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I have a simple question of which I was unable to find solid facts about GPUs behaviour in case of 3 vertexes having the same varying output from vertex shader. Does the GPU notice that case or does it try to interpolate when its not even needed ?

This might be interesting as there are quite some cases where you want a constantish varying available in fragment shader per triangle. Please don't just guess, try to bring up references or atleast reasons why you think its the one way or another.

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As the number of varyings is fixed and basically all hardware will have been implemented to calculate the next value in one cycle, surely there'd be no advantage to engineering an additional special case pathway? I've no references, this is just a guess. So it's not an answer. –  Tommy Apr 10 at 23:01
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@ManuelArwedSchmidt: There is dedicated attribute interpolator hardware. AMD calls them SPIs (Shader Processor Interpolators), and in the DX11 shader model the pixel (fragment) shader is capable of requesting interpolation work on-demand rather than having it done before the shader even starts working. Really smart shader compilers could, therefore, avoid interpolating some parameters except for during the run-time execution of infrequent branches of code on hardware that supports the "pull-model". –  Andon M. Coleman Apr 11 at 2:27
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Since you wanted some supporting documentation, and AMD has the most open hardware architecture by lightyears, you should skim through this document for references to SPI. –  Andon M. Coleman Apr 11 at 2:32
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I can't imagine there is any perf gain to be had by implementing that. You'd need more complex hardware, more complex software to check, vs just doing it. Interpolation is not complex at all. You're basically just adding a constant at each pixel. So, while interesting, what's the point? You're arguably not going to get any perf gains. Even if there was a positive perf difference (I honestly believe there'd be a negative perf difference), but even if there was a positive one it would be tiny in comparison to the rest of your shader that it would be nearly unmeasurable. –  gman Apr 11 at 6:55
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Here's some code that implements varyings in software. You'll see they're a single add. Optimizing out that add would make code slower not faster as you'd have 2 options (1) generate a new code that doesn't have the adds. Then you'd end up having to generate new code for every combination of varyings. (2) use a kind of function pointer and set it to a no-op function. But just adding the function indirection would arguably make it slower. Especially because in real hardware there'd be no function. –  gman Apr 11 at 6:59

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