Add GSK_GPU_IMAGE_RENDERABLE and GSK_GPU_IMAGE_FILTERABLE and make sure
to check formats for this feature.
This requires reorganizing code to actually do this work instead of just
pretending formats are supported.
This fixes GLES upload tests with NGL.
I did it because it unifies the code.
But it also gains the benefit of being debuggable because it can
now be turned off via GDK_VULKAN_SKIP=incremental-present
This ensures both that we signal a semaphore for a dmabuf when we export
an image and that we import semaphores for dmabufs and wait on them.
Fixes Vulkan node-editor displaying the Vulkan renderer in the sidebar.
Make gsk_renderer_render_texture() create a dmabuf texture if that is
possible.
If it isn't (ie if we're not on Linux or if dmabufs are otherwise not
working) fall back to the previous code of creating a memory texture.
When using the uber shader a lot, we may overflow the (only 16kB large)
storage buffer.
Stop crashing when that happens and instead just allocate a new one.
This makes the (currently single) storage buffer handled by
GskGpuDescriptors.
A side effect is that we now have support for multiple buffers in place.
We just have to use it.
Mixed into this commit is a complete rework of the pattern writer.
Instead of writing straight into the buffer (complete with repeatedly
backtracking when we have to do offscreens), write into a temporary
buffer and copy into the storage buffer on committing.
The GL branch should eventually call into gdk_gl_context_get_scale(),
which is what checks for GDK_DEBUG=gl-fractional; whereas the Vulkan
branch needs no change.
If we have the choice between running the ubershader or a normal shader
with offscreens, make the choice depend on if the ubershader would
offscreen anyway.
If so, just run the normal shader.
This really gets rid of all ubershader invocations in Adwaita
widget-factory.
Instead of using an enum, use a usual custom class struct like we use
for GskGpuOp.
As a side effect of that refactoring, the display gained a hash table
for textures where we can't use the render data because the texture is
used in multiple renderers.
The goal here is that a texture is always cached and we can ensure that
there is a 1:1 relation between textures and their GskGpuImage. This is
important in particular for external textures - like dmabufs - where we
absolutely don't want 2 images with 2 device memories, and where we use
toggle references to keep them alive.
Reserve 3 texture units per immutable sampler (because that's the
maximum per YUV sampler).
Ensure that the max-sampler calculations always include the immutable
samplers, too.
We now handle the case where memory is not HOST_CACHED.
We also track the memory type now so we can avoid mapping image memory
that is not HOST_CACHED and use buffer transfers instead.
Shader compilers struggle with compiling code that indexes texture
arrays by indexes, so keep the fallback shaders simple and don't do that
there.
There's not much of a performance difference anyway between those two
methods.
In the case where descriptor indexing is not enabled and the number of
max images is small (or we use extensive amounts of immutable samplers),
we need to be able to switch descriptors.
This patch makes that possible.
We compile custom shaders for Vulkan 1.0 that don't require the
extension.
We also ensure that our accesses are uniform by only executing one
shader at a time.
Let the objects track the number of samplers or buffers needed.
This is a required step for making Vulkan work with less featureful
(read: mobile) implementations.
This is relevant went encountering repeat nodes, where the repeat cutoff
will make the fwidth of the position go wild otherwise.
Gradients require more work now, because we need to compute offsets
twice - once for the pixel, once for the offst.
Carry an n_external_textures variable around when selecting programs and
compile different programs for different amounts of external textures.
For now, this code is unused, but dmabufs will need it.
This adds GSK_GPU_IMAGE_CAN_MIPMAP and GSK_GPU_IMAGE_MIPMAP flags and
support to ensure_image() and image creation functions for creating a
mipmapped image.
Mipmaps are created using the new mipmap op that uses
glGenerateMipmap() on GL and equivalent blit ops on Vulkan.
This is then used to ensure the image is mipmapped when rendering it
with a texture-scale node.