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Add BackdropBlurContainer
#6393
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OP is missing discussion of performance of this, which I'd expect to see given reliance on buffered containers which we have found to be rather expensive (especially in terms of vram usage). |
Sure thing, I'll need a bit to do some proper benchmarks but for now I can go a bit into the performance considerations/testing I did so far. Is there anything specific you'd like to see in the benchmarks? In the bit of testing I did so far with lazer (frame limiter on "basically unlimited", nvidia 980ti, 2560x1440) I saw a drop from around 950 to 700-800fps on more slider-heavy sections at 50% blur resolution and down to 700-600 at full resolution. Lowering the resolution below that had deminishing returns, so I'm assuming the framebuffer overhead and/or blur shader is a key contributor here (though I can't say anything for sure before I get around to actually measuring things). The whole thing is using a single The most effective way to reduce vram overhead would probably be to use some form of texture/framebuffer pooling, requesting a temporary framebuffer with a minimum required size from the pool on each draw & returning it right after. I contributed the same effect to pixijs a couple months ago, which makes extensive use of texture pooling for filters/effects. (Example) Some other ideas for performance improvements are lowering the kernel size in the blur shader, unrolling the blur loop and/or using precomputed values for the gaussian distribution. I don't really know if those would improve performance in a meaningful way, they're just things I know pixijs does to speed up their blur shader, which has a shader pool that generates shader code on the fly for any requested kernel size. Can't really say anything conclusive about it though without testing & measuring first. |
I managed to get rid of most of the framebuffers. I made a I also tried using 2 buffers so I can do both blur passes at a lower resolution and I think that was slightly faster. My guess is that this is since the blur shader seems to have quite a bit of overhead on its own. But I'll need to do more measuring to say for sure. The drawing logic is now:
The blending formula in the final pass is still a bit incorrect which shows as a slightly darkish tint when alpha gets low, as well as slight artifacts on the edges with aa. There is some kinda premultiplied alpha weirdness going on that I cannot fully wrap my head around. |
Also a touch concerned about performance of this given that we've seen the blur algorithm we're using perform pretty badly on some hardware already.. |
If the blur shader in particular is of concern, I think it's probably best if I use 2 lowres buffers and only do the blending in the final pass so the second blur pass can happen at a lower resolution too. Assuming 25% resolution that would increase the amount of vram used per slider to 1.125x compared to master. |
With the second blur pass being at a lower resolution too now, assuming 25% resolution and 16px blur sigma it should be doing 5 texture samples per pixel for each blur pass. I also noticed that performance was degraded when BlurSigma was zero, so I made some changes to only activate the backbuffer when a container is actually doing some blurring. With the new changes I'm seeing pretty much identical performance with BlurSigma=0 compared to master now. |
Companion to ppy/osu#30347
Adds a
BackdropBlurContainer
that blurs the background behind it's children.It requires a parent of type
IBackbufferProvider
(aBufferedContainer
or aRefCountedBackbufferProvider
), who's framebuffer it will blur & then draw it back onto the framebuffer with a masking shader based on theBackdropBlurContainer
's children.Also adds a
RefCountedBackbufferProvider
which can be used to i.e. wrap the entire game in an on-demand buffercontainer, which automatically gets enabled when any of it's children need a backbuffer.There's still a bit of weirdness with texture clamping going on when
EffectBufferScale
goes above 1, but I couldn't quite figure that out on my own.2024-10-19.01-04-00.mp4