Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I am working on a game for Android and I was wondering why whenever I draw images with transparency there seems to always be some black added to the transparent parts. This happens all over and makes some of my effects look strange.

Here is an example. The two circles are only white images with a blur but you can see when one overlaps the other it has a shadow. If I overlap two of the circles say in Inkscape I get pure white where they overlap.

enter image description here

I am using


for my blending.

Any idea why this happens and how I can avoid it?

Edit: the only thing I can think of is that the two images have the same z so maybe they are blending only with the background instead of each other?

Edit: I changed




Here is the result I was looking for.

enter image description here

The only thing now is that the transparent images that I had that have a transparent black in them are ignored, which makes sense because I think the destination alpha is 1. Why would One minus source add that gray?

share|improve this question
Regarding the question in your edit, you are incorrect and that is not possible. – Tim Apr 29 '12 at 22:05
Personally, I think the shadow looks awesome. But that's just me. – ashes999 Mar 23 '13 at 15:49
up vote 9 down vote accepted

I figured out how to fix it.

I changed




It turns out that Android pre-multiplies the alpha of textures of PNG images when you load it (making white turn gray).

I added

vColor.r = vColor.r * vColor.a;
vColor.g = vColor.g * vColor.a;
vColor.b = vColor.b * vColor.a;

to my vertex shader to do the multiplying for my other colors.

share|improve this answer
You can divide the alpha out.Read my comment below – Петър Петров May 21 '13 at 0:56

Are you sure your content is correct? If you don't want the circles to produce any black color the color values in the image should be completely white, and the alpha channel should define the shape of the circle. Now it looks like the image has a white circle with both alpha channel and the color value fading to zero, which leads to a halo.

share|improve this answer
Yep my image is completely white and the blur and shape is defined by the alpha channel. – EmbMicro Apr 29 '12 at 22:02
It IS, but what library are you using? It surely premultiplies your alpha – Петър Петров May 21 '13 at 1:22

Are you using linear sampling? My thought could be if you have a very small image (less than say 30-40 pixels in dimension), you could be getting interpolated alpha values between the inside of the circle (alpha = 1) to the outside of the circle (alpha = 0). This would give you intermediate alpha values that result in the kind of blur effect.

Try the following code when you have the circle texture bound:


Maybe you can host the actual texture that you're using such that we can inspect it? Also please post your drawing code if this doesn't help.

share|improve this answer
I don't think you understand. I WANT the blur, it is in the original image. What is not in the original is the black part of it where it overlaps. I'll post the original in the question. – EmbMicro Apr 30 '12 at 1:19
@EmbMicro Oh, sorry I did misunderstand. Which of those two circles in original image did you draw first, and what's your depth buffer setup like, if you're using depth testing? – Tim Apr 30 '12 at 1:25

You can also divide by alpha, because, the problem is, when you export your textures, Image processing software may pre-multiply your Alpha channel. I ended up with alpha division into my fragment shader. The following code is HLSL, but you can easily convert it to GLSL:

float4 main(float4 tc: TEXCOORD0): COLOR0
    float4 ts = tex2D(Tex0,tc);

    //Divide out this pre-multiplied alpha
    float3 outColor = ts.rgb / ts.a;

    return float4(outColor, ts.a);

Note that this operation is lossy, very lossy and even if it will most likely suffice in cases such as these, it's not a general solution. In your case you can totally ignore the COLOR and serve original alpha AND white in your fragment shader, e.g. return float4(1,1,1,ts.a); (convert to GLSL)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.