkov Oh, you mean RGB value of `{0,0,1/255}`. That is correct, and is what I mentioned in the answer. I was very surprised when you said `{0,0,1}`, because that's `Blue` (I understand now that you were giving the 8-bit value)... –  r.m. Oct 16 '11 at 14:24

Looks like `Rasterize` rounds each pixel's R G B channels to the closest 8bit value (to the closest `1/256`).

``````image = Image[{{{0, 0, .2/256}, {0, 0, .7/256}, {0, 0, 1.2/256}, {0,
0, 1.7/256}}}, ImageSize -> 4]
ImageData@image
Rasterize@image
ImageData@Rasterize@image
``````

So the minimal difference, rasterizing into different colors should be around 0.000000000000000000000000000...

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Guilty party here is Rasterize, which chops off color precision. Get help on `ImageType[]` to see that Mathematica actually recognizes other bit depths, but Rasterize[] vandalizes anything beyond Byte.

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