# What code would I use to get the value of a color when an alpha at about half transparency is applied? [duplicate]

If I have a visual element (could be text or div with color fill, doesn't matter) and the color is set to black, 0x000000, and it's alpha is set to .4 or .5 and the background is solid white, 0xFFFFFF, the result would be a gray color. We can test this in Photoshop.

What I would like to know is what code would I use to get to that result?

I'm looking for something such as an equation:

``````newColor = foregroundColor * alpha * backgroundColor
``````

Or something like in JavaScript, ActionScript or VBScript:

``````var color:uint = (0x888888 * .5) * 0x000000;
``````

Part of the difficulty is solving this issue is the lack of fully understanding enough about hexadecimal and how it relates to color to solve it on my own.

UPDATE
Based on the answer below I've come up with this:

``````// set values
var topColorValue:uint = 0x000000;
var topColorAlphaValue:Number = .5;
var bottomColorValue:uint = 0xFFFFFF;

// get RGB
var redMix:int = ((topColorValue >> 16) & 0xFF);
var greenMix:int = ((topColorValue >> 8) & 0xFF);
var blueMix:int = (topColorValue & 0xFF);

// apply alpha to top color
if (alphaValue<1) {
var colorPlusAlpha:uint = combineRGB((redMix * (1-alphaValue)), (greenMix*(1-alphaValue)), (blueMix * (1-alphaValue)));
}
else {
colorPlusAlpha = topColorValue;
}

redMix = ((bottomColorValue >> 16) & 0xFF);
greenMix = ((bottomColorValue >> 8) & 0xFF);
blueMix = (bottomColorValue & 0xFF);

var secondColorPlusAlpha:uint = combineRGB((redMix * (alphaValue)), (greenMix*(alphaValue)), (blueMix * (alphaValue)));

var firstColorPlusSecondColor:uint = colorPlusAlpha + secondColorPlusAlpha;
``````

The problem with the above solution is that it is off by 1. If the top color is 0x999999 and it's alpha is .5 and the bottom color is 0xFFFFFF then the result is 0xCBCBCB. When getting that pixel or using eye dropper in Photoshop the value is 0xCCCCCC.

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Reposting your question to ignore close votes is not appropriate. If your question is on-topic enough, the other one will be reopened. –  poke Jan 2 '13 at 22:17
The other question was closed because the original readers did not think it related to programming. Instead of asking for clarification they decided to close it. I added new information. –  1.21 gigawatts Jan 2 '13 at 22:18
I think that you are looking for color composition formulas. They will depend on what composition type you want. I don't know if making a JavaScript function implementing the corresponding formula would be useful for you. –  Sam Jan 2 '13 at 22:21
According to the link, I think it would be alpha blending. –  1.21 gigawatts Jan 2 '13 at 22:26

## marked as duplicate by poke, Peter O., Lars Kotthoff, t0mm13b, the Tin ManJan 3 '13 at 2:35

IIU the functioning of the alpha channel correctly, it gives the mixing fraction between the color before and the color now added. This would mean:

``````colorVisible=colorNew*(1-alpha)+colorOld*alpha
``````

A rough sanity check:

• `alpha=0%` gives `colorVisible=colorNew` which sounds OK
• `alpha=100%=1` gives `colorVisible=colorOld` which sounds OK too
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I would add that it only works with grey or pure blue and black. –  Kodiak Jan 3 '13 at 0:53
I'm doing some testing and it looks like that as well. I think it might need to pull out the r, g and b values and multiply those by alpha. Not sure yet. Trying this, var finalVisibleColor:uint = topColorValue * (1-alphaValue) + bottomColorValue * alphaValue; –  1.21 gigawatts Jan 3 '13 at 1:17
THis was ofcourse meant as being per channel (R,G,B) ! –  Eugen Rieck Jan 3 '13 at 9:53
Based on your code I think I found something that is working. It's off by 1 though so maybe you can see what I'm missing. Posting this info in the main post. –  1.21 gigawatts Jan 3 '13 at 22:14
This looks to me like some fishy rounding: 99h=153d, 153*0.5=76.5, FFh=255d, 255*0.5=127.5, 127.5+76.5=204=**CCh**. I suspect, that a int multiplied by float 0.5 gives a rounded-down value. Retry with float mix values and round as late as possible. –  Eugen Rieck Jan 3 '13 at 22:42