Our conversion machinery supports converting from any color
state to any default color state or back. Direct conversion
between two non-default color states isn't guaranteed. For
converting *to* a cicp color state, we need this function.
Vulkan objects are integers on 32bit and it's failing when it's set to
just NULL.
```
../gdk/gdkvulkancontext.c:677:24: error: assignment to ‘VkSemaphore’ {aka ‘long long unsigned int’} from ‘void *’ makes integer from pointer without a cast [-Wint-conversion]
677 | priv->draw_semaphore = NULL;
```
We were passing the wrong rect to the clip mode computation, resulting
in a rounded rect every time, even though it should pretty much always
be unclipped.
The visual results are unaffected, because the clip sent to the shader
was still correct.
Instead of allocating one large descriptor pool and hoping we never run
out of descriptors, allocate small ones dynamically, so we know we never
run out.
Test incldued, though the test doesn't fail in CI, because llvmpipe
doesn't care about pool size limits. It does fail on my AMD though.
A fun side note about that test is that the GL renderer handles it best
in normal operationbecause it caches offscreens per node and we draw the
same node repeatedly.
But, the replay test expands them to duplicated unique nodes, and then
the GL renderer runs out of command queue length, so I had to disable
the test on it.
There is now a GskGpuYcbcr struct that maintains all the Vulkan
machinery related to YCbCrConversions.
It's a GskGpuCached, so it will make itself go away when it is no longer
used, ie a video stopped playing.
Now that we don't use the fancy features anymore, we don't need to
enable them.
And that also means we don't need an env var to disable it for testing.
Now that we don't do fancy texture stuff anymore, we don't need fancy
shaders either, so we can just compile against Vulkan 1.0 again.
And that means we need no fallback shaders for Vulkan 1.0 anymore.
Instead of trying to cram all descriptors into one large array and only
binding it at the start, we now keep 1 descriptor set per image+sampler
combo and just rebind it every time we switch textures.
This is the very dumb solution that essentially maps to what GL does,
but the performance impact is negligible compared to the complicated
dance we were attempting before.
Rewrite all shaders to use 2 predefined samplers called GSK_TEXTURE0 and
GSK_TEXTURE1 instead of wrapper functions.
On GL and Vulkan compat mode, these map directly to samplers.
On Vulkan proper, they map to 2 indices into the texture array, like
before.
From now on, the old nvidia GPUs - ie the 3xx drivers - should start
working again.
Fixes: #6564Fixes: #6574Fixes: #6654
This allows GskGpuFrame implementations to store data per vertex
attribute.
This is just the plumbing, no actual implementation is done in this
commit.
This guarantees that the images get ID 0 and 1 (on GL), which is going
to be quite important for the next steps.
Just for funsies, here's fps numbers on my desktop for this change:
NGL 1500 => 1400
Vulkan 2650 => 2250
This by itself is just more work refcounting all those images, but
there's actually a goal here, that will become visible in future
commits.
But this is split out for correctness and benchmarking purposes (the
overhead from refcounting seems to be negligible on my computer).
Just define GSK_N_TEXTURES in every glsl file, extract that #define in
the python parser and emit a static const uint variable
"{shader_name}_n_textures" in the generated header.
It's a struct collecting all relevant info for a texture passed to a
shader.
The ultimate goal is to get rid of the descriptors and let ops
manage them on thir own.
If GskGpuCache has an idea of what time it is, cached items can use that
time to update their last-use time instead of having to carry it around
throught function calls everywhere.
Port an optimization of the GL renderer where it fast-paths crossfades
with progress <= 0 and >=1 - which should really never happen because
nobody should emit them in the first place, but oh well.
YUV dmabufs are not sRGB.
So instead of making the dmabuf builder have sRGB as the default
colorstate, add a NULL default option that makes the builder choose
the colorstate based on fourcc when build() is called.
If that happens, we pick sRGB usually, but for YUV we pick narrow range
BT601, like we did in versions before colorstates.
We no longer hardcode the few different classes we have, but generically
walk over all classes.
As a side effect we now get new classes added to stats automatically.
The content itself did not change.