I'm currently doing some research on OpenGL and Shaders but I can't seem to figure out if there are any fundamental differences between blending using the glBlendMode or writing your own blend modes in a shader.
What are the reasons to choose the former or the latter? Are there any performance bottlenecks by choosing the one over the other? Or is this just a matter of personal preference?
Traditional blending with glBlendFunc can't be replicated in a shader. Blending requires sampling the destination framebuffer before modifying it, which isn't something that can be done on current hardware.
Currently you can only pass along a color, and choose one of a limited selection of blending modes (glBlendFunc/glBlendEquation) which will be applied by the GPU's rasterizer before writing to framebuffer.
glBlendFunc is something totally different from blending textures in a shader? Let's say I want to mix two photos with a "multiply" blend mode. This should be done in a shader instead of using the glBlendFunc? Can you give an example where the glBlendFunc is used?
Commented
Jul 26, 2012 at 9:24
When a shader reads from a texture while it is simultaneously rendering to the same texture, the results are undefined. This is why "traditional" or fixed-functionality blending with glBlendFunc and glBlendEquation is useful.
To mix two images using traditional blending, you render the first image, set the blending mode, function, and equation, and render the second image. This is guaranteed to give correct results, and is usually the fastest way to achieve effects like transparency.
To achieve the same effect with a shader, you need to render the first image to an auxiliary texture, change shaders, and render the second image to the actual framebuffer, doing the blending as a final step in the fragment shader. This is usually slower because of the extra overhead of texture reads, and will certainly use more GPU memory for the auxiliary texture.
On modern hardware, the difference between the two techniques tends to be small.
It is possible to simulate OpenGL blending from within a shader in three circumstances I'm aware of:
You have Direct3D11 or OpenGL equivalent, and you bind the render target as a read-write texture in your pixel shader. This enables arbitrarily complex blending operations, but will not have high performance when doing simple blending, because you are bypassing your GPU's special hardware for simple blending.
You have an exotic "tile-based" GPU where even simple blending is done by an "alpha shader." In this case, there's no performance difference between a simple blend in OpenGL and equivalent shader code. But it's unlikely that you have such a GPU, and OpenGL doesn't expose this functionality anyway.
You sidestep the entire fixed-function hardware rasterization pipeline, and write your own as a complex of "compute shaders." If you can pull this off, something like an "alpha shader" would be part of your tile-based pipeline, but getting to that point is so much work that alpha blending would be the least of your concerns.
This can actually be accomplished using the gl 3.0 extension using the texture barrier function:
http://www.opengl.org/registry/specs/NV/texture_barrier.txt
Basically, after you write the background, you can the TextureBarrierNV() function to be sure texels are flushed, then you can perform a read/write operation in a single shader stage (be sure to avoid multisampling buffers because just one write operation is actually permitted)..
