Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In my renderer, I produce an anti-aliased scene on a multisampled FBO, which is blitted to an FBO whose color attachment is a texture. The texture is then read during rendering to the framebuffer.

I'd like to update it so that I get gamma-correct results. The benefit of using an sRGB framebuffer is that it allows me to have a somewhat better color precision by storing nonlinear sRGB values directly in the framebuffer.

What I'm not sure about is what changes should I be making to get this, and what is being changed by the different settings.

It looks like extension ARB_framebuffer_sRGB is just dealing with reading and blending operations with sRGB framebuffers. In my situation I'll need to use a texture specifying a sRGB representation type, which means I'd be using extension EXT_texture_sRGB... using a linear texture format would disable the sRGB translation.

Edit: But I just saw this:

3) Should the ability to support sRGB framebuffer update and blending be an attribute of the framebuffer?

RESOLVED: Yes. It should be a capability of some pixel formats (mostly likely just RGB8 and RGBA8) that says sRGB blending can be enabled.

This allows an implementation to simply mark the existing RGB8 and RGBA8 pixel formats as supporting sRGB blending and then just provide the functionality for sRGB update and blending for such formats.

Now I'm not so sure what to specify for my texture's pixel format.

Okay, and what about renderbuffers? the ARB_framebuffer_sRGB doc does not mention anything about renderbuffers. Is it possible to use glRenderbufferStorageMultisample with a sRGB format, so I can get sRGB storage enabled blending?

Also, what is the difference between GL_SRGB_ALPHA and GL_SRGB8_ALPHA8 when specifying the internal format for glTexImage2D?

share|improve this question

1 Answer 1

up vote 4 down vote accepted

What I'm not sure about is what changes should I be making to get this

That's because your question seems unsure about what you're trying to do.

The key to all of this stuff is to at all times know what your input data is and what your output data is.

Your first step is to know what is stored in each of your textures. Does a particular texture store linear data or data in the sRGB colorspace? If it stores linear data, then use one of the linear image formats. If it stores sRGB colorspace data, then use one of the sRGB image formats.

This ensures that you are fetching the data you want in your shaders. When it comes time to write/blend them to the framebuffer, you now need to decide how to handle that.

Your screen expects values that have been pre-gamma corrected to the gamma of the display device. As such, if you provide linear values, you will get incorrect color output.

However, sometimes, you want to write to intermediate values. For example, if you're doing forward or deferred rendering, you will write accumulated lighting to a floating-point buffer, then use HDR tone mapping to boil it down to a [0, 1] image for display. Post-processing techniques can again be used. Only the outputs to [0, 1] need to be to images in the sRGB colorspace.

When writing to something that you want in sRGB, you must enable GL_FRAMEBUFFER_SRGB. This is a special enable (note that textures don't have a way to turn off sRGB decoding) because sometimes, you want to write values that already are in sRGB. This is often the case for GUI interface widgets, which were designed and built using colors already in the sRGB colorspace.

I cover issues relating to writing gamma-correct values and reading them from textures in my tutorial series. The first one explains why gamma is important and does explicitly gamma correction in the shader. The second link covers how to use sRGB images, both in textures and framebuffers.

Okay, and what about renderbuffers? the ARB_framebuffer_sRGB doc does not mention anything about renderbuffers.

And why would it? ARB_framebuffer_sRGB is only interested in the framebuffer and the nature of images in it. It neither knows nor cares where those images come from. It doesn't care if it's talking about the default framebuffer, a texture attached to an FBO, a renderbuffer attached to an FBO, or something entirely new someone comes up with tomorrow.

The extension states what happens when the destination image is in the sRGB colorspace and when GL_FRAMEBUFFER_SRGB is enabled. Where that image comes from is up to you.

Also, what is the difference between GL_SRGB_ALPHA and GL_SRGB8_ALPHA8 when specifying the internal format for glTexImage2D?

One is sized. The other is not. In theory, GL_SRGB_ALPHA could give you any bitdepth the implementation wanted. It could give you 2 bits per component. You're giving the implementation freedom to pick what it wants.

In practice, I doubt you'll find a difference. That being said, always used sized internal formats whenever possible. It's good to be specific about what you want, and to prevent the implementation from doing something stupid. OpenGL even has some sized formats which are required to be supported explicitly as stated.

share|improve this answer
I'd like to add, that you should stay in linear color space for as much as possible. –  datenwolf Feb 26 '12 at 23:02
Can I think of GL_FRAMEBUFFER_SRGB as a toggle? It determines whether translation (sRGB->linear during read; linear->sRGB during write) is performed. In my case, I am writing linear values to my intermediate FBO so I should be using a regular texture. –  Steven Lu Feb 27 '12 at 2:11
@StevenLu: A toggle? It doesn't "toggle" anything; it's either enabled or its not. It's called GL_**FRAMEBUFFER**_SRGB because it deals with writes. To the framebuffer. You're really thinking of this the wrong way. Data is either linear or sRGB. The holder of that data (ie: image) therefore either thinks it is linear or thinks it's sRGB. Everything you read from a texture is linear. Everything you write is linear. If you're writing to an sRGB image when GL_FRAMEBUFFER_SRGB is enabled, then it will take that linear value and convert it to sRGB. –  Nicol Bolas Feb 27 '12 at 2:19
Okay. What happens if I draw to a buffer, THEN glEnable(GL_FRAMEBUFFER_SRGB), then read from it? I will be reading the linearized value (so it will be darker than my input), yes? If GL_FRAMEBUFFER_SRGB is enabled (on a proper 8bit format) then it will treat the stored data as sRGB values and perform translation on operations. If it is disabled, it will treat the stored data as linear values and no translation is performed as long as it is disabled. –  Steven Lu Feb 27 '12 at 2:24
@StevenLu: You are really overthinking this. An image that stores sRGB data stores sRGB data. Therefore, when you write to it, what you are writing is either itself sRGB or is linear. If you write data without GL_FRAMEBUFFER_SRGB, then you are saying that the values you are writing are sRGB values. If you write data with it enabled, then you are saying that the values are linear and need to be converted to sRGB. Texture accesses always yield linear colorspace values, regardless of what they're accessing. –  Nicol Bolas Feb 27 '12 at 2:32

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.